image
imagewidth (px)
512
512
glb_file
stringlengths
92
92
Grammar_string
stringlengths
38
417
Cost ($)
float64
582
15k
Number of Batteries
int64
1
6
Number of Motor-Rotor Pairs
int64
4
26
Number of Airfoils
int64
0
8
Number of Connectors
int64
4
55
Weight of Batteries (lb)
float64
2.12
176
Weight of Motor-Rotor Pair (lb)
float64
0.74
64.9
Weight of Airfoils (lb)
float64
0
42.2
Total Weight (lb)
float64
2.87
232
Total Thrust (lb)
float64
23.2
1.26k
Normalized Average Structure Size
float64
0
1
Normalized Average Motor Size
float64
0
1
Normalized Average Foil Size
float64
0
1
Design Descriptor
stringlengths
293
305
Operations Descriptor
stringlengths
709
747
Performance
listlengths
1
26
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0201.glb?download=true
*aMM0+++*bNM2+++++*cMN1+++++*dLM2++++*eML1++^ab^ac^ad^ae
3,349.735
1
4
0
4
31.389715
15.060178
0
46.449895
295.912573
0.432432
0.62963
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 46.4498953216553 pounds in total and can lift itself and more, thanks to its strong thrust of 295.912573242188 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.6746019-0.6746019 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.6746019 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3349.735, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.6746019, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0202.glb?download=true
*aMM0+++*bNM2+++++*cMN1+++++*dLM2*eML1^ab^ac^ad^ae
3,087.235
1
4
0
4
31.389715
10.926553
0
42.31627
217.162546
0.432432
0.481481
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 42.3162703216553 pounds in total and can lift itself and more, thanks to its strong thrust of 217.162545776367 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.1159423-0.1159423 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.1159423 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3087.235, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.1159423, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0203.glb?download=true
*aMM0+++*bNM2+++++*cMN1++++*dLM2*eML1^ab^ac^ad^ae
2,992.297
1
4
0
4
31.389715
9.431558
0
40.821271
188.681314
0.432432
0.444444
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 40.8212709007263 pounds in total and can lift itself and more, thanks to its strong thrust of 188.681314086914 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.3666756-0.3666756 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.3666756 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2992.297, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.3666756, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0204.glb?download=true
*aMM0+++*bNM2+++++*cMN1++*dLM2*eML1^ab^ac^ad^ae
2,862.797
1
4
0
4
31.389715
7.392302
0
38.782018
149.831296
0.432432
0.37037
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 38.7820175827026 pounds in total and can lift itself and more, thanks to its strong thrust of 149.831295776367 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.7230174-0.7230174 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.7230174 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2862.797, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.7230174, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0205.glb?download=true
*aMM0+++*bNM2+++++*cMN1+*dLM2*eML1^ab^ac^ad^ae
2,822.984
1
4
0
4
31.389715
6.765368
0
38.155082
137.887537
0.432432
0.333333
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 38.1550819347382 pounds in total and can lift itself and more, thanks to its strong thrust of 137.887536621094 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.8763577-0.8763577 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.8763577 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2822.984, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.8763577, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0206.glb?download=true
*aMM0+++*bNM2+++++*cMN1+++*dLM2*eML1^ab^ac^ad^ae
2,918.36
1
4
0
4
31.389715
8.267253
0
39.656969
166.500055
0.432432
0.407407
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 39.6569690486908 pounds in total and can lift itself and more, thanks to its strong thrust of 166.500054931641 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.5814525-0.5814525 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.5814525 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2918.36, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.5814525, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0207.glb?download=true
*aMM0+++++*bNM4*cMN4*dLM4*eML4*fOM2++*gMO1++*hKM2++*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
3,181.45
1
4
0
8
38.89466
4.905237
0
43.799895
102.45003
0.486486
0.333333
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 43.7998953777313 pounds in total and can lift itself and more, thanks to its strong thrust of 102.450029754639 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 22.18811-22.18811 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 22.18811 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3181.45, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 22.18811, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0208.glb?download=true
*aMM0+++++*bNM4*cMN4*dLM4*eML4*fOM2++*gMO1++*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
3,114.95
1
4
0
8
38.89466
3.858051
0
42.75271
82.500025
0.486486
0.259259
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 42.7527095367432 pounds in total and can lift itself and more, thanks to its strong thrust of 82.500025177002 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.8092788-0.8092788 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.8092788 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3114.95, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.8092788, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0209.glb?download=true
*aMM0+++++*bNM4*cMN4*dLM4*eML4*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
2,981.95
1
4
0
8
38.89466
1.763681
0
40.658342
42.600009
0.486486
0.111111
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 40.6583420597076 pounds in total and can lift itself and more, thanks to its strong thrust of 42.6000091552734 pounds.
This drone configuration has a feasible flying range of 0.6773586-0.6773586 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 17.45735-17.45735 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.6773586 miles, and can reach maximum speeds up to 17.45735 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2981.95, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "HitBoundary", "Flying Range": 0.6773586, "Payload Capacity (lb)": 0, "Velocity (mph)": 17.45735, "Performance Descriptor": "This drone for the payload of 0 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0210.glb?download=true
*aMM0++++++*bNM4*cMN4*dLM4*eML4*fOM2++*gMO1++*hKM2++*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
3,445.874
1
4
0
8
43.058577
4.905237
0
47.963813
102.45003
0.513514
0.333333
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 47.963812771225 pounds in total and can lift itself and more, thanks to its strong thrust of 102.450029754639 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 26.45746-26.45746 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 26.45746 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3445.874, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 26.45746, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0211.glb?download=true
*aMM0++++++*bNM4*cMN4*dLM4*eML4*fOM2++*gMO1++*hKM2+*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
3,406.062
1
4
0
8
43.058577
4.278303
0
47.336881
90.506277
0.513514
0.296296
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 47.3368813282013 pounds in total and can lift itself and more, thanks to its strong thrust of 90.5062774658203 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 15.1103-15.1103 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 15.1103 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3406.062, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 15.1103, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0212.glb?download=true
*aMM0+++++*bNM2++++*cMN1++++*dLM2+++*eML1+++^ab^ac^ad^ae
3,618.076
1
4
0
4
38.89466
11.780837
0
50.675495
233.437555
0.486486
0.518519
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 50.675494991684 pounds in total and can lift itself and more, thanks to its strong thrust of 233.437554931641 pounds.
