image
imagewidth (px)
512
512
glb_file
stringlengths
68
93
Grammar_string
stringlengths
42
246
Feasibilty
stringclasses
3 values
Flying Range
float64
0
21.6
Payload Capacity (lb)
int64
0
100
Cost ($)
float64
1.45k
5.74k
Velocity (mph)
float64
0
238
Number of Batteries
int64
1
1
Number of Motor-Rotor Pairs
int64
4
16
Number of Airfoils
int64
0
4
Number of Connectors
int64
4
28
Weight of Batteries (lb)
float64
10.9
57.3
Weight of Motor-Rotor Pair (lb)
float64
1.76
30
Weight of Airfoils (lb)
float64
0
17.7
Total Weight (lb)
float64
16.5
80.9
Total Thrust (lb)
float64
42.6
598
Normalized Average Structure Size
float64
0.22
0.59
Normalized Average Motor Size
float64
0.11
0.56
Normalized Average Foil Size
float64
0
0.61
Design Descriptor
stringlengths
298
305
Performance Descriptor
stringclasses
84 values
Operations Descriptor
stringlengths
711
743
https://huggingface.co/datasets/abhi1505/Obj_test/raw/main/glb/1.glb
*aMM0-*bNM2++*cMN1++*dLM2*eML1^ab^ac^ad^ae
CouldNotStabilize
0
0
1,877.19
0.063526
1
4
0
4
19.403476
3.858051
0
23.261529
82.500025
0.324324
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 23.2615285432816 pounds in total and can lift itself and more, thanks to its strong thrust of 82.500025177002 pounds.
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.
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 0.06352621-0.06352621 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 0.06352621 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 $1877.19, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Obj_test/raw/main/glb/10.glb
*aMM0++++*bNM2++*cMN1++*dLM2++*eML1++*fOM2+*gMO1+*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
Success
1.013224
24
3,366.523
10.60951
1
8
0
8
35.008228
8.556607
0
43.564835
181.012555
0.459459
0.269841
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 43.5648349822998 pounds in total and can lift itself and more, thanks to its strong thrust of 181.012554931641 pounds.
This drone can fly up to 1.013224 miles. It can carry heavy things, up to 24 pounds. Also, it can achieve a max speed of 10.60951 miles per hour, at its max payload capacity. This drone costs around $3366.523, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 0.6007465-15.80551 miles, evaluated over the payload range of 0-24 pounds. This configuration has a velocity range of 8.17412-23.84003 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 15.80551 miles, and can reach maximum speeds up to 23.84003 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 $3366.523, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Obj_test/raw/main/glb/2.glb
*aMM0++++++*bNM2+++*cMN1+++*dLM2+++*eML1+++*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^dj^eh^el
CouldNotStabilize
0
56
3,734.624
0.000027
1
4
0
15
43.058577
9.452226
0
52.510804
189.075064
0.513514
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 15 links that connect everything together securely. The drone weighs 52.5108044761658 pounds in total and can lift itself and more, thanks to its strong thrust of 189.075064086914 pounds.
This drone could not hover. The drone for a payload of 56 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.
This drone configuration has a feasible flying range of 0.0-18.04003 miles, evaluated over the payload range of 0-56 pounds. This configuration has a velocity range of 2.657958e-05-20.18808 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 18.04003 miles, and can reach maximum speeds up to 20.18808 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 $3734.6240000000003, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Obj_test/raw/main/glb/3.glb
*aMM0---*bNM2++*cMN1++*dLM2++*eML1++*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
Success
0.147124
20
1,715.891
6.462568
1
4
0
16
14.769097
5.952422
0
20.721519
122.400041
0.27027
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 16 links that connect everything together securely. The drone weighs 20.7215193382263 pounds in total and can lift itself and more, thanks to its strong thrust of 122.40004119873 pounds.
This drone can fly up to 0.1471235 miles. It can carry heavy things, up to 20 pounds. Also, it can achieve a max speed of 6.462568 miles per hour, at its max payload capacity. This drone costs around $1715.891, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 0.1336501-3.529649 miles, evaluated over the payload range of 0-20 pounds. This configuration has a velocity range of 4.559034-19.69744 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 3.529649 miles, and can reach maximum speeds up to 19.69744 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 $1715.8910000000003, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Obj_test/raw/main/glb/4.glb
*aMM0---*bNM2*cMN1*dLM2*eML1*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
CouldNotStabilize
0
12
1,449.891
0.000105
1
4
0
16
14.769097
1.763681
0
16.532777
42.600009
0.27027
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 16 links that connect everything together securely. The drone weighs 16.5327770255089 pounds in total and can lift itself and more, thanks to its strong thrust of 42.6000091552734 pounds.
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.
This drone configuration has a feasible flying range of 0.0-7.21621 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 0.0001051353-32.22637 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 7.21621 miles, and can reach maximum speeds up to 32.22637 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 $1449.891, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Obj_test/raw/main/glb/5.glb
*aMM0++++++*bNM2+++*cMN1+++*dLM2+++*eML1++*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4*nPM4*oMP4*pJM4*qMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el
CouldNotStabilize
0
0
3,839.263
0.109861
1
4
2
20
43.058577
8.577275
8.829502
60.465354
172.406319
0.513514
0.416667
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 20 links that connect everything together securely. The drone weighs 60.4653540538788 pounds in total and can lift itself and more, thanks to its strong thrust of 172.406318664551 pounds.
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.
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 0.1098609-0.1098609 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 0.1098609 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 $3839.263, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Obj_test/raw/main/glb/6.glb
*aMM0--*bNM2++*cMN1++*dLM2+*eML1*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^el^em^cg^dj^eh
CouldNotStabilize
0
0
1,910.246
0.229901
1
4
2
15
16.981034
4.278303
8.829502
30.088841
90.506277
0.297297
0.25
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 15 links that connect everything together securely. The drone weighs 30.0888407196045 pounds in total and can lift itself and more, thanks to its strong thrust of 90.5062774658203 pounds.
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.
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 0.2299006-0.2299006 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 0.2299006 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 $1910.246, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Obj_test/raw/main/glb/7.glb
*aMM0--*bNM2+++*cMN1+++*dLM2+++*eML1+++^ab^ac^ad^ae
CouldNotStabilize
0
44
2,078.607
0.000001
1
4
0
4
16.981034
9.452226
0
26.433261
189.075064
0.297297
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 26.4332607213974 pounds in total and can lift itself and more, thanks to its strong thrust of 189.075064086914 pounds.
This drone could not hover. The drone for a payload of 44 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.
This drone configuration has a feasible flying range of 0.0-3.525568 miles, evaluated over the payload range of 0-44 pounds. This configuration has a velocity range of 1.393835e-06-19.61445 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 3.525568 miles, and can reach maximum speeds up to 19.61445 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 $2078.607, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Obj_test/raw/main/glb/8.glb
*aMM0++++*bNM2++*cMN1++*dLM2++*eML1++*fOM2+*gMO1+*hKM2+*iMK1+^ab^ac^ad^ae^bf^cg^dh^ei
Success
3.181283
32
3,419.898
13.66249
1
8
0
8
35.008228
9.39711
0
44.40534
197.02506
0.459459
0.285714
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 44.405339573288 pounds in total and can lift itself and more, thanks to its strong thrust of 197.025059509277 pounds.
