Omni-directional walking control for a six-legged robot using differential kinematics algorithm

Abstract: This paper introduces omni-directional walking control of a six-legged robot (6LR). The 6LR consists of its body, six legs with four links and four rotational joints. The followings are done for this task. First, the walking gait of the 6LR is chosen. Second, modeling for one leg with four links and four rotational joints of the 6LR is proposed. It is difficult and complex to get the angles of four rotational joints in the case of using inverse kinematics. To solve this problem, differential kinematics algorit… Show more

“…When designing a serial link structure for a multi-legged robot, first of all, its inverse kinematics problem must be solved. Hoang et al proposed a differential kinematics algorithm to generate omni-directional walking trajectory of a leg based on back-stepping control using Lyapunov stability (1) . Simulation results for walking motion of one leg of a six-legged robot were shown to prove the effectiveness and applicability of the proposed controller.…”

Neural Network-Based Inverse Kinematics for an Industrial Robot and Its Learning Method

“…When designing a serial link structure for a multi-legged robot, first of all, its inverse kinematics problem must be solved. Hoang et al proposed a differential kinematics algorithm to generate omni-directional walking trajectory of a leg based on back-stepping control using Lyapunov stability (1) . Simulation results for walking motion of one leg of a six-legged robot were shown to prove the effectiveness and applicability of the proposed controller.…”

Neural Network-Based Inverse Kinematics for an Industrial Robot and Its Learning Method

Hexapod leg coordination using simple geometrical tripod-gait and inverse kinematics approach

Notice of Removal Learning of inverse kinematics using a neural network with efficient weights tuning ability