This drone configuration has a feasible flying range of 0.3428928-5.943968 miles, evaluated over the payload range of 0-20 pounds. This configuration has a velocity range of 6.708864-18.57095 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 5.943968 miles, and can reach maximum speeds up to 18.57095 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3618.0759999999996, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "Success", "Flying Range": 5.943968, "Payload Capacity (lb)": 0, "Velocity (mph)": 18.57095, "Performance Descriptor": "This drone can fly up to 5.943968 miles. It can carry heavy things, up to 0 pounds. Also, it can achieve a max speed of 18.57095 miles per hour, at its max payload capacity. This drone costs around $3618.076, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 3.088617, "Payload Capacity (lb)": 4, "Velocity (mph)": 15.11417, "Performance Descriptor": "This drone can fly up to 3.088617 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 15.11417 miles per hour, at its max payload capacity. This drone costs around $3618.076, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 1.818591, "Payload Capacity (lb)": 8, "Velocity (mph)": 12.2181, "Performance Descriptor": "This drone can fly up to 1.818591 miles. It can carry heavy things, up to 8 pounds. Also, it can achieve a max speed of 12.2181 miles per hour, at its max payload capacity. This drone costs around $3618.076, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 0.6383942, "Payload Capacity (lb)": 12, "Velocity (mph)": 9.325848, "Performance Descriptor": "This drone can fly up to 0.6383942 miles. It can carry heavy things, up to 12 pounds. Also, it can achieve a max speed of 9.325848 miles per hour, at its max payload capacity. This drone costs around $3618.076, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 0.3428928, "Payload Capacity (lb)": 16, "Velocity (mph)": 6.708864, "Performance Descriptor": "This drone can fly up to 0.3428928 miles. It can carry heavy things, up to 16 pounds. Also, it can achieve a max speed of 6.708864 miles per hour, at its max payload capacity. This drone costs around $3618.076, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 1.000036, "Payload Capacity (lb)": 20, "Velocity (mph)": 11.38444, "Performance Descriptor": "This drone can fly up to 1.000036 miles. It can carry heavy things, up to 20 pounds. Also, it can achieve a max speed of 11.38444 miles per hour, at its max payload capacity. This drone costs around $3618.076, adding up costs of all the components used to achieve this configuration." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0213.glb?download=true
*aMM0+++++*bNM2++++*cMN1++++*dLM2+++*eML1++^ab^ac^ad^ae
3,562.513
1
4
0
4
38.89466
10.905885
0
49.800544
216.76881
0.486486
0.518519
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 49.8005435256958 pounds in total and can lift itself and more, thanks to its strong thrust of 216.768809509277 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.1149328-0.1149328 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.1149328 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3562.513, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.1149328, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0214.glb?download=true
*aMM0+++++*bNM2++++*cMN1++++*dLM2+++*eML1+^ab^ac^ad^ae
3,522.7
1
4
0
4
38.89466
10.278951
0
49.173612
204.82505
0.486486
0.518519
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 49.1736120826721 pounds in total and can lift itself and more, thanks to its strong thrust of 204.825050354004 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.1876441-0.1876441 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.1876441 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3522.7, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.1876441, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0215.glb?download=true
*aMM0+++++*bNM2++++*cMN1*dLM2*eML1^ab^ac^ad^ae
3,177.95
1
4
0
4
38.89466
4.850122
0
43.744781
101.400025
0.486486
0.259259
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 43.7447812187195 pounds in total and can lift itself and more, thanks to its strong thrust of 101.400025177002 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 212.7319-212.7319 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 212.7319 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3177.95, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 212.7319, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0216.glb?download=true
*aMM0*bNM2+*cMN1+*dLM2++*eML1+^ab^ac^ad^ae
2,058.563
1
4
0
4
22.046002
4.071622
0
26.117623
86.568771
0.351351
0.259259
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 26.1176231479645 pounds in total and can lift itself and more, thanks to its strong thrust of 86.5687705993652 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.2461104-0.2461104 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.2461104 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2058.563, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.2461104, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0217.glb?download=true
*aMM0*bNM2+*cMN1+*dLM2++*eML1^ab^ac^ad^ae
2,031.875
1
4
0
4
22.046002
3.65137
0
25.697373
78.562518
0.351351
0.259259
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 25.6973729549408 pounds in total and can lift itself and more, thanks to its strong thrust of 78.5625183105469 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.4028476-0.4028476 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.4028476 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2031.875, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.4028476, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0218.glb?download=true
*aMM0+++*bNM2+*cMN1+*dLM2++*eML1+^ab^ac^ad^ae
2,651.922
1
4
0
4
31.389715
4.071622
0
35.461338
86.568771
0.432432
0.259259
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 35.4613379917145 pounds in total and can lift itself and more, thanks to its strong thrust of 86.5687705993652 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.1106968-0.1106968 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.1106968 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2651.922, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.1106968, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0219.glb?download=true
*aMM0+*bNM3*cMN4*dLM3*eML4*fOM2+++*gMO1+++*hKM2+++*iMK1+++^ab^ac^ad^ae^bf^cg^dh^ei
2,742.845
1
4
2
8
24.918168
9.452226
8.829502
43.199897
189.075064
0.378378
0.444444
0.614035
This drone is made up of 1 part and has 4 engines that help it move. It also has 2 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 43.1998965805054 pounds in total and can lift itself and more, thanks to its strong thrust of 189.075064086914 pounds.
This drone configuration has a feasible flying range of 0.0-75.08646 miles, evaluated over the payload range of 0-52 pounds. This configuration has a velocity range of 7.871588e-06-11.41646 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 75.08646 miles, and can reach maximum speeds up to 11.41646 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2742.845, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "Success", "Flying Range": 75.08646, "Payload Capacity (lb)": 0, "Velocity (mph)": 9.454829, "Performance Descriptor": "This drone can fly up to 75.08646 miles. It can carry heavy things, up to 0 pounds. Also, it can achieve a max speed of 9.454829 miles per hour, at its max payload capacity. This drone costs around $2742.845, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 27.53686, "Payload Capacity (lb)": 4, "Velocity (mph)": 10.11462, "Performance Descriptor": "This drone can fly up to 27.53686 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 10.11462 miles per hour, at its max payload capacity. This drone costs around $2742.845, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 12.34793, "Payload Capacity (lb)": 8, "Velocity (mph)": 10.75286, "Performance Descriptor": "This drone can fly up to 12.34793 miles. It can carry heavy things, up to 8 pounds. Also, it can achieve a max speed of 10.75286 miles per hour, at its max payload capacity. This drone costs around $2742.845, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 5.782283, "Payload Capacity (lb)": 12, "Velocity (mph)": 11.41646, "Performance Descriptor": "This drone can fly up to 5.782283 miles. It can carry heavy things, up to 12 pounds. Also, it can achieve a max speed of 11.41646 miles per hour, at its max payload capacity. This drone costs around $2742.845, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 2.776284, "Payload Capacity (lb)": 16, "Velocity (mph)": 11.26137, "Performance Descriptor": "This drone can fly up to 2.776284 miles. It can carry heavy things, up to 16 pounds. Also, it can achieve a max speed of 11.26137 miles per hour, at its max payload capacity. This drone costs around $2742.845, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 1.795477, "Payload Capacity (lb)": 20, "Velocity (mph)": 10.21471, "Performance Descriptor": "This drone can fly up to 1.795477 miles. It can carry heavy things, up to 20 pounds. Also, it can achieve a max speed of 10.21471 miles per hour, at its max payload capacity. This drone costs around $2742.845, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 1.445196, "Payload Capacity (lb)": 24, "Velocity (mph)": 9.24305, "Performance Descriptor": "This drone can fly up to 1.445196 miles. It can carry heavy things, up to 24 pounds. Also, it can achieve a max speed of 9.24305 miles per hour, at its max payload capacity. This drone costs around $2742.845, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 0.4696197, "Payload Capacity (lb)": 28, "Velocity (mph)": 9.238845, "Performance Descriptor": "This drone can fly up to 0.4696197 miles. It can carry heavy things, up to 28 pounds. Also, it can achieve a max speed of 9.238845 miles per hour, at its max payload capacity. This drone costs around $2742.845, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 0.3327278, "Payload Capacity (lb)": 32, "Velocity (mph)": 8.065025, "Performance Descriptor": "This drone can fly up to 0.3327278 miles. It can carry heavy things, up to 32 pounds. Also, it can achieve a max speed of 8.065025 miles per hour, at its max payload capacity. This drone costs around $2742.845, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 0.2259793, "Payload Capacity (lb)": 36, "Velocity (mph)": 6.455492, "Performance Descriptor": "This drone can fly up to 0.2259793 miles. It can carry heavy things, up to 36 pounds. Also, it can achieve a max speed of 6.455492 miles per hour, at its max payload capacity. This drone costs around $2742.845, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 0.131272, "Payload Capacity (lb)": 40, "Velocity (mph)": 4.695438, "Performance Descriptor": "This drone can fly up to 0.131272 miles. It can carry heavy things, up to 40 pounds. Also, it can achieve a max speed of 4.695438 miles per hour, at its max payload capacity. This drone costs around $2742.845, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 0.04999223, "Payload Capacity (lb)": 44, "Velocity (mph)": 2.646113, "Performance Descriptor": "This drone can fly up to 0.04999223 miles. It can carry heavy things, up to 44 pounds. Also, it can achieve a max speed of 2.646113 miles per hour, at its max payload capacity. This drone costs around $2742.845, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 0.002947187, "Payload Capacity (lb)": 48, "Velocity (mph)": 0.4409471, "Performance Descriptor": "This drone can fly up to 0.002947187 miles. It can carry heavy things, up to 48 pounds. Also, it can achieve a max speed of 0.4409471 miles per hour, at its max payload capacity. This drone costs around $2742.845, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 52, "Velocity (mph)": 0.00000787, "Performance Descriptor": "This drone could not hover. The drone for a payload of 52 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0220.glb?download=true
*aMM0+*bNM3*cMN4*dLM3*eML4*fOM2+++*gMO1+++*hKM2+++*iMK1+^ab^ac^ad^ae^bf^cg^dh^ei
2,647.469
1
4
2
8
24.918168
7.950341
8.829502
41.698009
160.46256
0.378378
0.444444
0.614035
This drone is made up of 1 part and has 4 engines that help it move. It also has 2 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 41.6980094665527 pounds in total and can lift itself and more, thanks to its strong thrust of 160.462559509277 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.7056169-0.7056169 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.7056169 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2647.469, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.7056169, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0221.glb?download=true
*aMM0++++*bNM2+*cMN1*dLM2*eML1^ab^ac^ad^ae
2,761.835
1
4
0
4
35.008228
2.183932
0
37.192159
50.606261
0.459459
0.148148
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 37.192158902359 pounds in total and can lift itself and more, thanks to its strong thrust of 50.6062614440918 pounds.