This drone can fly up to 3.181283 miles. It can carry heavy things, up to 32 pounds. Also, it can achieve a max speed of 13.66249 miles per hour, at its max payload capacity. This drone costs around $3419.898, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 3.170982-15.42356 miles, evaluated over the payload range of 0-32 pounds. This configuration has a velocity range of 13.66249-24.05771 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 15.42356 miles, and can reach maximum speeds up to 24.05771 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 $3419.898, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Obj_test/raw/main/glb/9.glb
*aMM0++++*bNM2++*cMN1++*dLM2++*eML1++*fOM2+*gMO1+*hKM2+*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
20
3,393.211
0.116215
1
8
0
8
35.008228
8.976859
0
43.985085
189.018814
0.459459
0.285714
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 43.9850851753235 pounds in total and can lift itself and more, thanks to its strong thrust of 189.018814086914 pounds.
This drone could not hover. The drone for a payload of 20 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.
This drone configuration has a feasible flying range of 0.0-15.53481 miles, evaluated over the payload range of 0-20 pounds. This configuration has a velocity range of 0.116215-23.86396 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 15.53481 miles, and can reach maximum speeds up to 23.86396 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 $3393.211, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/11.glb?download=true
*aMM0++++*bNM2++*cMN1+*dLM2*eML1*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
HitBoundary
8.321698
4
3,140.335
37.84185
1
8
0
8
35.008228
4.994798
0
40.003027
113.156275
0.459459
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 40.0030272663116 pounds in total and can lift itself and more, thanks to its strong thrust of 113.156275177002 pounds.
This drone for the payload of 4 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude.
This drone configuration has a feasible flying range of 8.321698-16.67226 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 22.38346-37.84185 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 16.67226 miles, and can reach maximum speeds up to 37.84185 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 $3140.335, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/12.glb?download=true
*aMM0*bNM2+*cMN1+*dLM2++*eML1++*fOM3*gMO3*hKM3*iMK3*jPM2+*kMP1*lJM2*mMJ1^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im
CouldNotStabilize
9.827506
0
2,757.466
10.6937
1
8
4
12
22.046002
6.882488
17.659004
46.587494
149.118805
0.351351
0.222222
0.614035
This drone is made up of 1 part and has 8 engines that help it move. It also has 4 wings for better flying. It has 12 links that connect everything together securely. The drone weighs 46.5874935993195 pounds in total and can lift itself and more, thanks to its strong thrust of 149.118804931641 pounds.
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.
This drone configuration has a feasible flying range of 9.827506-9.827506 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 10.6937-10.6937 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 9.827506 miles, and can reach maximum speeds up to 10.6937 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 $2757.466, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/13.glb?download=true
*aMM0*bNM2+*cMN1+*dLM2++*eML1+*fOM3*gMO3*hKM3*iMK3*jPM2*kMP1*lJM2*mMJ1^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im
CouldNotStabilize
9.526302
0
2,690.966
10.62157
1
8
4
12
22.046002
5.835303
17.659004
45.540308
129.168787
0.351351
0.190476
0.614035
This drone is made up of 1 part and has 8 engines that help it move. It also has 4 wings for better flying. It has 12 links that connect everything together securely. The drone weighs 45.5403077583313 pounds in total and can lift itself and more, thanks to its strong thrust of 129.168786621094 pounds.
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.
This drone configuration has a feasible flying range of 9.526302-9.526302 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 10.62157-10.62157 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 9.526302 miles, and can reach maximum speeds up to 10.62157 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 $2690.966, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/14.glb?download=true
*aMM0+++*bNM2+*cMN1+*dLM2+*eML1*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4*nPM2*oMP1*pJM2*qMJ1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el
CouldNotStabilize
0
20
2,897.422
0.138514
1
8
0
20
31.389715
4.788117
0
36.17783
109.218768
0.432432
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 20 links that connect everything together securely. The drone weighs 36.17783046875 pounds in total and can lift itself and more, thanks to its strong thrust of 109.218768310547 pounds.
This drone could not hover. The drone for a payload of 20 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.
This drone configuration has a feasible flying range of 0.0-18.68637 miles, evaluated over the payload range of 0-20 pounds. This configuration has a velocity range of 0.1385141-26.42954 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 18.68637 miles, and can reach maximum speeds up to 26.42954 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 $2897.422, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/15.glb?download=true
*aMM0+++*bNM2+*cMN1+*dLM2*eML1*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4*nPM2*oMP1*pJM2*qMJ1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el
CouldNotStabilize
0
20
2,870.734
1.108507
1
8
0
20
31.389715
4.367865
0
35.75758
101.212523
0.432432
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 20 links that connect everything together securely. The drone weighs 35.7575802757263 pounds in total and can lift itself and more, thanks to its strong thrust of 101.212522888184 pounds.
This drone could not hover. The drone for a payload of 20 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.
This drone configuration has a feasible flying range of 0.0-18.45111 miles, evaluated over the payload range of 0-20 pounds. This configuration has a velocity range of 1.108507-26.03232 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 18.45111 miles, and can reach maximum speeds up to 26.03232 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 $2870.734, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/16.glb?download=true
*aMM0+++*bNM2+*cMN1*dLM2*eML1*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4*nPM2*oMP1*pJM2*qMJ1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el
HitBoundary
2.975642
12
2,844.047
16.43798
1
8
0
20
31.389715
3.947613
0
35.337326
93.206271
0.432432
0.126984
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 20 links that connect everything together securely. The drone weighs 35.3373258777618 pounds in total and can lift itself and more, thanks to its strong thrust of 93.2062705993652 pounds.
This drone for the payload of 12 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude.
This drone configuration has a feasible flying range of 2.975642-16.93548 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 16.43798-24.76127 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 16.93548 miles, and can reach maximum speeds up to 24.76127 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 $2844.047, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/17.glb?download=true
*aMM0*bNM2++*cMN1++*dLM2++*eML1++*fOM3*gMO3*hKM3*iMK3*jPM2++*kMP1++*lJM2++*mMJ1++^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im
CouldNotStabilize
9.597489
0
3,076.403
11.45194
1
8
4
12
22.046002
11.904844
17.659004
51.60985
244.800082
0.351351
0.333333
0.614035
This drone is made up of 1 part and has 8 engines that help it move. It also has 4 wings for better flying. It has 12 links that connect everything together securely. The drone weighs 51.6098496562958 pounds in total and can lift itself and more, thanks to its strong thrust of 244.800082397461 pounds.
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.
