TIME-OPTIMAL TRAJECTORIES FOR MOBILE ROBOTS WITH 2 INDEPENDENTLY DRIVEN WHEELS

被引:56
作者
REISTER, DB
PIN, FG
机构
[1] Center for Engineering Systems Advanced Research, Oak Ridge National Laboratory, Oak Ridge
关键词
D O I
10.1177/027836499401300103
中图分类号
TP24 [机器人技术];
学科分类号
080202 ; 1405 ;
摘要
This article addresses the problem of time-optimal motions for a mobile platform in a planar environment. The platform has two nonsteerable, independently driven wheels. The overall mission of the robot is expressed in terms of a sequence of via points at which the platform must be at rest in a given configuration (position and orientation). The objective is to plan time-optimal trajectories between these configurations, assuming an unobstructed environment. Using Pontryagin's maximum principle (PMP), we formally demonstrate that all time-optimal motions of the platform for this problem occur for bang-bang controls on the wheels (at each instant, the acceleration on each wheel is at either its upper or its lower limit). The PMP, however provides only the conditions necessary for time optimality. To find the time-optimal robot trajectories we first parameterize the bang-bang trajectories using the switch times on the wheels (the times at which the wheel accelerations change sign). With this param eterization, we can fully search the robot trajectory space and find the switch times that will produce particular paths to a desired final configuration of the platform. We show numerically that robot trajectories with three switch times (two on one wheel and one on the other) can reach any position, while trajectories with four switch times can reach any configuration. By numerical comparison with other trajectories involving similar or greater numbers of switch times, we then identify the sets of time-optimal trajectories. These are uniquely defined using ranges of the parameters and consist of subsets of trajectories with three switch times Vbr the problem when the final orientation of the robot is not specified) or four switch limes (when a full final configuration is specified). We conclude with a description of the use of the method for trajectory planning for one of our robots and discuss some comparisons of sample time-optimal paths with minimum length paths.
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页码:38 / 54
页数:17
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