This drone configuration has a feasible flying range of 1.08039-1.08039 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 9.598442-9.598442 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 1.08039 miles, and can reach maximum speeds up to 9.598442 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2761.835, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "HitBoundary", "Flying Range": 1.08039, "Payload Capacity (lb)": 0, "Velocity (mph)": 9.598442, "Performance Descriptor": "This drone for the payload of 0 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0222.glb?download=true
*aMM0++++++*bNM2*cMN1+*dLM2+*eML1*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
3,611.749
1
8
0
8
43.058577
4.367865
0
47.426442
101.212523
0.513514
0.142857
0
This drone is made up of 1 part and has 8 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 47.4264423622131 pounds in total and can lift itself and more, thanks to its strong thrust of 101.212522888184 pounds.
This drone configuration has a feasible flying range of 1.930535-1.930535 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 23.39554-23.39554 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 1.930535 miles, and can reach maximum speeds up to 23.39554 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3611.749, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "HitBoundary", "Flying Range": 1.930535, "Payload Capacity (lb)": 0, "Velocity (mph)": 23.39554, "Performance Descriptor": "This drone for the payload of 0 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0223.glb?download=true
*aMM0++++++*bNM2*cMN1+*dLM2+*eML1+*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
3,638.437
1
8
0
8
43.058577
4.788117
0
47.846693
109.218775
0.513514
0.15873
0
This drone is made up of 1 part and has 8 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 47.8466925552368 pounds in total and can lift itself and more, thanks to its strong thrust of 109.218775177002 pounds.
This drone configuration has a feasible flying range of 6.037627-6.037627 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 55.91701-55.91701 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 6.037627 miles, and can reach maximum speeds up to 55.91701 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3638.437, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "HitBoundary", "Flying Range": 6.037627, "Payload Capacity (lb)": 0, "Velocity (mph)": 55.91701, "Performance Descriptor": "This drone for the payload of 0 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0224.glb?download=true
*aMM0*bNM2*cMN1*dLM2+*eML1+^ab^ac^ad^ae
1,965.375
1
4
0
4
22.046002
2.604184
0
24.650187
58.612514
0.351351
0.148148
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 24.6501871139526 pounds in total and can lift itself and more, thanks to its strong thrust of 58.6125137329102 pounds.
This drone configuration has a feasible flying range of 2.150954-11.84232 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 36.05669-45.01731 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 11.84232 miles, and can reach maximum speeds up to 45.01731 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $1965.375, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "Success", "Flying Range": 11.84232, "Payload Capacity (lb)": 0, "Velocity (mph)": 45.01731, "Performance Descriptor": "This drone can fly up to 11.84232 miles. It can carry heavy things, up to 0 pounds. Also, it can achieve a max speed of 45.01731 miles per hour, at its max payload capacity. This drone costs around $1965.375, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "HitBoundary", "Flying Range": 2.150954, "Payload Capacity (lb)": 4, "Velocity (mph)": 36.05669, "Performance Descriptor": "This drone for the payload of 4 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0225.glb?download=true
*aMM0*bNM2*cMN1*dLM2+*eML1^ab^ac^ad^ae
1,938.688
1
4
0
4
22.046002
2.183933
0
24.229935
50.606261
0.351351
0.148148
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 24.2299348184586 pounds in total and can lift itself and more, thanks to its strong thrust of 50.6062614440918 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.1496816-0.1496816 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.1496816 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $1938.688, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.1496816, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0226.glb?download=true
*aMM0++++++*bNM4*cMN4*dLM4*eML4*fOM2+++*gMO1++*hKM2++*iMK1++^ab^ac^ad^ae^bf^cg^dh^ei
3,567.937
1
4
0
8
43.058577
6.827373
0
49.88595
139.0688
0.513514
0.37037
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 49.8859500782013 pounds in total and can lift itself and more, thanks to its strong thrust of 139.068800354004 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.05009009-0.05009009 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.05009009 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3567.937, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.05009009, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0227.glb?download=true
*aMM0++++++*bNM4*cMN4*dLM4*eML4*fOM2+++*gMO1++*hKM2++*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
3,501.437
1
4
0
8
43.058577
5.780188
0
48.838764
119.118796
0.513514
0.37037
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 48.8387642372131 pounds in total and can lift itself and more, thanks to its strong thrust of 119.118795776367 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 19.44164-19.44164 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 19.44164 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3501.437, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 19.44164, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0228.glb?download=true
*aMM0+++++++*bNM2+++++*cMN1+++++*dLM2+++++*eML1++++^ab^ac^ad^ae
4,597.84
1
4
0
4
47.509553
18.594429
0
66.103982
363.243823
0.540541
0.666667
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 66.1039820289612 pounds in total and can lift itself and more, thanks to its strong thrust of 363.243823242187 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.1241101-0.1241101 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.1241101 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4597.84, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.1241101, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0229.glb?download=true
*aMM0+++++++*bNM2+++++*cMN1+++++*dLM2+++++*eML1+^ab^ac^ad^ae
4,428.527
1
4
0
4
47.509553
15.92824
0
63.437793
312.450046
0.540541
0.666667
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 63.437793062973 pounds in total and can lift itself and more, thanks to its strong thrust of 312.450045776367 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.4178085-0.4178085 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.4178085 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4428.527, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.4178085, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0230.glb?download=true
*aMM0+++++++*bNM2+++++*cMN1+++++*dLM2+++++*eML1++^ab^ac^ad^ae
4,468.34
1
4
0
4
47.509553
16.555174
0
64.064729
324.393805
0.540541
0.666667
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 64.0647287109375 pounds in total and can lift itself and more, thanks to its strong thrust of 324.393804931641 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.2545091-0.2545091 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.2545091 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4468.34, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.2545091, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0231.glb?download=true
*aMM0+++++++*bNM2+++++*cMN1+++++*dLM2+++++*eML1^ab^ac^ad^ae
4,401.84
1
4
0
4
47.509553
15.507989
0
63.017543
304.443814
0.540541
0.666667
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 63.0175428699493 pounds in total and can lift itself and more, thanks to its strong thrust of 304.443814086914 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 2.800595-2.800595 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 2.800595 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4401.84, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 2.800595, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0232.glb?download=true
*aMM0+++++++*bNM2+++++*cMN1+++++*dLM2++++*eML1^ab^ac^ad^ae
4,306.902
1
4
0
4
47.509553
14.012994
0
61.522548
275.962582
0.540541
0.62963
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 61.5225476539612 pounds in total and can lift itself and more, thanks to its strong thrust of 275.962582397461 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 4.450133-4.450133 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 4.450133 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4306.902, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 4.450133, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0233.glb?download=true
*aMM0+++++++*bNM2+++++*cMN1+++++*dLM2+++*eML1^ab^ac^ad^ae
4,232.965
1
4
0
4
47.509553
12.84869
0
60.358242
253.781323
0.540541
0.592593
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 60.3582415969849 pounds in total and can lift itself and more, thanks to its strong thrust of 253.781323242188 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 31.82413-31.82413 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 31.82413 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4232.965, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 31.82413, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0234.glb?download=true
*aMM0+++++++*bNM2+++++*cMN1+++++*dLM2+*eML1^ab^ac^ad^ae
4,137.59
1
4
0
4
47.509553
11.346805
0
58.856359
225.168805
0.540541
0.518519
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 58.856358687973 pounds in total and can lift itself and more, thanks to its strong thrust of 225.168804931641 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 154.6444-154.6444 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 154.6444 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4137.59, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 154.6444, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0235.glb?download=true
*aMM0*bNM2+++*cMN1+++*dLM2++*eML1++^ab^ac^ad^ae
2,289.125
1
4
0
4
22.046002
7.702324
0
29.748327
155.73756
0.351351
0.407407
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 29.748326716423 pounds in total and can lift itself and more, thanks to its strong thrust of 155.737559509277 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.05418233-0.05418233 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.05418233 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2289.125, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.05418233, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0236.glb?download=true
*aMM0*bNM2+++*cMN1+++*dLM2++*eML1+^ab^ac^ad^ae
2,249.313
1
4
0
4
22.046002
7.075391
0
29.121393
143.7938
0.351351
0.407407
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 29.121393170929 pounds in total and can lift itself and more, thanks to its strong thrust of 143.793800354004 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.2824314-0.2824314 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.2824314 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2249.313, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.2824314, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0237.glb?download=true
*aMM0++++++++*bNM2+++*cMN1+++*dLM2+*eML1^ab^ac^ad^ae
4,101.329
1
4
0
4
52.257146
6.028206
0
58.285353
123.843796
0.567568
0.37037
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 58.2853529575348 pounds in total and can lift itself and more, thanks to its strong thrust of 123.843795776367 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 13.6739-13.6739 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 13.6739 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4101.329, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 13.6739, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0238.glb?download=true
*aMM0+++++++++*bNM2+++*cMN1+++*dLM2++*eML1^ab^ac^ad^ae
4,462.076
1
4
0
4
57.310946
6.655139
0
63.966085
135.787555
0.594595
0.407407
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 63.9660850048065 pounds in total and can lift itself and more, thanks to its strong thrust of 135.787554931641 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 15.84231-15.84231 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 15.84231 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4462.076, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 15.84231, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0239.glb?download=true
*aMM0++++*bNM2+*cMN1+*dLM2+*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
2,815.21
1
4
0
8
35.008228
3.024437
0
38.032663
66.618759
0.459459
0.194444
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 38.0326634933472 pounds in total and can lift itself and more, thanks to its strong thrust of 66.6187591552734 pounds.