This drone configuration has a feasible flying range of 9.597489-9.597489 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 11.45194-11.45194 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 9.597489 miles, and can reach maximum speeds up to 11.45194 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 $3076.403, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/18.glb?download=true
*aMM0*bNM2++*cMN1++*dLM2++*eML1++*fOM3*gMO3*hKM3*iMK3*jPM2++*kMP1*lJM2*mMJ1^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im
CouldNotStabilize
12.70708
0
2,876.903
11.17952
1
8
4
12
22.046002
8.763288
17.659004
48.468292
184.950082
0.351351
0.269841
0.614035
This drone is made up of 1 part and has 8 engines that help it move. It also has 4 wings for better flying. It has 12 links that connect everything together securely. The drone weighs 48.4682921333313 pounds in total and can lift itself and more, thanks to its strong thrust of 184.950082397461 pounds.
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.
This drone configuration has a feasible flying range of 12.70708-12.70708 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 11.17952-11.17952 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 12.70708 miles, and can reach maximum speeds up to 11.17952 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 $2876.903, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/19.glb?download=true
*aMM0*bNM2++*cMN1++*dLM2++*eML1++*fOM3*gMO3*hKM3*iMK3*jPM2+*kMP1*lJM2*mMJ1^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im
CouldNotStabilize
10.09059
0
2,837.091
10.89192
1
8
4
12
22.046002
8.136355
17.659004
47.841361
173.006323
0.351351
0.253968
0.614035
This drone is made up of 1 part and has 8 engines that help it move. It also has 4 wings for better flying. It has 12 links that connect everything together securely. The drone weighs 47.8413606903076 pounds in total and can lift itself and more, thanks to its strong thrust of 173.006323242188 pounds.
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.
This drone configuration has a feasible flying range of 10.09059-10.09059 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 10.89192-10.89192 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 10.09059 miles, and can reach maximum speeds up to 10.89192 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 $2837.091, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/20.glb?download=true
*aMM0*bNM2++*cMN1++*dLM2++*eML1++*fOM3*gMO3*hKM3*iMK3*jPM2++*kMP1++*lJM2+*mMJ1^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im
CouldNotStabilize
9.158669
0
2,970.091
11.05613
1
8
4
12
22.046002
10.230726
17.659004
49.935732
212.906332
0.351351
0.31746
0.614035
This drone is made up of 1 part and has 8 engines that help it move. It also has 4 wings for better flying. It has 12 links that connect everything together securely. The drone weighs 49.9357323722839 pounds in total and can lift itself and more, thanks to its strong thrust of 212.906332397461 pounds.
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.
This drone configuration has a feasible flying range of 9.158669-9.158669 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 11.05613-11.05613 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 9.158669 miles, and can reach maximum speeds up to 11.05613 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 $2970.091, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/21.glb?download=true
*aMM0*bNM2++*cMN1++*dLM2++*eML1++*fOM3*gMO3*hKM3*iMK3*jPM2*kMP1*lJM2*mMJ1^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im
CouldNotStabilize
9.55381
0
2,810.403
10.89083
1
8
4
12
22.046002
7.716103
17.659004
47.421111
165.000064
0.351351
0.238095
0.614035
This drone is made up of 1 part and has 8 engines that help it move. It also has 4 wings for better flying. It has 12 links that connect everything together securely. The drone weighs 47.4211104972839 pounds in total and can lift itself and more, thanks to its strong thrust of 165.000064086914 pounds.
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.
This drone configuration has a feasible flying range of 9.55381-9.55381 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 10.89083-10.89083 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 9.55381 miles, and can reach maximum speeds up to 10.89083 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 $2810.403, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/22.glb?download=true
*aMM0+++*bNM2++*cMN1++*dLM2++*eML1+*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^dj^dk^dl^em^eh^el
CouldNotStabilize
0
0
2,891.749
0.197577
1
4
2
14
31.389715
5.325489
8.829502
45.544706
110.456282
0.432432
0.305556
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 14 links that connect everything together securely. The drone weighs 45.5447061264038 pounds in total and can lift itself and more, thanks to its strong thrust of 110.456282043457 pounds.
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.
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 0.1975772-0.1975772 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 0.1975772 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 $2891.749, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/23.glb?download=true
*aMM0-*bNM2++*cMN1++*dLM2++*eML1*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^el^em^cg^dj^eh
CouldNotStabilize
0
0
2,103.892
0.524435
1
4
2
15
19.403476
4.905237
8.829502
33.138215
102.45003
0.324324
0.277778
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 15 links that connect everything together securely. The drone weighs 33.1382154279709 pounds in total and can lift itself and more, thanks to its strong thrust of 102.450029754639 pounds.
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.
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 0.5244346-0.5244346 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 0.5244346 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 $2103.892, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/24.glb?download=true
*aMM0-*bNM2++*cMN1++*dLM2+*eML1*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^el^em^cg^dj^eh
CouldNotStabilize
0
0
2,064.079
0.222614
1
4
2
15
19.403476
4.278303
8.829502
32.511282
90.506277
0.324324
0.25
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 15 links that connect everything together securely. The drone weighs 32.5112818824768 pounds in total and can lift itself and more, thanks to its strong thrust of 90.5062774658203 pounds.
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.
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 0.2226139-0.2226139 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 0.2226139 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 $2064.079, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/25.glb?download=true
*aMM0-*bNM2++*cMN1++*dLM2++*eML1+*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^el^em^cg^dj^eh
CouldNotStabilize
0
0
2,130.579
0.316765
1
4
2
15
19.403476
5.325489
8.829502
33.558468
110.456282
0.324324
0.305556
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 15 links that connect everything together securely. The drone weighs 33.558467723465 pounds in total and can lift itself and more, thanks to its strong thrust of 110.456282043457 pounds.
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.
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 0.316765-0.316765 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 0.316765 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 $2130.579, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/26.glb?download=true
*aMM0+*bNM4*cMN4*dLM4*eML4*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4*nPM2++*oMP1++*pJM2++*qMJ1++^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el
CouldNotStabilize
0
40
2,360.393
0.000065
1
4
0
20
24.918168
5.952422
0
30.87059
122.400041
0.378378
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 20 links that connect everything together securely. The drone weighs 30.8705896728516 pounds in total and can lift itself and more, thanks to its strong thrust of 122.40004119873 pounds.
This drone could not hover. The drone for a payload of 40 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.
This drone configuration has a feasible flying range of 0.0-10.09662 miles, evaluated over the payload range of 0-40 pounds. This configuration has a velocity range of 6.473416e-05-25.75236 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 10.09662 miles, and can reach maximum speeds up to 25.75236 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 $2360.393, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/27.glb?download=true
*aMM0+*bNM4*cMN4*dLM4*eML4*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4*nPM2++*oMP1++*pJM2*qMJ1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el
Success
6.182621
4
2,227.393
18.16271
1
4
0
20
24.918168
3.858051
0
28.77622
82.500025
0.378378
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 20 links that connect everything together securely. The drone weighs 28.7762200933456 pounds in total and can lift itself and more, thanks to its strong thrust of 82.500025177002 pounds.
