Stabilizing Quadruped Robot Movement Using Fuzzy Logic Control for Yaw Angle Adjustment in Walking and Trotting Gait
Penulis/Author
Dr. Andi Dharmawan, S.Si., M.Cs. (2); Muhammad Auzan, S.Si., M.Cs. (3); Bakhtiar Alldino Ardi Sumbodo, S.Si., M.Cs. (4); Prof. Dr. Ir. Jazi Eko Istiyanto, M.Sc. (5)
Tanggal/Date
1 2024
Kata Kunci/Keyword
Abstrak/Abstract
Balance is a fundamental aspect of quadruped robots that determines their movement success. Imbalanced movement can affect the robot's orientation, leading to potential deviations from the intended direction due to changes in the attitude angle. An unstable attitude angle can result in loss of control, complicating effective navigation. This loss of control may prevent the robot from maintaining its stability, increasing the risk of falling. This study designs a control system for a quadruped robot using fuzzy control system to manage the yaw angle while the robot walks forward using both walking and trotting gaits. The fuzzy control system outputs are used to adjust the hip joint angles of the robot's four legs, modifying the stride length of each leg accordingly. The quadruped robot was tested with both walking and trotting gaits moving forward for 30 seconds. The quadruped robot successfully maintained balance and stability in the ????-axis (yaw) on a flat, obstacle-free surface using fuzzy
control system. The fuzzy logic control effectively reduced positional distance fluctuations from the set point and enhanced the robot's ability to return to the set point after fluctuations, without producing excessive overshoot.