This drone configuration has a feasible flying range of 1.039859-1.039859 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 13.25438-13.25438 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 1.039859 miles, and can reach maximum speeds up to 13.25438 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2815.21, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "HitBoundary", "Flying Range": 1.039859, "Payload Capacity (lb)": 0, "Velocity (mph)": 13.25438, "Performance Descriptor": "This drone for the payload of 0 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0240.glb?download=true
*aMM0+++*bNM2++++*cMN1++++*dLM2+++*eML1+++^ab^ac^ad^ae
3,141.485
1
4
0
4
31.389715
11.780837
0
43.17055
233.437555
0.432432
0.518519
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 43.1705502986908 pounds in total and can lift itself and more, thanks to its strong thrust of 233.437554931641 pounds.
This drone configuration has a feasible flying range of 0.0-0.9104529 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 0.05797502-10.66568 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.9104529 miles, and can reach maximum speeds up to 10.66568 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3141.485, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "Success", "Flying Range": 0.9104529, "Payload Capacity (lb)": 0, "Velocity (mph)": 10.66568, "Performance Descriptor": "This drone can fly up to 0.9104529 miles. It can carry heavy things, up to 0 pounds. Also, it can achieve a max speed of 10.66568 miles per hour, at its max payload capacity. This drone costs around $3141.485, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 0.1092411, "Payload Capacity (lb)": 4, "Velocity (mph)": 1.904394, "Performance Descriptor": "This drone can fly up to 0.1092411 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 1.904394 miles per hour, at its max payload capacity. This drone costs around $3141.485, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 8, "Velocity (mph)": 0.05797502, "Performance Descriptor": "This drone could not hover. The drone for a payload of 8 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0241.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1+++++*dLM2+++++*eML1+++++^ab^ac^ad^ae
5,220.263
1
4
0
4
57.310946
18.594429
0
75.905371
363.243851
0.594595
0.62963
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 75.9053710388184 pounds in total and can lift itself and more, thanks to its strong thrust of 363.243850708008 pounds.
This drone configuration has a feasible flying range of 0.0-0.3910059 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 0.05357135-3.464202 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.3910059 miles, and can reach maximum speeds up to 3.464202 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $5220.263, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "Success", "Flying Range": 0.3910059, "Payload Capacity (lb)": 0, "Velocity (mph)": 3.464202, "Performance Descriptor": "This drone can fly up to 0.3910059 miles. It can carry heavy things, up to 0 pounds. Also, it can achieve a max speed of 3.464202 miles per hour, at its max payload capacity. This drone costs around $5220.263, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 4, "Velocity (mph)": 0.05357135, "Performance Descriptor": "This drone could not hover. The drone for a payload of 4 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0242.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1+++++*dLM2+++++*eML1++++^ab^ac^ad^ae
5,125.326
1
4
0
4
57.310946
17.099434
0
74.41038
334.762592
0.594595
0.62963
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 74.410380027771 pounds in total and can lift itself and more, thanks to its strong thrust of 334.762591552734 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.06990577-0.06990577 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.06990577 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $5125.326, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.06990577, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0243.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1+++++*dLM2++++*eML1^ab^ac^ad^ae
4,834.388
1
4
0
4
57.310946
12.517999
0
69.828946
247.481323
0.594595
0.592593
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 69.828945652771 pounds in total and can lift itself and more, thanks to its strong thrust of 247.481323242188 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 1.002962-1.002962 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 1.002962 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4834.388, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 1.002962, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0244.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1+++++*dLM2+++++*eML1+++^ab^ac^ad^ae
5,051.388
1
4
0
4
57.310946
15.93513
0
73.246074
312.581332
0.594595
0.62963
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 73.2460739707947 pounds in total and can lift itself and more, thanks to its strong thrust of 312.581332397461 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.2870167-0.2870167 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.2870167 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $5051.388, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.2870167, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0245.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1+++++*dLM2+++++*eML1++^ab^ac^ad^ae
4,995.826
1
4
0
4
57.310946
15.060178
0
72.371127
295.912573
0.594595
0.62963
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 72.3711267097473 pounds in total and can lift itself and more, thanks to its strong thrust of 295.912573242188 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.714918-0.714918 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.714918 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4995.826, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.714918, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0246.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1+++++*dLM2+++++*eML1^ab^ac^ad^ae
4,929.326
1
4
0
4
57.310946
14.012994
0
71.323937
275.962582
0.594595
0.62963
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 71.3239366638184 pounds in total and can lift itself and more, thanks to its strong thrust of 275.962582397461 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 2.493413-2.493413 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 2.493413 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4929.326, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 2.493413, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0247.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1+++++*dLM2+++*eML1^ab^ac^ad^ae
4,760.451
1
4
0
4
57.310946
11.353694
0
68.66464
225.300064
0.594595
0.555556
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 68.6646395957947 pounds in total and can lift itself and more, thanks to its strong thrust of 225.300064086914 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 20.96925-20.96925 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 20.96925 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4760.451, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 20.96925, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0248.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1+++++*dLM2++*eML1^ab^ac^ad^ae
4,704.888
1
4
0
4
57.310946
10.478744
0
67.789692
208.631305
0.594595
0.518519
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 67.7896923347473 pounds in total and can lift itself and more, thanks to its strong thrust of 208.631304931641 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 45.16497-45.16497 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 45.16497 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4704.888, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 45.16497, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0249.glb?download=true
*aMM0+++++++*bNM4*cMN4*dLM4*eML4*fOM2+++*gMO1+++*hKM2+++*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
3,895.215
1
4
0
8
47.509553
7.53009
0
55.039643
152.456314
0.540541
0.444444
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 55.0396432559967 pounds in total and can lift itself and more, thanks to its strong thrust of 152.456314086914 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 4.566465-4.566465 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 4.566465 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3895.215, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 4.566465, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0250.glb?download=true
*aMM0+++++++*bNM4*cMN4*dLM4*eML4*fOM2+++*gMO1+++*hKM2++*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
3,839.652
1
4
0
8
47.509553
6.655139
0
54.164692
135.787555
0.540541
0.407407
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 54.1646917900085 pounds in total and can lift itself and more, thanks to its strong thrust of 135.787554931641 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 17.91764-17.91764 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 17.91764 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3839.652, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 17.91764, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0251.glb?download=true
*aMM0+++++++*bNM4*cMN4*dLM4*eML4*fOM2+++*gMO1+++*hKM2+*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
3,799.84
1
4
0
8
47.509553
6.028206
0
53.53776
123.843796
0.540541
0.37037
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 53.5377603469849 pounds in total and can lift itself and more, thanks to its strong thrust of 123.843795776367 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 9.845504-9.845504 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 9.845504 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3799.84, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 9.845504, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0252.glb?download=true
*aMM0++++*bNM2+++*cMN1+++*dLM2++++*eML1+++^ab^ac^ad^ae
3,297.336
1
4
0
4
35.008228
10.616532
0
45.62476
211.256323
0.459459
0.481481
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 45.6247597892761 pounds in total and can lift itself and more, thanks to its strong thrust of 211.256323242188 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.2264682-0.2264682 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.2264682 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3297.336, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.2264682, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0253.glb?download=true
*aMM0+++++*bNM2+++++*cMN1+++++*dLM2*eML1^ab^ac^ad^ae
3,563.825
1
4
0
4
38.89466
10.926553
0
49.821215
217.162546
0.486486