This drone can fly up to 6.182621 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 18.16271 miles per hour, at its max payload capacity. This drone costs around $2227.393, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 0.9531432-6.182621 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 11.00519-18.16271 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 6.182621 miles, and can reach maximum speeds up to 18.16271 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 $2227.393, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/28.glb?download=true
*aMM0+*bNM4*cMN4*dLM4*eML4*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4*nPM2*oMP1*pJM2*qMJ1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el
HitBoundary
2.230854
4
2,094.393
25.28621
1
4
0
20
24.918168
1.763681
0
26.681848
42.600009
0.378378
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 20 links that connect everything together securely. The drone weighs 26.6818484113693 pounds in total and can lift itself and more, thanks to its strong thrust of 42.6000091552734 pounds.
This drone for the payload of 4 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude.
This drone configuration has a feasible flying range of 2.230854-11.20971 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 23.13792-25.28621 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 11.20971 miles, and can reach maximum speeds up to 25.28621 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 $2094.393, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/29.glb?download=true
*aMM0*bNM2++*cMN1++*dLM2++*eML1+*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^eh^el
CouldNotStabilize
0
0
2,298.389
0.288065
1
4
2
15
22.046002
5.325489
8.829502
36.200991
110.456282
0.351351
0.305556
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 15 links that connect everything together securely. The drone weighs 36.2009912826538 pounds in total and can lift itself and more, thanks to its strong thrust of 110.456282043457 pounds.
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.
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 0.2880647-0.2880647 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 0.2880647 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 $2298.389, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/30.glb?download=true
*aMM0-----*bNM2++*cMN1++*dLM2++*eML1++*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el
CouldNotStabilize
0
24
1,472.633
0.000002
1
4
0
28
10.938479
5.952422
0
16.8909
122.400041
0.216216
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 28 links that connect everything together securely. The drone weighs 16.8909002695084 pounds in total and can lift itself and more, thanks to its strong thrust of 122.40004119873 pounds.
This drone could not hover. The drone for a payload of 24 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.
This drone configuration has a feasible flying range of 0.0-1.512239 miles, evaluated over the payload range of 0-24 pounds. This configuration has a velocity range of 2.259765e-06-14.20664 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 1.512239 miles, and can reach maximum speeds up to 14.20664 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 $1472.633, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/31.glb?download=true
*aMM0*bNM2+*cMN1+*dLM2*eML1*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el
CouldNotStabilize
0
8
1,965.375
9.426412
1
4
0
28
22.046002
2.604184
0
24.650187
58.612514
0.351351
0.166667
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 28 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 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.
This drone configuration has a feasible flying range of 0.0-9.760808 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 9.426412-25.95735 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 9.760808 miles, and can reach maximum speeds up to 25.95735 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.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/32.glb?download=true
*aMM0-*bNM2+++*cMN1+++*dLM2+++*eML1+++^ab^ac^ad^ae
CouldNotStabilize
0
48
2,232.44
0.000001
1
4
0
4
19.403476
9.452226
0
28.855704
189.075064
0.324324
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 28.8557039867401 pounds in total and can lift itself and more, thanks to its strong thrust of 189.075064086914 pounds.
This drone could not hover. The drone for a payload of 48 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.
This drone configuration has a feasible flying range of 0.0-4.926744 miles, evaluated over the payload range of 0-48 pounds. This configuration has a velocity range of 9.960238e-07-22.16768 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 4.926744 miles, and can reach maximum speeds up to 22.16768 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 $2232.44, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/33.glb?download=true
*aMM0*bNM2+*cMN1+*dLM2+*eML1+*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^el^em^cg^dj
CouldNotStabilize
0
24
2,018.75
0.000241
1
4
0
14
22.046002
3.444689
0
25.490692
74.625011
0.351351
0.222222
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 14 links that connect everything together securely. The drone weighs 25.4906917049408 pounds in total and can lift itself and more, thanks to its strong thrust of 74.6250114440918 pounds.
This drone could not hover. The drone for a payload of 24 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.
This drone configuration has a feasible flying range of 0.0-10.28583 miles, evaluated over the payload range of 0-24 pounds. This configuration has a velocity range of 0.0002406272-26.4555 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 10.28583 miles, and can reach maximum speeds up to 26.4555 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 $2018.75, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/34.glb?download=true
*aMM0*bNM2+*cMN1+*dLM2*eML1*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^el^em^cg^dj
CouldNotStabilize
0
8
1,965.375
9.426549
1
4
0
14
22.046002
2.604184
0
24.650187
58.612514
0.351351
0.166667
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 14 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 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.
This drone configuration has a feasible flying range of 0.0-9.760872 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 9.426549-25.95816 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 9.760872 miles, and can reach maximum speeds up to 25.95816 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.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/35.glb?download=true
*aMM0+++*bNM2++*cMN1++*dLM2++*eML1++*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^el^em^cg^dj^eh
CouldNotStabilize
0
40
2,771.36
0.000066
1
4
0
15
31.389715
5.952422
0
37.342137
122.400041
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 15 links that connect everything together securely. The drone weighs 37.3421365257263 pounds in total and can lift itself and more, thanks to its strong thrust of 122.40004119873 pounds.
This drone could not hover. The drone for a payload of 40 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.
This drone configuration has a feasible flying range of 0.0-14.2439 miles, evaluated over the payload range of 0-40 pounds. This configuration has a velocity range of 6.568937e-05-24.4393 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 14.2439 miles, and can reach maximum speeds up to 24.4393 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 $2771.36, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/36.glb?download=true
*aMM0+++*bNM2++*cMN1++*dLM2+*eML1*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^el^em^cg^dj^eh
CouldNotStabilize
0
0
2,665.047
0.081048
1
4
0
15
31.389715
4.278303
0
35.668019
90.506277
0.432432
0.25
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 15 links that connect everything together securely. The drone weighs 35.6680192417145 pounds in total and can lift itself and more, thanks to its strong thrust of 90.5062774658203 pounds.
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.
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 0.08104801-0.08104801 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 0.08104801 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 $2665.047, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/37.glb?download=true
*aMM0-*bNM2+*cMN1+*dLM2+*eML1+*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^eh^el
CouldNotStabilize
0
24
1,850.94
0.000289
1
4
0
15
19.403476
3.444689
0
22.848164
74.625011
0.324324
0.222222
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 15 links that connect everything together securely. The drone weighs 22.8481639408112 pounds in total and can lift itself and more, thanks to its strong thrust of 74.6250114440918 pounds.
This drone could not hover. The drone for a payload of 24 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.
This drone configuration has a feasible flying range of 0.0-8.378845 miles, evaluated over the payload range of 0-24 pounds. This configuration has a velocity range of 0.0002893396-25.89068 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 8.378845 miles, and can reach maximum speeds up to 25.89068 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 $1850.94, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/38.glb?download=true
*aMM0-*bNM2+*cMN1+*dLM2*eML1*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^eh^el
CouldNotStabilize
0
8
1,797.565
3.59977
1
4
0
15
19.403476
2.604184
0
22.007661
58.612514
0.324324
0.166667
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 15 links that connect everything together securely. The drone weighs 22.0076614522934 pounds in total and can lift itself and more, thanks to its strong thrust of 58.6125137329102 pounds.
