Title :
Optimal Navigation for Vehicles With Stochastic Dynamics
Author :
Shah, Shridhar K. ; Tanner, Herbert G. ; Pahlajani, Chetan D.
Author_Institution :
Mathworks Inc., Boston, MA, USA
Abstract :
This brief presents a framework for input-optimal navigation under state constraints for vehicles exhibiting stochastic behavior. The resulting stochastic control law is implementable in real time on vehicles with limited computational power. When control actuation is unconstrained, then convergence with probability 1 can be theoretically guaranteed. When inputs are bounded, the probability of convergence is quantifiable. The experimental implementation on a 5.5 g, 720-MHz processor that controls a bioinspired crawling robot with stochastic dynamics, corroborates the design framework.
Keywords :
control system synthesis; mobile robots; path planning; probability; stochastic systems; 720-MHz processor; bioinspired crawling robot; control design framework; convergence probability; frequency 720 MHz; input-optimal vehicle navigation; robot navigation; stochastic control law; stochastic dynamics; Convergence; Navigation; Optimal control; Real-time systems; Robots; Stochastic processes; Vehicles; Path integrals; robot navigation; stochastic control; stochastic control.;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2015.2389275