0.481481
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 49.8212150146484 pounds in total and can lift itself and more, thanks to its strong thrust of 217.162545776367 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.9907705-0.9907705 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.9907705 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3563.825, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.9907705, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0254.glb?download=true
*aMM0+++++*bNM2+++++*cMN1++++*dLM2*eML1^ab^ac^ad^ae
3,468.888
1
4
0
4
38.89466
9.431558
0
48.326216
188.681314
0.486486
0.444444
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 48.3262155937195 pounds in total and can lift itself and more, thanks to its strong thrust of 188.681314086914 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 20.30463-20.30463 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 20.30463 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3468.888, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 20.30463, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0255.glb?download=true
*aMM0+++++*bNM2+++++*cMN1+*dLM2*eML1^ab^ac^ad^ae
3,299.575
1
4
0
4
38.89466
6.765368
0
45.660027
137.887537
0.486486
0.333333
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 45.6600266277313 pounds in total and can lift itself and more, thanks to its strong thrust of 137.887536621094 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 20.8389-20.8389 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 20.8389 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3299.575, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 20.8389, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0256.glb?download=true
*aMM0+++++*bNM2+++++*cMN1++*dLM2*eML1^ab^ac^ad^ae
3,339.388
1
4
0
4
38.89466
7.392302
0
46.286962
149.831296
0.486486
0.37037
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 46.2869622756958 pounds in total and can lift itself and more, thanks to its strong thrust of 149.831295776367 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 20.45873-20.45873 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 20.45873 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3339.388, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 20.45873, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0257.glb?download=true
*aMM0+*bNM2+*cMN1*dLM2*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
2,121.081
1
4
0
8
24.918168
2.183932
0
27.102101
50.606261
0.378378
0.138889
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 27.1021007068634 pounds in total and can lift itself and more, thanks to its strong thrust of 50.6062614440918 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.1195487-0.1195487 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.1195487 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2121.081, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.1195487, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0258.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1++++*dLM2+*eML1^ab^ac^ad^ae
4,570.138
1
4
0
4
57.310946
8.356815
0
65.667761
168.206287
0.594595
0.444444
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 65.6677614707947 pounds in total and can lift itself and more, thanks to its strong thrust of 168.206286621094 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 15.94587-15.94587 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 15.94587 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4570.138, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 15.94587, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0259.glb?download=true
*aMM0++++++*bNM2++++*cMN1++++*dLM2+++*eML1+++^ab^ac^ad^ae
3,882.499
1
4
0
4
43.058577
11.780837
0
54.839412
233.437555
0.513514
0.518519
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 54.8394123851776 pounds in total and can lift itself and more, thanks to its strong thrust of 233.437554931641 pounds.
This drone configuration has a feasible flying range of 2.053682-8.693437 miles, evaluated over the payload range of 0-20 pounds. This configuration has a velocity range of 12.12039-19.09746 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 8.693437 miles, and can reach maximum speeds up to 19.09746 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3882.499, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "Success", "Flying Range": 8.693437, "Payload Capacity (lb)": 0, "Velocity (mph)": 19.09746, "Performance Descriptor": "This drone can fly up to 8.693437 miles. It can carry heavy things, up to 0 pounds. Also, it can achieve a max speed of 19.09746 miles per hour, at its max payload capacity. This drone costs around $3882.499, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 5.765856, "Payload Capacity (lb)": 4, "Velocity (mph)": 16.98857, "Performance Descriptor": "This drone can fly up to 5.765856 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 16.98857 miles per hour, at its max payload capacity. This drone costs around $3882.499, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 5.334929, "Payload Capacity (lb)": 8, "Velocity (mph)": 16.61069, "Performance Descriptor": "This drone can fly up to 5.334929 miles. It can carry heavy things, up to 8 pounds. Also, it can achieve a max speed of 16.61069 miles per hour, at its max payload capacity. This drone costs around $3882.499, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 3.513698, "Payload Capacity (lb)": 12, "Velocity (mph)": 14.97512, "Performance Descriptor": "This drone can fly up to 3.513698 miles. It can carry heavy things, up to 12 pounds. Also, it can achieve a max speed of 14.97512 miles per hour, at its max payload capacity. This drone costs around $3882.499, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 2.053682, "Payload Capacity (lb)": 16, "Velocity (mph)": 12.12039, "Performance Descriptor": "This drone can fly up to 2.053682 miles. It can carry heavy things, up to 16 pounds. Also, it can achieve a max speed of 12.12039 miles per hour, at its max payload capacity. This drone costs around $3882.499, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 2.267972, "Payload Capacity (lb)": 20, "Velocity (mph)": 12.3955, "Performance Descriptor": "This drone can fly up to 2.267972 miles. It can carry heavy things, up to 20 pounds. Also, it can achieve a max speed of 12.3955 miles per hour, at its max payload capacity. This drone costs around $3882.499, adding up costs of all the components used to achieve this configuration." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0260.glb?download=true
*aMM0++++++*bNM2++++*cMN1++++*dLM2+++*eML1++^ab^ac^ad^ae
3,826.937
1
4
0
4
43.058577
10.905885
0
53.964461
216.76881
0.513514
0.518519
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 53.9644609191895 pounds in total and can lift itself and more, thanks to its strong thrust of 216.768809509277 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.07072959-0.07072959 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.07072959 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3826.937, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.07072959, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0261.glb?download=true
*aMM0++++++*bNM2++++*cMN1++++*dLM2+++*eML1+^ab^ac^ad^ae
3,787.124
1
4
0
4
43.058577
10.278951
0
53.337529
204.82505
0.513514
0.518519
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 53.3375294761658 pounds in total and can lift itself and more, thanks to its strong thrust of 204.825050354004 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.1150289-0.1150289 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.1150289 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3787.124, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.1150289, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0262.glb?download=true
*aMM0+++++*bNM2+++++*cMN1+++++*dLM2+++++*eML1++++^ab^ac^ad^ae
4,050.763
1
4
0
4
38.89466
18.594429
0
57.489089
363.243823
0.486486
0.666667
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 57.4890885486603 pounds in total and can lift itself and more, thanks to its strong thrust of 363.243823242187 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.3062545-0.3062545 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.3062545 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4050.763, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.3062545, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0263.glb?download=true
*aMM0+++++*bNM2+++++*cMN1+++++*dLM2+++++*eML1+++^ab^ac^ad^ae
3,976.826
1
4
0
4
38.89466
17.430125
0
56.324787
341.062564
0.486486
0.666667
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 56.3247866966248 pounds in total and can lift itself and more, thanks to its strong thrust of 341.062564086914 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.5162588-0.5162588 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.5162588 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3976.826, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.5162588, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0264.glb?download=true
*aMM0+++++*bNM2+++++*cMN1+++++*dLM2+++++*eML1++^ab^ac^ad^ae
3,921.263
1
4
0
4
38.89466
16.555174
0
55.449831
324.393805
0.486486
0.666667
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 55.4498310256958 pounds in total and can lift itself and more, thanks to its strong thrust of 324.393804931641 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.6564958-0.6564958 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.6564958 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3921.263, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.6564958, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0265.glb?download=true
*aMM0+++++*bNM2+++++*cMN1+++++*dLM2+++++*eML1+^ab^ac^ad^ae
3,881.451
1
4
0
4
38.89466
15.92824
0
54.8229
312.450046
0.486486
0.666667
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 54.8228995826721 pounds in total and can lift itself and more, thanks to its strong thrust of 312.450045776367 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.7729319-0.7729319 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.7729319 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3881.451, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.7729319, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0266.glb?download=true
*aMM0+++++*bNM2+++++*cMN1+++++*dLM2+++++*eML1^ab^ac^ad^ae
3,854.763
1
4
0
4
38.89466
15.507989
0
54.402649
304.443814
0.486486
0.666667