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.
This drone configuration has a feasible flying range of 0.0-8.003357 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 3.59977-25.55089 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 8.003357 miles, and can reach maximum speeds up to 25.55089 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 $1797.5649999999998, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/39.glb?download=true
*aMM0++*bNM2++*cMN1++*dLM2*eML1*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
CouldNotStabilize
0
8
2,424.977
13.55562
1
4
0
16
28.029545
3.858051
0
31.887597
82.500025
0.405405
0.222222
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 16 links that connect everything together securely. The drone weighs 31.8875966537476 pounds in total and can lift itself and more, thanks to its strong thrust of 82.500025177002 pounds.
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.
This drone configuration has a feasible flying range of 0.0-3.199596 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 8.939139-16.33129 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 3.199596 miles, and can reach maximum speeds up to 16.33129 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 $2424.977, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/40.glb?download=true
*aMM0+*bNM2+*cMN1+*dLM2+*eML1*fOM4*gMO4*hKM4*iMK4*jPM4*kON4*lOL4*mNO4*nMP4*oLO4*pKN4*qJM4*rKL4*sNK4*tLK4*uMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^fk^fl^gm^gn^go^hp^hq^hr^is^it^iu
CouldNotStabilize
0
0
2,174.456
0.126822
1
4
0
20
24.918168
3.024437
0
27.942605
66.618759
0.378378
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 20 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 66.6187591552734 pounds.
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.
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 0.1268221-0.1268221 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 0.1268221 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.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/41.glb?download=true
*aMM0+*bNM2+*cMN1+*dLM2*eML1*fOM4*gMO4*hKM4*iMK4*jPM4*kON4*lOL4*mNO4*nMP4*oLO4*pKN4*qJM4*rKL4*sNK4*tLK4*uMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^fk^fl^gm^gn^go^hp^hq^hr^is^it^iu
CouldNotStabilize
0
8
2,147.768
17.59869
1
4
0
20
24.918168
2.604184
0
27.522353
58.612514
0.378378
0.166667
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 20 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 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.
This drone configuration has a feasible flying range of 0.0-11.35373 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 12.06417-25.78337 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 11.35373 miles, and can reach maximum speeds up to 25.78337 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.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/42.glb?download=true
*aMM0+++*bNM2++*cMN1++*dLM2+*eML1*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
CouldNotStabilize
0
0
2,665.047
0.081039
1
4
0
16
31.389715
4.278303
0
35.668019
90.506277
0.432432
0.25
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 16 links that connect everything together securely. The drone weighs 35.6680192417145 pounds in total and can lift itself and more, thanks to its strong thrust of 90.5062774658203 pounds.
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.
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 0.081039-0.081039 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 0.081039 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 $2665.047, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/43.glb?download=true
*aMM0+++*bNM2++*cMN1++*dLM2*eML1*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
CouldNotStabilize
0
4
2,638.359
9.271397
1
4
0
16
31.389715
3.858051
0
35.247767
82.500025
0.432432
0.222222
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 16 links that connect everything together securely. The drone weighs 35.2477669462204 pounds in total and can lift itself and more, thanks to its strong thrust of 82.500025177002 pounds.
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.
This drone configuration has a feasible flying range of 0.0-6.048883 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 9.271397-19.21067 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 6.048883 miles, and can reach maximum speeds up to 19.21067 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 $2638.359, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/44.glb?download=true
*aMM0++*bNM2++*cMN1++*dLM2++*eML1++*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
CouldNotStabilize
0
40
2,557.977
0.000022
1
4
0
16
28.029545
5.952422
0
33.981966
122.400041
0.405405
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 16 links that connect everything together securely. The drone weighs 33.9819662332535 pounds in total and can lift itself and more, thanks to its strong thrust of 122.40004119873 pounds.
This drone could not hover. The drone for a payload of 40 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.
This drone configuration has a feasible flying range of 0.0-12.27386 miles, evaluated over the payload range of 0-40 pounds. This configuration has a velocity range of 2.190715e-05-25.4833 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 12.27386 miles, and can reach maximum speeds up to 25.4833 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 $2557.977, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/45.glb?download=true
*aMM0+++*bNM2++*cMN1++*dLM2++*eML1+*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^dj^dk^dl^em^cg^eh
CouldNotStabilize
0
0
2,891.749
0.197537
1
4
2
14
31.389715
5.325489
8.829502
45.544706
110.456282
0.432432
0.305556
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 14 links that connect everything together securely. The drone weighs 45.5447061264038 pounds in total and can lift itself and more, thanks to its strong thrust of 110.456282043457 pounds.
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.
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 0.1975369-0.1975369 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 0.1975369 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 $2891.749, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/46.glb?download=true
*aMM0++*bNM2++*cMN1++*dLM2++*eML1*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
CouldNotStabilize
0
0
2,491.477
0.273982
1
4
0
16
28.029545
4.905237
0
32.934782
102.45003
0.405405
0.277778
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 16 links that connect everything together securely. The drone weighs 32.9347824947357 pounds in total and can lift itself and more, thanks to its strong thrust of 102.450029754639 pounds.
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.
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 0.2739824-0.2739824 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 0.2739824 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 $2491.477, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/47.glb?download=true
*aMM0+*bNM2+*cMN1+*dLM2+*eML1*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
CouldNotStabilize
0
0
2,174.456
0.126815
1
4
0
16
24.918168
3.024437
0
27.942605
66.618759
0.378378
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 16 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 66.6187591552734 pounds.
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.
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 0.126815-0.126815 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 0.126815 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.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/48.glb?download=true
*aMM0+*bNM2+*cMN1+*dLM2*eML1*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
CouldNotStabilize
0
8
2,147.768
17.8085
1
4
0
16
24.918168
2.604184
0
27.522353
58.612514
0.378378
0.166667
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 16 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 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.
This drone configuration has a feasible flying range of 0.0-11.35366 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 12.06422-25.78351 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 11.35366 miles, and can reach maximum speeds up to 25.78351 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.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/49.glb?download=true
*aMM0*bNM2+*cMN1+*dLM2+*eML1+*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^dj^eh^el
CouldNotStabilize
0
24
2,018.75
0.000118
1
4
0
15
22.046002
3.444689
0
25.490692
74.625011
0.351351
0.222222
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 15 links that connect everything together securely. The drone weighs 25.4906917049408 pounds in total and can lift itself and more, thanks to its strong thrust of 74.6250114440918 pounds.
This drone could not hover. The drone for a payload of 24 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.
This drone configuration has a feasible flying range of 0.0-10.28573 miles, evaluated over the payload range of 0-24 pounds. This configuration has a velocity range of 0.000118266-26.45528 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 10.28573 miles, and can reach maximum speeds up to 26.45528 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 $2018.75, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/50.glb?download=true
*aMM0+*bNM2++*cMN1++*dLM2*eML1*fOM4*gMO4*hKM4*iMK4*jPM4*kON4*lOL4*mNO4*nMP4*oLO4*pKN4*qJM4*rKL4*sNK4*tLK4*uMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^fk^fl^gm^gn^go^hp^hq^hr^is^it^iu
Success
6.112695
4
2,227.393
21.28999
1
4
0
20
24.918168
3.858051
0
28.77622
82.500025
0.378378
0.222222
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 20 links that connect everything together securely. The drone weighs 28.7762200933456 pounds in total and can lift itself and more, thanks to its strong thrust of 82.500025177002 pounds.
