Title :
Biologically inspired self-reconfigurable hexapod with adaptive locomotion
Author :
Akhlaq, Ammar ; Ahmad, Jawad ; Umber, Ayesha
Author_Institution :
Dept. of Electr. Eng., Univ. of Manage. & Technol., Lahore, Pakistan
Abstract :
This paper describes the implementation of biologically inspired self-reconfigurable control system for a multivariable hexapod robot having gait switching ability. It focuses on the control; based on forward and inverse kinematics for systematic locomotion and navigation of robot. Electronic system have the capabilities to measure physical variables. Force and pressure sensors are mounted on each end of the leg to provide the necessary sense of touch. The paper also explains the reconfiguration ability of the robot in case of any damage to its leg and its capacity to change the walking pattern according to the malfunction caused. The system implementation using multiple microcontrollers in master-slave configuration to produce and control 18 DOF is also shown in the paper.
Keywords :
adaptive control; force sensors; legged locomotion; microcontrollers; path planning; pressure sensors; robot kinematics; DOF; adaptive locomotion; biologically inspired self-reconfigurable control system; biologically inspired self-reconfigurable hexapod; electronic system; force sensors; forward kinematics; gait switching ability; inverse kinematics; master-slave configuration; microcontrollers; multivariable hexapod robot; physical variables measurement; pressure sensors; robot navigation; robot reconfiguration ability; systematic locomotion; walking pattern; Joints; Kinematics; Legged locomotion; Mathematical model; Power electronics; Robot kinematics; 18 DOF motion; Hexapod robot; biologically inspired robot; kinematics and inverse kinematics for hexapod; multiple gait robot; navigation of hexapod;
Conference_Titel :
Power Electronics and Motion Control Conference and Exposition (PEMC), 2014 16th International
Conference_Location :
Antalya
DOI :
10.1109/EPEPEMC.2014.6980531