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 54.4026493896484 pounds in total and can lift itself and more, thanks to its strong thrust of 304.443814086914 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 7.712328-7.712328 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 7.712328 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3854.763, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 7.712328, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0267.glb?download=true
*aMM0+++++*bNM2+++++*cMN1+++++*dLM2++++*eML1^ab^ac^ad^ae
3,759.826
1
4
0
4
38.89466
14.012994
0
52.907654
275.962582
0.486486
0.62963
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 52.9076541736603 pounds in total and can lift itself and more, thanks to its strong thrust of 275.962582397461 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 7.916455-7.916455 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 7.916455 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3759.826, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 7.916455, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0268.glb?download=true
*aMM0+++++*bNM2+++++*cMN1+++++*dLM2+++*eML1^ab^ac^ad^ae
3,685.888
1
4
0
4
38.89466
12.84869
0
51.743348
253.781323
0.486486
0.592593
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 51.743348116684 pounds in total and can lift itself and more, thanks to its strong thrust of 253.781323242188 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 14.84841-14.84841 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 14.84841 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3685.888, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 14.84841, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0269.glb?download=true
*aMM0+++++*bNM2+++++*cMN1+++++*dLM2++*eML1^ab^ac^ad^ae
3,630.325
1
4
0
4
38.89466
11.973738
0
50.868397
237.112564
0.486486
0.555556
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 50.8683966506958 pounds in total and can lift itself and more, thanks to its strong thrust of 237.112564086914 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 105.9977-105.9977 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 105.9977 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3630.325, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 105.9977, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0270.glb?download=true
*aMM0+++++*bNM2+++++*cMN1+++++*dLM2+*eML1^ab^ac^ad^ae
3,590.513
1
4
0
4
38.89466
11.346805
0
50.241465
225.168805
0.486486
0.518519
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 50.2414652076721 pounds in total and can lift itself and more, thanks to its strong thrust of 225.168804931641 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 168.0642-168.0642 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 168.0642 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3590.513, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 168.0642, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0271.glb?download=true
*aMM0+++*bNM2++*cMN1++*dLM2+*eML1+^ab^ac^ad^ae
2,691.734
1
4
0
4
31.389715
4.698556
0
36.088269
98.51253
0.432432
0.296296
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 36.0882694347382 pounds in total and can lift itself and more, thanks to its strong thrust of 98.5125297546387 pounds.
This drone configuration has a feasible flying range of 0.0-8.37183 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 0.09527151-21.33398 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 8.37183 miles, and can reach maximum speeds up to 21.33398 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2691.734, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "Success", "Flying Range": 8.37183, "Payload Capacity (lb)": 0, "Velocity (mph)": 21.33398, "Performance Descriptor": "This drone can fly up to 8.37183 miles. It can carry heavy things, up to 0 pounds. Also, it can achieve a max speed of 21.33398 miles per hour, at its max payload capacity. This drone costs around $2691.734, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 4.377727, "Payload Capacity (lb)": 4, "Velocity (mph)": 17.56524, "Performance Descriptor": "This drone can fly up to 4.377727 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 17.56524 miles per hour, at its max payload capacity. This drone costs around $2691.734, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 2.223682, "Payload Capacity (lb)": 8, "Velocity (mph)": 13.60111, "Performance Descriptor": "This drone can fly up to 2.223682 miles. It can carry heavy things, up to 8 pounds. Also, it can achieve a max speed of 13.60111 miles per hour, at its max payload capacity. This drone costs around $2691.734, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 12, "Velocity (mph)": 0.09527151, "Performance Descriptor": "This drone could not hover. The drone for a payload of 12 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0272.glb?download=true
*aMM0+++++++++*bNM2+++++*cMN1+++++*dLM2+++++*eML1++++^ab^ac^ad^ae
5,220.263
1
4
0
4
57.310946
18.594429
0
75.905371
363.243823
0.594595
0.666667
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 75.9053710388184 pounds in total and can lift itself and more, thanks to its strong thrust of 363.243823242187 pounds.
This drone configuration has a feasible flying range of 0.0-0.4100527 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 0.05356918-3.47458 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.4100527 miles, and can reach maximum speeds up to 3.47458 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $5220.263, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "Success", "Flying Range": 0.4100527, "Payload Capacity (lb)": 0, "Velocity (mph)": 3.47458, "Performance Descriptor": "This drone can fly up to 0.4100527 miles. It can carry heavy things, up to 0 pounds. Also, it can achieve a max speed of 3.47458 miles per hour, at its max payload capacity. This drone costs around $5220.263, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 4, "Velocity (mph)": 0.05356918, "Performance Descriptor": "This drone could not hover. The drone for a payload of 4 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0273.glb?download=true
*aMM0+++++++++*bNM2+++++*cMN1+++++*dLM2+++++*eML1+++^ab^ac^ad^ae
5,146.326
1
4
0
4
57.310946
17.430125
0
74.741073
341.062564
0.594595
0.666667
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 74.7410733917236 pounds in total and can lift itself and more, thanks to its strong thrust of 341.062564086914 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.06314535-0.06314535 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.06314535 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $5146.326, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.06314535, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0274.glb?download=true
*aMM0+++++++++*bNM2+++++*cMN1+++++*dLM2+++++*eML1++^ab^ac^ad^ae
5,090.763
1
4
0
4
57.310946
16.555174
0
73.866118
324.393805
0.594595
0.666667
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 73.8661177207947 pounds in total and can lift itself and more, thanks to its strong thrust of 324.393804931641 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.07860734-0.07860734 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.07860734 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $5090.763, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.07860734, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0275.glb?download=true
*aMM0+++++++++*bNM2+++++*cMN1+++++*dLM2+++++*eML1+^ab^ac^ad^ae
5,050.951
1
4
0
4
57.310946
15.92824
0
73.239186
312.450046
0.594595
0.666667
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 73.239186277771 pounds in total and can lift itself and more, thanks to its strong thrust of 312.450045776367 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.286619-0.286619 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.286619 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $5050.951, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.286619, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0276.glb?download=true
*aMM0+++++++++*bNM2+++++*cMN1+++++*dLM2++++*eML1^ab^ac^ad^ae
4,929.326
1
4
0
4
57.310946
14.012994
0
71.323937
275.962582
0.594595
0.62963
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 71.3239366638184 pounds in total and can lift itself and more, thanks to its strong thrust of 275.962582397461 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 9.005222-9.005222 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 9.005222 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4929.326, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 9.005222, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0277.glb?download=true
*aMM0+++++++++*bNM2+++++*cMN1+++++*dLM2+++++*eML1^ab^ac^ad^ae
5,024.263
1
4
0
4
57.310946
15.507989
0
72.818936
304.443814
0.594595
0.666667
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 72.8189360847473 pounds in total and can lift itself and more, thanks to its strong thrust of 304.443814086914 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 2.75128-2.75128 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 2.75128 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $5024.263, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 2.75128, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0278.glb?download=true
*aMM0+++++++++*bNM2+++++*cMN1+++++*dLM2+++*eML1^ab^ac^ad^ae
4,855.388
1
4
0
4
57.310946
12.84869
0
70.159635
253.781323
0.594595
0.592593
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 70.1596348117828 pounds in total and can lift itself and more, thanks to its strong thrust of 253.781323242188 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 13.12213-13.12213 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 13.12213 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4855.388, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 13.12213, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0279.glb?download=true
*aMM0+++++++++*bNM2+++++*cMN1+++++*dLM2++*eML1^ab^ac^ad^ae
4,799.826
1
4
0
4
57.310946
11.973738
0
69.284683
237.112564
0.594595
0.555556
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 69.2846833457947 pounds in total and can lift itself and more, thanks to its strong thrust of 237.112564086914 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 17.87501-17.87501 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 17.87501 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4799.826, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 17.87501, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0280.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1+++*dLM2+++*eML1+^ab^ac^ad^ae
4,618.263
1
4
0
4
57.310946
9.114646
0
66.425593
182.643791
0.594595
0.481481
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 66.4255927207947 pounds in total and can lift itself and more, thanks to its strong thrust of 182.64379119873 pounds.