This drone can fly up to 6.112695 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 21.28999 miles per hour, at its max payload capacity. This drone costs around $2227.393, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 0.9472777-6.112695 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 10.83247-21.28999 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 6.112695 miles, and can reach maximum speeds up to 21.28999 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 $2227.393, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/51.glb?download=true
*aMM0+*bNM4*cMN4*dLM4*eML4*fOM2*gNN1*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
CouldNotStabilize
0
28
2,406.393
0.000125
1
8
0
16
24.918168
3.527361
0
28.445529
85.200018
0.378378
0.111111
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 16 links that connect everything together securely. The drone weighs 28.4455288318634 pounds in total and can lift itself and more, thanks to its strong thrust of 85.2000183105469 pounds.
This drone could not hover. The drone for a payload of 28 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.
This drone configuration has a feasible flying range of 0.0-15.84357 miles, evaluated over the payload range of 0-28 pounds. This configuration has a velocity range of 0.0001246383-32.08331 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 15.84357 miles, and can reach maximum speeds up to 32.08331 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 $2406.393, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/52.glb?download=true
*aMM0+*bNM2++*cMN1++*dLM2*eML1*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4*nPM4*oMP4*pJM4*qMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el
Success
6.113266
4
2,227.393
21.29384
1
4
0
20
24.918168
3.858051
0
28.77622
82.500025
0.378378
0.222222
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 20 links that connect everything together securely. The drone weighs 28.7762200933456 pounds in total and can lift itself and more, thanks to its strong thrust of 82.500025177002 pounds.
This drone can fly up to 6.113266 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 21.29384 miles per hour, at its max payload capacity. This drone costs around $2227.393, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 0.9472674-6.113266 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 10.83266-21.29384 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 6.113266 miles, and can reach maximum speeds up to 21.29384 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 $2227.393, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/53.glb?download=true
*aMM0+*bNM2++*cMN1++*dLM2++*eML1+*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^dj^eh^el
CouldNotStabilize
0
0
2,480.782
0.285194
1
4
2
15
24.918168
5.325489
8.829502
39.073159
110.456282
0.378378
0.305556
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 15 links that connect everything together securely. The drone weighs 39.0731592735291 pounds in total and can lift itself and more, thanks to its strong thrust of 110.456282043457 pounds.
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.
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 0.2851942-0.2851942 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 0.2851942 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 $2480.782, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/54.glb?download=true
*aMM0++*bNM2++*cMN1++*dLM2++*eML1+*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh
CouldNotStabilize
0
0
2,678.366
0.235775
1
4
2
15
28.029545
5.325489
8.829502
42.184538
110.456282
0.405405
0.305556
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 15 links that connect everything together securely. The drone weighs 42.1845379364014 pounds in total and can lift itself and more, thanks to its strong thrust of 110.456282043457 pounds.
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.
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 0.2357753-0.2357753 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 0.2357753 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 $2678.366, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/55.glb?download=true
*aMM0+*bNM2++*cMN1++*dLM2++*eML1+*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
CouldNotStabilize
0
0
2,480.782
0.28518
1
4
2
16
24.918168
5.325489
8.829502
39.073159
110.456282
0.378378
0.305556
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 16 links that connect everything together securely. The drone weighs 39.0731592735291 pounds in total and can lift itself and more, thanks to its strong thrust of 110.456282043457 pounds.
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.
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 0.2851799-0.2851799 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 0.2851799 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 $2480.782, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/56.glb?download=true
*aMM0++*bNM2+*cMN1+*dLM2+*eML1*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
CouldNotStabilize
0
0
2,372.039
0.095879
1
4
0
16
28.029545
3.024437
0
31.053982
66.618759
0.405405
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 16 links that connect everything together securely. The drone weighs 31.0539818582535 pounds in total and can lift itself and more, thanks to its strong thrust of 66.6187591552734 pounds.
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.
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 0.09587901-0.09587901 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 0.09587901 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 $2372.039, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/57.glb?download=true
*aMM0+++*bNM2*cMN1+*dLM2+*eML1^ab^ac^ad^ae
CouldNotStabilize
0
0
2,558.734
0.13751
1
4
0
4
31.389715
2.604184
0
33.9939
58.612514
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 33.9938998552322 pounds in total and can lift itself and more, thanks to its strong thrust of 58.6125137329102 pounds.
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.
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 0.1375101-0.1375101 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 0.1375101 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 $2558.734, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/58.glb?download=true
*aMM0+++++++++*bNM4*cMN4*dLM4*eML4*fOM2++*gMO1++*hKM2++*iMK1++^ab^ac^ad^ae^bf^cg^dh^ei
HitBoundary
8.075195
12
4,417.451
16.10988
1
4
0
8
57.310946
5.952422
0
63.263368
122.400041
0.594595
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 63.2633679138184 pounds in total and can lift itself and more, thanks to its strong thrust of 122.40004119873 pounds.
This drone for the payload of 12 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude.
This drone configuration has a feasible flying range of 8.075195-21.63407 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 13.70382-16.10988 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 21.63407 miles, and can reach maximum speeds up to 16.10988 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 $4417.451, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/59.glb?download=true
*aMM0+++++++++*bNM4*cMN4*dLM4*eML4*fOM2++*gMO1++*hKM2++*iMK1+^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
4
4,377.638
31.25415
1
4
0
8
57.310946
5.325489
0
62.636436
110.456282
0.594595
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 62.6364364707947 pounds in total and can lift itself and more, thanks to its strong thrust of 110.456282043457 pounds.
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.
This drone configuration has a feasible flying range of 0.0-4.22232 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 12.36872-31.25415 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 4.22232 miles, and can reach maximum speeds up to 31.25415 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 $4377.638, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/Dataset/resolve/main/train1/glb/60.glb?download=true
*aMM0+++++++*bNM2+++*cMN1++++*dLM2++++*eML1++++^ab^ac^ad^ae
CouldNotStabilize
0
0
4,239.09
0.065023
1
4
0
4
47.509553
12.945139
0
60.454695
255.618814
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 60.4546945289612 pounds in total and can lift itself and more, thanks to its strong thrust of 255.618814086914 pounds.
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.
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 0.06502337-0.06502337 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 0.06502337 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 $4239.09, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1001.glb?download=true
*aMM0+++++++*bNM4*cMN4*dLM4*eML4*fOM2++++*gNN2++++*hNL2++*iMO1*jLN1*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
CouldNotStabilize
0
0
4,299.527
195.0273
1
8
0
16
47.509553
10.747431
0
58.256982
222.750082
0.540541
0.269841
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 16 links that connect everything together securely. The drone weighs 58.2569822219849 pounds in total and can lift itself and more, thanks to its strong thrust of 222.750082397461 pounds.
