Title :
IBVS with fuzzy sliding mode for robot manipulators
Author_Institution :
Dept. of Electr. & Electron. Eng., Bilecik Seyh Edebali Univ., Bilecik, Turkey
Abstract :
Closed loop control of robot manipulator´s end effector pose with visual feedback is called as visual servoing (VS). As one of the approaches for VS, image-based visual servoing (IBVS) has the advantage of no pose estimation for commonly used eye-in-hand configured manipulators. VS aims to minimize the error derived from k feature points vector s in image feature space and it controls the velocity of the end effector from error signals. This velocity control is based on sliding mode control (SMC) with a fixed gain. Choice of an appropriate gain plays a critical role in the performance of this controller. This study is focused on varying gain for fast convergence with varying sliding slope approach. Computing gain using fuzzy logic that is an approach in fuzzy SMC is proposed.
Keywords :
closed loop systems; convergence; end effectors; fuzzy control; pose estimation; robot vision; variable structure systems; velocity control; visual servoing; IBVS; closed loop control; convergence; error signal; eye-in-hand configured manipulator; feature points vector; fuzzy SMC; fuzzy logic; fuzzy sliding mode; image feature space; image-based visual servoing; pose estimation; robot manipulator end effector; sliding mode control; varying sliding slope approach; velocity control; visual feedback; Cameras; Convergence; End effectors; Fuzzy logic; Visual servoing; IBVS; fuzzy sliding mode control; robot manipulator;
Conference_Titel :
Recent Advances in Sliding Modes (RASM), 2015 International Workshop on
Conference_Location :
Istanbul
DOI :
10.1109/RASM.2015.7154590
