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Optimal Trajectories of Open-Chain Robot Systems: A New Solution Procedure Without Lagrange Multipliers

Sunil K. Agrawal, Pana Claewplodtook, Brian C. Fabien

发表年份
1998
引用次数
4

摘要

For an n d.o.f. robot system, optimal trajectories using Lagrange multipliers are characterized by 4n first-order nonlinear differential equations with 4n boundary conditions at the two end time. Numerical solution of such two-point boundary value problems with shooting techniques is hard since Lagrange multipliers can not be guessed. In this paper, a new procedure is proposed where the dynamic equations are embedded into the cost functional. It is shown that the optimal solution satisfies n fourth-order differential equations. Due to absence of Lagrange multipliers, the two-point boundary-value problem can be solved efficiently and accurately using classical weighted residual methods.

关键词

Lagrange multiplierMathematicsConstraint algorithmBoundary value problemNonlinear systemShooting methodApplied mathematicsPoint (geometry)Mathematical optimizationMathematical analysis

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