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.
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 195.0273-195.0273 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 195.0273 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 $4299.527, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1002.glb?download=true
*aMM0+++++++*bNM4*cMN4*dLM4*eML4*fOM2++++*gNN2++++*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
CouldNotStabilize
0
0
4,233.027
71.70047
1
8
0
16
47.509553
9.700244
0
57.209796
202.800092
0.540541
0.238095
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 16 links that connect everything together securely. The drone weighs 57.2097963809967 pounds in total and can lift itself and more, thanks to its strong thrust of 202.800091552734 pounds.
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.
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 71.70047-71.70047 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 71.70047 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 $4233.027, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1003.glb?download=true
*aMM0+++++++*bNM4*cMN4*dLM4*eML4*fOM2++++*gNN2+++*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
CouldNotStabilize
0
0
4,159.089
237.5012
1
8
0
16
47.509553
8.535938
0
56.04549
180.618832
0.540541
0.222222
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 16 links that connect everything together securely. The drone weighs 56.0454903240204 pounds in total and can lift itself and more, thanks to its strong thrust of 180.618832397461 pounds.
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.
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 237.5012-237.5012 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 237.5012 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 $4159.089, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1004.glb?download=true
*aMM0+++++++*bNM4*cMN4*dLM4*eML4*fOM2++++*gNN2+*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
CouldNotStabilize
0
0
4,063.715
2.049353
1
8
0
16
47.509553
7.034054
0
54.543607
152.006314
0.540541
0.190476
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 16 links that connect everything together securely. The drone weighs 54.5436074150085 pounds in total and can lift itself and more, thanks to its strong thrust of 152.006314086914 pounds.
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.
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 2.049353-2.049353 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 2.049353 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 $4063.715, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1005.glb?download=true
*aMM0+++++++*bNM4*cMN4*dLM4*eML4*fOM2++++*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
CouldNotStabilize
0
0
4,037.027
2.686121
1
8
0
16
47.509553
6.613802
0
54.123357
144.000055
0.540541
0.174603
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 16 links that connect everything together securely. The drone weighs 54.1233572219849 pounds in total and can lift itself and more, thanks to its strong thrust of 144.000054931641 pounds.
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.
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 2.686121-2.686121 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 2.686121 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 $4037.027, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1006.glb?download=true
*aMM0+++++++*bNM4*cMN4*dLM4*eML4*fOM2++*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
CouldNotStabilize
0
0
3,907.527
0.510506
1
8
0
16
47.509553
4.574547
0
52.0841
105.150023
0.540541
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 16 links that connect everything together securely. The drone weighs 52.0840996990204 pounds in total and can lift itself and more, thanks to its strong thrust of 105.150022888184 pounds.
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.
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 0.5105064-0.5105064 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 0.5105064 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 $3907.527, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1007.glb?download=true
*aMM0+++++++*bNM4*cMN4*dLM4*eML4*fOM2+++*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
CouldNotStabilize
0
0
3,963.09
2.001995
1
8
0
16
47.509553
5.449498
0
52.959051
121.818782
0.540541
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 16 links that connect everything together securely. The drone weighs 52.9590511650085 pounds in total and can lift itself and more, thanks to its strong thrust of 121.818782043457 pounds.
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.
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 2.001995-2.001995 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 2.001995 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 $3963.09, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1008.glb?download=true
*aMM0+++++++*bNM4*cMN4*dLM4*eML4*fOM2*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
HitBoundary
5.039479
0
3,841.027
3.438446
1
8
0
16
47.509553
3.527361
0
51.036914
85.200018
0.540541
0.111111
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 16 links that connect everything together securely. The drone weighs 51.0369138580322 pounds in total and can lift itself and more, thanks to its strong thrust of 85.2000183105469 pounds.
This drone for the payload of 0 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude.
This drone configuration has a feasible flying range of 5.039479-5.039479 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 3.438446-3.438446 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 5.039479 miles, and can reach maximum speeds up to 3.438446 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 $3841.027, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1009.glb?download=true
*aMM0+++++*bNM4*cMN4*dLM4*eML4*fOM2*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
HitBoundary
8.47446
0
3,293.95
85.74272
1
8
0
16
38.89466
3.527361
0
42.42202
85.200018
0.486486
0.111111
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 16 links that connect everything together securely. The drone weighs 42.4220203777313 pounds in total and can lift itself and more, thanks to its strong thrust of 85.2000183105469 pounds.
This drone for the payload of 0 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude.
This drone configuration has a feasible flying range of 8.47446-8.47446 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 85.74272-85.74272 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 8.47446 miles, and can reach maximum speeds up to 85.74272 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 $3293.95, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1010.glb?download=true
*aMM0+++*bNM4*cMN4*dLM4*eML4*fOM2*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
HitBoundary
9.740248
4
2,817.359
73.12702
1
8
0
16
31.389715
3.527361
0
34.917076
85.200018
0.432432
0.111111
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 16 links that connect everything together securely. The drone weighs 34.9170756847382 pounds in total and can lift itself and more, thanks to its strong thrust of 85.2000183105469 pounds.
This drone for the payload of 4 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude.
This drone configuration has a feasible flying range of 9.740248-11.71396 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 17.5462-73.12702 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 11.71396 miles, and can reach maximum speeds up to 73.12702 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 $2817.359, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1011.glb?download=true
*aMM0+*bNM4*cMN4*dLM4*eML4*fOM2*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el
HitBoundary
2.632322
16
2,406.393
34.02671
1
8
0
16
24.918168
3.527361
0
28.445529
85.200018
0.378378
0.111111
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 16 links that connect everything together securely. The drone weighs 28.4455288318634 pounds in total and can lift itself and more, thanks to its strong thrust of 85.2000183105469 pounds.
This drone for the payload of 16 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude.
This drone configuration has a feasible flying range of 2.632322-13.74705 miles, evaluated over the payload range of 0-16 pounds. This configuration has a velocity range of 16.68534-34.02671 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 13.74705 miles, and can reach maximum speeds up to 34.02671 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 $2406.393, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1012.glb?download=true
*aMM0+++++*bNM4*cMN4*dLM4*eML4*fOM2+*gMO1+*hKM2+*iMK1+^ab^ac^ad^ae^bf^cg^dh^ei
HitBoundary
2.144414
8
3,088.7
12.88621
1
4
0
8
38.89466
3.444689
0
42.339347
74.625011
0.486486
0.222222
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 42.3393470367432 pounds in total and can lift itself and more, thanks to its strong thrust of 74.6250114440918 pounds.
This drone for the payload of 8 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude.
This drone configuration has a feasible flying range of 2.144414-19.51022 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 12.88621-24.31459 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 19.51022 miles, and can reach maximum speeds up to 24.31459 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 $3088.6999999999994, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1013.glb?download=true
*aMM0+++*bNM2+++*cMN1+++*dLM2+++*eML1+++*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
56
2,993.61
0.000007
1
4
0
8
31.389715
9.452226
0
40.841942
189.075064
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 8 links that connect everything together securely. The drone weighs 40.841942389679 pounds in total and can lift itself and more, thanks to its strong thrust of 189.075064086914 pounds.
