Sliding-mode formation control for cooperative nonholonomic robots with uncertainties

For the decentralized formation problem of multiple robots, this paper presents a kind of robust sliding mode controller based on nonlinear disturbance observer. According to the leader-follower-based formation mechanism, the dynamic model with external disturbances and system uncertainties is established. To perform a formation control and to guarantee system robustness, a novel formation algorithm combining sliding model control and nonlinear disturbance observer is presented. Sliding mode control (SMC) is a special nonlinear control strategy, which has invariance against the matched uncertainties, but the chattering produced by SMC limits its application to the practical system. By using nonlinear disturbance observer technology, the uncertainties cover both matched and mismatch uncertainties can be compensated. In addition, the SMC control law can be designed successfully so that chattering can be effectively alleviated. In the sense of Lyapunov, a sufficient condition is drawn to guarantee that the formation system can be asymptotically stabilized. Simulation results confirm the effectiveness of the proposed control scheme.

[1]  Michael Defoort,et al.  Sliding-Mode Formation Control for Cooperative Autonomous Mobile Robots , 2008, IEEE Transactions on Industrial Electronics.

[2]  Bong Seok Park,et al.  Leader-Following Based Adaptive Formation Control for Multiple Mobile Robots , 2010 .

[3]  Nathan van de Wouw,et al.  A virtual structure approach to formation control of unicycle mobile robots using mutual coupling , 2011, Int. J. Control.

[4]  Shihua Li,et al.  Non-linear disturbance observer-based robust control for systems with mismatched disturbances/uncertainties , 2011 .

[5]  Jin Bae Park,et al.  Adaptive Formation Control of Electrically Driven Nonholonomic Mobile Robots With Limited Information , 2011, IEEE Transactions on Systems, Man, and Cybernetics, Part B (Cybernetics).

[6]  Lei Guo,et al.  Nonlinear-Disturbance-Observer-Based Robust Flight Control for Airbreathing Hypersonic Vehicles , 2013, IEEE Transactions on Aerospace and Electronic Systems.

[7]  Chitralekha Mahanta,et al.  Chattering free adaptive multivariable sliding mode controller for systems with matched and mismatched uncertainty. , 2013, ISA transactions.

[8]  Jinzhi Wang,et al.  Reference command tracking control for an air-breathing hypersonic vehicle with parametric uncertainties , 2013, J. Frankl. Inst..

[9]  Jie Geng,et al.  Time-varying nonsingular terminal sliding mode control for robot manipulators , 2014 .

[10]  X. Dong,et al.  Time-varying formation control for high-order linear swarm systems with switching interaction topologies , 2014 .

[11]  Yingmin Jia,et al.  Adaptive leader-follower formation control of non-holonomic mobile robots using active vision , 2015 .

[12]  Hongnian Yu,et al.  Behaviour-based control approach for the trajectory tracking of an underactuated planar capsule robot , 2015 .

[13]  Yanyan Dai,et al.  A switching formation strategy for obstacle avoidance of a multi-robot system based on robot priority model. , 2015, ISA transactions.

[14]  Jinrong Guo,et al.  Leader-follower-based formation control of nonholonomic mobile robots with mismatched uncertainties via integral sliding mode , 2015, J. Syst. Control. Eng..

[15]  Emre Sariyildiz,et al.  Stability and Robustness of Disturbance-Observer-Based Motion Control Systems , 2019, IEEE Transactions on Industrial Electronics.