TY - GEN
T1 - Performance evaluation on land of an amphibious spherical mother robot
AU - Guo, Shuxiang
AU - Li, Maoxun
AU - Shi, Liwei
AU - Mao, Shilian
AU - Yue, Chunfeng
PY - 2013
Y1 - 2013
N2 - Various underwater microrobots were used widely to work in limited spaces in the last few years. However, for having compact structures, the robots had some limitations of locomotion velocity and enduring time. In order to solve these problems, we proposed a mother-son robot cooperation system. We designed a conceptual structure of a novel amphibious spherical robot as the mother robot to carry the microrobots as son robots for collaboration. The spherical mother robot was composed of a sealed hemispheroid, two openable quarter spherical shells, a plastic circular plate, a plastic shelf and four actuating units. Each unit consisted of a water jet propeller and two servo motors, each of which could rotate 90°in horizontal or vertical direction respectively. The robot could perform walking and rotating motions on land, as well as moving forward and backward, rotating, surfacing and diving motions in water. We developed the prototype mother robot and did the force analysis of each unit of the actuating system. Then we proposed three walking gaits for the robot and carried out the walking experiments on the tile floor to evaluate the performance of the walking motion, including stability and velocity. From the experimental results of walking and rotating motions, we got that under a frequency of 3.33 Hz in Gait 3 (duty factor β=0.67) we got a maximal walking velocity of 22.5 cm/s. Under a frequency of 1.56 Hz in Gait 2 (duty factor β=0.75), we achieved a maximal rotating velocity of 71.29°/s•
AB - Various underwater microrobots were used widely to work in limited spaces in the last few years. However, for having compact structures, the robots had some limitations of locomotion velocity and enduring time. In order to solve these problems, we proposed a mother-son robot cooperation system. We designed a conceptual structure of a novel amphibious spherical robot as the mother robot to carry the microrobots as son robots for collaboration. The spherical mother robot was composed of a sealed hemispheroid, two openable quarter spherical shells, a plastic circular plate, a plastic shelf and four actuating units. Each unit consisted of a water jet propeller and two servo motors, each of which could rotate 90°in horizontal or vertical direction respectively. The robot could perform walking and rotating motions on land, as well as moving forward and backward, rotating, surfacing and diving motions in water. We developed the prototype mother robot and did the force analysis of each unit of the actuating system. Then we proposed three walking gaits for the robot and carried out the walking experiments on the tile floor to evaluate the performance of the walking motion, including stability and velocity. From the experimental results of walking and rotating motions, we got that under a frequency of 3.33 Hz in Gait 3 (duty factor β=0.67) we got a maximal walking velocity of 22.5 cm/s. Under a frequency of 1.56 Hz in Gait 2 (duty factor β=0.75), we achieved a maximal rotating velocity of 71.29°/s•
KW - Amphibious robot
KW - Mother robot
KW - Quadruped walking
KW - Spherical robot
KW - Walking gait
KW - Water jet propeller
UR - https://www.scopus.com/pages/publications/84881482526
U2 - 10.1109/ICCME.2013.6548321
DO - 10.1109/ICCME.2013.6548321
M3 - Conference contribution
AN - SCOPUS:84881482526
SN - 9781467329699
T3 - 2013 ICME International Conference on Complex Medical Engineering, CME 2013
SP - 602
EP - 607
BT - 2013 ICME International Conference on Complex Medical Engineering, CME 2013
T2 - 2013 7th ICME International Conference on Complex Medical Engineering, CME 2013
Y2 - 25 May 2013 through 28 May 2013
ER -