This drone configuration has a feasible flying range of 0.0-4.835663 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 2.648475-8.177777 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 4.835663 miles, and can reach maximum speeds up to 8.177777 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4618.263, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "Success", "Flying Range": 4.835663, "Payload Capacity (lb)": 0, "Velocity (mph)": 8.177777, "Performance Descriptor": "This drone can fly up to 4.835663 miles. It can carry heavy things, up to 0 pounds. Also, it can achieve a max speed of 8.177777 miles per hour, at its max payload capacity. This drone costs around $4618.263, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 4, "Velocity (mph)": 2.648475, "Performance Descriptor": "This drone could not hover. The drone for a payload of 4 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0281.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1+++*dLM2+++*eML1+++^ab^ac^ad^ae
4,713.638
1
4
0
4
57.310946
10.616532
0
67.92748
211.256296
0.594595
0.481481
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 67.9274798347473 pounds in total and can lift itself and more, thanks to its strong thrust of 211.256295776367 pounds.
This drone configuration has a feasible flying range of 0.0-3.669333 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 0.04693328-13.1482 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 3.669333 miles, and can reach maximum speeds up to 13.1482 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4713.638, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "Success", "Flying Range": 3.669333, "Payload Capacity (lb)": 0, "Velocity (mph)": 13.1482, "Performance Descriptor": "This drone can fly up to 3.669333 miles. It can carry heavy things, up to 0 pounds. Also, it can achieve a max speed of 13.1482 miles per hour, at its max payload capacity. This drone costs around $4713.638, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 1.54472, "Payload Capacity (lb)": 4, "Velocity (mph)": 10.45121, "Performance Descriptor": "This drone can fly up to 1.54472 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 10.45121 miles per hour, at its max payload capacity. This drone costs around $4713.638, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 0.3716852, "Payload Capacity (lb)": 8, "Velocity (mph)": 5.94545, "Performance Descriptor": "This drone can fly up to 0.3716852 miles. It can carry heavy things, up to 8 pounds. Also, it can achieve a max speed of 5.94545 miles per hour, at its max payload capacity. This drone costs around $4713.638, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 12, "Velocity (mph)": 0.04693328, "Performance Descriptor": "This drone could not hover. The drone for a payload of 12 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0282.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1+++*dLM2+++*eML1++^ab^ac^ad^ae
4,658.076
1
4
0
4
57.310946
9.74158
0
67.052524
194.58755
0.594595
0.481481
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 67.0525241638184 pounds in total and can lift itself and more, thanks to its strong thrust of 194.587550354004 pounds.
This drone configuration has a feasible flying range of 6.617403-11.75418 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 13.81779-14.69678 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 11.75418 miles, and can reach maximum speeds up to 14.69678 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4658.076, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "Success", "Flying Range": 11.75418, "Payload Capacity (lb)": 0, "Velocity (mph)": 14.69678, "Performance Descriptor": "This drone can fly up to 11.75418 miles. It can carry heavy things, up to 0 pounds. Also, it can achieve a max speed of 14.69678 miles per hour, at its max payload capacity. This drone costs around $4658.076, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 8.728217, "Payload Capacity (lb)": 4, "Velocity (mph)": 14.25319, "Performance Descriptor": "This drone can fly up to 8.728217 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 14.25319 miles per hour, at its max payload capacity. This drone costs around $4658.076, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 6.617403, "Payload Capacity (lb)": 8, "Velocity (mph)": 13.82121, "Performance Descriptor": "This drone can fly up to 6.617403 miles. It can carry heavy things, up to 8 pounds. Also, it can achieve a max speed of 13.82121 miles per hour, at its max payload capacity. This drone costs around $4658.076, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 8.057483, "Payload Capacity (lb)": 12, "Velocity (mph)": 13.81779, "Performance Descriptor": "This drone can fly up to 8.057483 miles. It can carry heavy things, up to 12 pounds. Also, it can achieve a max speed of 13.81779 miles per hour, at its max payload capacity. This drone costs around $4658.076, adding up costs of all the components used to achieve this configuration." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0283.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1+++*dLM2+++*eML1^ab^ac^ad^ae
4,591.576
1
4
0
4
57.310946
8.694395
0
66.005343
174.637546
0.594595
0.481481
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 66.005342527771 pounds in total and can lift itself and more, thanks to its strong thrust of 174.637545776367 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 10.76118-10.76118 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 10.76118 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4591.576, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 10.76118, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0284.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1+++*dLM2++*eML1^ab^ac^ad^ae
4,536.013
1
4
0
4
57.310946
7.819443
0
65.130391
157.968787
0.594595
0.444444
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 65.1303910617828 pounds in total and can lift itself and more, thanks to its strong thrust of 157.968786621094 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 17.40145-17.40145 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 17.40145 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4536.013, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 17.40145, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0285.glb?download=true
*aMM0+++++*bNM2+*cMN1++*dLM2++*eML1+^ab^ac^ad^ae
3,168.325
1
4
0
4
38.89466
4.698556
0
43.593214
98.512523
0.486486
0.296296
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 43.5932141277313 pounds in total and can lift itself and more, thanks to its strong thrust of 98.5125228881836 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.09804876-0.09804876 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.09804876 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3168.325, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.09804876, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0286.glb?download=true
*aMM0+++++*bNM2+*cMN1++*dLM2++*eML1++^ab^ac^ad^ae
3,208.138
1
4
0
4
38.89466
5.325489
0
44.22015
110.456282
0.486486
0.296296
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 44.2201497756958 pounds in total and can lift itself and more, thanks to its strong thrust of 110.456282043457 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.05216282-0.05216282 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.05216282 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3208.138, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.05216282, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0287.glb?download=true
*aMM0+++++*bNM2+*cMN1++*dLM2++*eML1^ab^ac^ad^ae
3,141.638
1
4
0
4
38.89466
4.278303
0
43.172964
90.506271
0.486486
0.296296
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 43.1729639347076 pounds in total and can lift itself and more, thanks to its strong thrust of 90.5062705993652 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.7208289-0.7208289 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.7208289 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3141.638, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.7208289, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0288.glb?download=true
*aMM0+++++*bNM2+*cMN1++*dLM2+*eML1^ab^ac^ad^ae
3,101.825
1
4
0
4
38.89466
3.65137
0
42.546028
78.562518
0.486486
0.259259
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 42.5460282867432 pounds in total and can lift itself and more, thanks to its strong thrust of 78.5625183105469 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.4290186-0.4290186 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.4290186 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3101.825, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.4290186, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0289.glb?download=true
*aMM0+++++*bNM2++++*cMN1++++*dLM2*eML1^ab^ac^ad^ae
3,373.95
1
4
0
4
38.89466
7.936563
0
46.831225
160.200055
0.486486
0.407407
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 46.8312245826721 pounds in total and can lift itself and more, thanks to its strong thrust of 160.200054931641 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 1.462436-1.462436 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 1.462436 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3373.95, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 1.462436, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0290.glb?download=true
*aMM0+++++*bNM2++++*cMN1+++*dLM2*eML1^ab^ac^ad^ae
3,300.013
1
4
0
4
38.89466
6.772258
0
45.666919
138.018796
0.486486
0.37037
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 45.6669185256958 pounds in total and can lift itself and more, thanks to its strong thrust of 138.018795776367 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 20.75452-20.75452 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 20.75452 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3300.013, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 20.75452, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0291.glb?download=true
*aMM0++++++++*bNM2++++*cMN1++++*dLM2+++*eML1+^ab^ac^ad^ae
4,371.266
1
4
0
4
52.257146
10.278951
0
62.536098
204.82505
0.567568
0.518519
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 62.536098173523 pounds in total and can lift itself and more, thanks to its strong thrust of 204.825050354004 pounds.
This drone configuration has a feasible flying range of 0.0-0.3794689 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 0.2002275-1.347065 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.3794689 miles, and can reach maximum speeds up to 1.347065 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4371.266, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "Success", "Flying Range": 0.3794689, "Payload Capacity (lb)": 0, "Velocity (mph)": 1.347065, "Performance Descriptor": "This drone can fly up to 0.3794689 miles. It can carry heavy things, up to 0 pounds. Also, it can achieve a max speed of 1.347065 miles per hour, at its max payload capacity. This drone costs around $4371.266, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 4, "Velocity (mph)": 0.2002275, "Performance Descriptor": "This drone could not hover. The drone for a payload of 4 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0292.glb?download=true
*aMM0+++*bNM2+*cMN1+*dLM2*eML1+^ab^ac^ad^ae
2,585.422
1
4
0
4
31.389715
3.024437
0
34.414152
66.618759
0.432432
0.185185
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 34.4141521507263 pounds in total and can lift itself and more, thanks to its strong thrust of 66.6187591552734 pounds.