This drone could not hover. The drone for a payload of 56 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.
This drone configuration has a feasible flying range of 0.0-12.72828 miles, evaluated over the payload range of 0-56 pounds. This configuration has a velocity range of 6.517032e-06-25.10312 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 12.72828 miles, and can reach maximum speeds up to 25.10312 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 $2993.61, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1014.glb?download=true
*aMM0+++*bNM2+++*cMN1+++*dLM2+++*eML1++*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
2,938.047
0.212572
1
4
0
8
31.389715
8.577275
0
39.966991
172.406319
0.432432
0.416667
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 39.9669909236908 pounds in total and can lift itself and more, thanks to its strong thrust of 172.406318664551 pounds.
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.
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 0.2125722-0.2125722 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 0.2125722 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 $2938.047, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1015.glb?download=true
*aMM0+++*bNM2+++*cMN1+++*dLM2+++*eML1+*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
2,898.235
0.351281
1
4
0
8
31.389715
7.950341
0
39.340055
160.46256
0.432432
0.388889
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 39.3400552757263 pounds in total and can lift itself and more, thanks to its strong thrust of 160.462559509277 pounds.
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.
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 0.3512805-0.3512805 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 0.3512805 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 $2898.235, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1016.glb?download=true
*aMM0+++*bNM2+++*cMN1+++*dLM2+++*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
2,871.547
0.460015
1
4
0
8
31.389715
7.53009
0
38.919805
152.456314
0.432432
0.361111
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 38.9198050827026 pounds in total and can lift itself and more, thanks to its strong thrust of 152.456314086914 pounds.
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.
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 0.4600148-0.4600148 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 0.4600148 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 $2871.547, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1017.glb?download=true
*aMM0+++*bNM2+++*cMN1+++*dLM2*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
4
2,749.485
8.2644
1
4
0
8
31.389715
5.607953
0
36.997668
115.837537
0.432432
0.277778
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 36.9976677757263 pounds in total and can lift itself and more, thanks to its strong thrust of 115.837536621094 pounds.
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.
This drone configuration has a feasible flying range of 0.0-1.503626 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 8.2644-12.80736 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 1.503626 miles, and can reach maximum speeds up to 12.80736 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 $2749.485, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1018.glb?download=true
*aMM0+++*bNM2+++*cMN1+++*dLM2+*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
2,776.172
0.093697
1
4
0
8
31.389715
6.028206
0
37.417922
123.843796
0.432432
0.305556
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 37.4179221736908 pounds in total and can lift itself and more, thanks to its strong thrust of 123.843795776367 pounds.
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.
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 0.09369732-0.09369732 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 0.09369732 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 $2776.172, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1019.glb?download=true
*aMM0+++*bNM2+++*cMN1++*dLM2*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
2,693.922
0.155312
1
4
0
8
31.389715
4.733003
0
36.122716
99.168777
0.432432
0.25
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 36.1227163097382 pounds in total and can lift itself and more, thanks to its strong thrust of 99.1687774658203 pounds.
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.
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 0.1553124-0.1553124 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 0.1553124 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 $2693.922, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1020.glb?download=true
*aMM0+++*bNM2+++*cMN1+*dLM2*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
2,654.109
0.250788
1
4
0
8
31.389715
4.106069
0
35.495785
87.225025
0.432432
0.222222
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 35.4957848667145 pounds in total and can lift itself and more, thanks to its strong thrust of 87.225025177002 pounds.
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.
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 0.2507875-0.2507875 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 0.2507875 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 $2654.109, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1021.glb?download=true
*aMM0+++++++*bNM2*cMN1*dLM3*eML3*fOM4*gMO4*hKM4*iMK4*jPM2+++*kMP1+++*lJM2+++*mMJ1+++^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im
Success
12.78143
4
4,333.479
9.919003
1
6
2
12
47.509553
10.334068
8.829502
66.673121
210.375055
0.540541
0.311111
0.614035
This drone is made up of 1 part and has 6 engines that help it move. It also has 2 wings for better flying. It has 12 links that connect everything together securely. The drone weighs 66.673120765686 pounds in total and can lift itself and more, thanks to its strong thrust of 210.375054931641 pounds.
This drone can fly up to 12.78143 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 9.919003 miles per hour, at its max payload capacity. This drone costs around $4333.479, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 12.63777-12.78143 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 9.638951-9.919003 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 12.78143 miles, and can reach maximum speeds up to 9.919003 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 $4333.479, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1022.glb?download=true
*aMM0+++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2+*gMO1+*hKM2+*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
16
4,158.013
0.284078
1
8
0
8
38.89466
17.133882
0
56.02854
344.418805
0.486486
0.412698
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 56.0285402076721 pounds in total and can lift itself and more, thanks to its strong thrust of 344.418804931641 pounds.
This drone could not hover. The drone for a payload of 16 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.
This drone configuration has a feasible flying range of 0.0-14.7295 miles, evaluated over the payload range of 0-16 pounds. This configuration has a velocity range of 0.2840776-24.06271 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 14.7295 miles, and can reach maximum speeds up to 24.06271 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 $4158.013, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1023.glb?download=true
*aMM0+++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2+*gMO1+*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
Success
1.846512
20
4,131.326
12.51382
1
8
0
8
38.89466
16.71363
0
55.60829
336.412573
0.486486
0.396825
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 55.6082900146484 pounds in total and can lift itself and more, thanks to its strong thrust of 336.412573242188 pounds.
This drone can fly up to 1.846512 miles. It can carry heavy things, up to 20 pounds. Also, it can achieve a max speed of 12.51382 miles per hour, at its max payload capacity. This drone costs around $4131.326, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 1.21297-14.90351 miles, evaluated over the payload range of 0-20 pounds. This configuration has a velocity range of 11.21451-24.05765 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 14.90351 miles, and can reach maximum speeds up to 24.05765 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 $4131.326, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1024.glb?download=true
*aMM0+++++*bNM2++++*cMN1++++*dLM2++++*eML1++*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
3,948.451
0.107358
1
8
0
8
38.89466
13.833873
0
52.728532
281.550092
0.486486
0.333333
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 52.7285321056366 pounds in total and can lift itself and more, thanks to its strong thrust of 281.550091552734 pounds.
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.
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 0.1073578-0.1073578 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 0.1073578 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 $3948.451, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1025.glb?download=true
*aMM0+++++*bNM2++++*cMN1++++*dLM2++++*eML1*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
3,881.951
0.152079
1
8
0
8
38.89466
12.786688
0
51.681346
261.600101
0.486486
0.301587
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 51.6813462646484 pounds in total and can lift itself and more, thanks to its strong thrust of 261.600100708008 pounds.
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.
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 0.1520794-0.1520794 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 0.1520794 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 $3881.951, adding up costs of all the components used to achieve this configuration.

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