| Title |
A Study on the Optimal Solution for the Manipulation of a Robot with Four Limbs |
| Authors |
이지영(Lee, Ji Young) ; 성영휘(Sung, Young Whee) |
| DOI |
https://doi.org/10.5370/KIEE.2015.64.8.1231 |
| Keywords |
Four-limbs robot ; Robot structure ; Robot manipulation ; Redundancy resolution |
| Abstract |
We developed a robot that has four limbs, each of which has the same kinematic structure and has 6 degrees of freedom. The robot is 600mm high and weighs 4.3kg. The robot can perform walking and manipulating task by using the four limbs selectively. The robot has three walking patterns. The first one is biped walking, which uses two rear limbs as legs and two front limbs as arms. The second one is biped walking with supporting arms, which is basically biped walking but uses two arms as supporting legs for increasing stability of the robot. The last one is quadruped walking, which uses all the four limbs as legs. When a task for the robot is given, the robot approaches the task point by selecting an appropriate walking pattern among three walking patterns and performs the task. The robot has many degrees of freedom and is a redundant system for a three dimensional task. We propose a redundancy resolution method, in which the robot’s translational move to the task point is modeled as a prismatic joint and optimal solutions are obtained by optimizing some performance criteria. Several simulations are performed for the validity of the proposed method. |