This drone configuration has a feasible flying range of 1.166353-1.166353 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 2.116511-2.116511 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 1.166353 miles, and can reach maximum speeds up to 2.116511 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2585.422, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "HitBoundary", "Flying Range": 1.166353, "Payload Capacity (lb)": 0, "Velocity (mph)": 2.116511, "Performance Descriptor": "This drone for the payload of 0 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0293.glb?download=true
*aMM0++++*bNM2+*cMN1+*dLM2++*eML1++^ab^ac^ad^ae
2,921.523
1
4
0
4
35.008228
4.698555
0
39.706785
98.512523
0.459459
0.259259
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 39.7067849822998 pounds in total and can lift itself and more, thanks to its strong thrust of 98.5125228881836 pounds.
This drone configuration has a feasible flying range of 7.341094-11.35506 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 19.68424-22.27286 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 11.35506 miles, and can reach maximum speeds up to 22.27286 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2921.5229999999997, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "Success", "Flying Range": 11.35506, "Payload Capacity (lb)": 0, "Velocity (mph)": 21.33175, "Performance Descriptor": "This drone can fly up to 11.35506 miles. It can carry heavy things, up to 0 pounds. Also, it can achieve a max speed of 21.33175 miles per hour, at its max payload capacity. This drone costs around $2921.523, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 7.341094, "Payload Capacity (lb)": 4, "Velocity (mph)": 19.68424, "Performance Descriptor": "This drone can fly up to 7.341094 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 19.68424 miles per hour, at its max payload capacity. This drone costs around $2921.523, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 9.717168, "Payload Capacity (lb)": 8, "Velocity (mph)": 22.27286, "Performance Descriptor": "This drone can fly up to 9.717168 miles. It can carry heavy things, up to 8 pounds. Also, it can achieve a max speed of 22.27286 miles per hour, at its max payload capacity. This drone costs around $2921.523, adding up costs of all the components used to achieve this configuration." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0294.glb?download=true
*aMM0++++*bNM2+*cMN1+*dLM2++*eML1+^ab^ac^ad^ae
2,881.71
1
4
0
4
35.008228
4.071622
0
39.079849
86.568771
0.459459
0.259259
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 39.0798493343353 pounds in total and can lift itself and more, thanks to its strong thrust of 86.5687705993652 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.07379936-0.07379936 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.07379936 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2881.71, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.07379936, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0295.glb?download=true
*aMM0++++*bNM2+*cMN1+*dLM2++*eML1^ab^ac^ad^ae
2,855.023
1
4
0
4
35.008228
3.65137
0
38.659599
78.562518
0.459459
0.259259
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 38.6595991413116 pounds in total and can lift itself and more, thanks to its strong thrust of 78.5625183105469 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.1799829-0.1799829 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.1799829 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2855.023, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.1799829, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0296.glb?download=true
*aMM0+++++++*bNM2++*cMN1++*dLM2+*eML1+^ab^ac^ad^ae
3,715.402
1
4
0
4
47.509553
4.698556
0
52.208108
98.51253
0.540541
0.296296
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 52.2081076080322 pounds in total and can lift itself and more, thanks to its strong thrust of 98.5125297546387 pounds.
This drone configuration has a feasible flying range of 0.0-18.31788 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 0.07152673-16.78258 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 18.31788 miles, and can reach maximum speeds up to 16.78258 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3715.402, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "Success", "Flying Range": 18.31788, "Payload Capacity (lb)": 0, "Velocity (mph)": 16.78258, "Performance Descriptor": "This drone can fly up to 18.31788 miles. It can carry heavy things, up to 0 pounds. Also, it can achieve a max speed of 16.78258 miles per hour, at its max payload capacity. This drone costs around $3715.402, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 16.17303, "Payload Capacity (lb)": 4, "Velocity (mph)": 16.65357, "Performance Descriptor": "This drone can fly up to 16.17303 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 16.65357 miles per hour, at its max payload capacity. This drone costs around $3715.402, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 8, "Velocity (mph)": 0.07152673, "Performance Descriptor": "This drone could not hover. The drone for a payload of 8 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0297.glb?download=true
*aMM0+++++++*bNM2++++*cMN1++++*dLM2+++*eML1+++^ab^ac^ad^ae
4,165.152
1
4
0
4
47.509553
11.780837
0
59.290388
233.437555
0.540541
0.518519
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 59.2903884719849 pounds in total and can lift itself and more, thanks to its strong thrust of 233.437554931641 pounds.
This drone configuration has a feasible flying range of 3.795091-16.32217 miles, evaluated over the payload range of 0-16 pounds. This configuration has a velocity range of 14.66529-18.76843 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 16.32217 miles, and can reach maximum speeds up to 18.76843 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4165.152, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "Success", "Flying Range": 16.32217, "Payload Capacity (lb)": 0, "Velocity (mph)": 18.76843, "Performance Descriptor": "This drone can fly up to 16.32217 miles. It can carry heavy things, up to 0 pounds. Also, it can achieve a max speed of 18.76843 miles per hour, at its max payload capacity. This drone costs around $4165.152, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 9.829542, "Payload Capacity (lb)": 4, "Velocity (mph)": 17.48854, "Performance Descriptor": "This drone can fly up to 9.829542 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 17.48854 miles per hour, at its max payload capacity. This drone costs around $4165.152, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 7.18323, "Payload Capacity (lb)": 8, "Velocity (mph)": 16.49059, "Performance Descriptor": "This drone can fly up to 7.18323 miles. It can carry heavy things, up to 8 pounds. Also, it can achieve a max speed of 16.49059 miles per hour, at its max payload capacity. This drone costs around $4165.152, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 3.795091, "Payload Capacity (lb)": 12, "Velocity (mph)": 14.66529, "Performance Descriptor": "This drone can fly up to 3.795091 miles. It can carry heavy things, up to 12 pounds. Also, it can achieve a max speed of 14.66529 miles per hour, at its max payload capacity. This drone costs around $4165.152, adding up costs of all the components used to achieve this configuration." }, { "Feasibilty": "Success", "Flying Range": 4.56596, "Payload Capacity (lb)": 16, "Velocity (mph)": 15.15873, "Performance Descriptor": "This drone can fly up to 4.56596 miles. It can carry heavy things, up to 16 pounds. Also, it can achieve a max speed of 15.15873 miles per hour, at its max payload capacity. This drone costs around $4165.152, adding up costs of all the components used to achieve this configuration." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0298.glb?download=true
*aMM0+++++++*bNM2++++*cMN1++++*dLM2+++*eML1+^ab^ac^ad^ae
4,069.777
1
4
0
4
47.509553
10.278951
0
57.788506
204.82505
0.540541
0.518519
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 57.788505562973 pounds in total and can lift itself and more, thanks to its strong thrust of 204.825050354004 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.06746177-0.06746177 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.06746177 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4069.777, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.06746177, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0299.glb?download=true
*aMM0+*bNM2*cMN1+*dLM2+*eML1+^ab^ac^ad^ae
2,174.456
1
4
0
4
24.918168
3.024437
0
27.942605
66.618766
0.378378
0.185185
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 27.9426052978516 pounds in total and can lift itself and more, thanks to its strong thrust of 66.6187660217285 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.1268222-0.1268222 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.1268222 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2174.456, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.1268222, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/0300.glb?download=true
*aMM0+*bNM2*cMN1+*dLM2+*eML1^ab^ac^ad^ae
2,147.768
1
4
0
4
24.918168
2.604184
0
27.522353
58.612514
0.378378
0.185185
0
This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 27.5223530023575 pounds in total and can lift itself and more, thanks to its strong thrust of 58.6125137329102 pounds.
This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.2463014-0.2463014 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.2463014 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2147.768, adding up costs of all the components used to achieve this configuration.
[ { "Feasibilty": "CouldNotStabilize", "Flying Range": 0, "Payload Capacity (lb)": 0, "Velocity (mph)": 0.2463014, "Performance Descriptor": "This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight." } ]