2流形上的最优扫描路径:一类由路径结构定义的优化问题

Taejung Kim, S. Sarma
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引用次数: 44

摘要

我们介绍了一类路径优化问题,我们称之为“扫描路径问题”,在广泛的工程应用中发现。问题是如何在自由曲面上找到一组曲线段,使某一目标或成本在尊重特定约束的情况下得到优化。例如,在加工自由曲面时,我们必须确保在尊重给定几何公差的同时,在满足电机的速度和加速度限制的情况下,能够尽可能快地加工或扫过曲面。这类工程任务的基本要求是“访问”或“覆盖”整个区域,而传统的最优控制理论主要是点对点控制。标准的基于常微分方程的拉格朗日描述公式不适合表达或管理这类优化问题。我们使用欧拉描述方法引入了一个框架,它导致偏微分方程。我们证明,这个公式很自然地表达了基本要求。在定义问题之后,我们将展示两个透视图之间的联系。利用这一推理,我们得到了问题最优性的必要条件。最后,我们讨论了解决这个问题的计算方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimal sweeping paths on a 2-manifold: a new class of optimization problems defined by path structures
We introduce a class of path optimization problems, which we call "sweeping path problems," found in a wide range of engineering applications. The question is how to find a family of curve segments on a free-form surface that optimizes a certain objective or a cost while respecting specified constraints. For example, when machining a free-form surface, we must ensure that the surface can be machined or swept as quickly as possible while respecting a given geometric tolerance, and while satisfying the speed and the acceleration limits of the motors. The basic requirement of engineering tasks of this type is to "visit" or "cover" an entire area, whereas conventional optimal control theory is largely about point-to-point control. Standard ordinary differential equation-based Lagrangian description formulations are not suitable for expressing or managing optimization problems of this type. We introduce a framework using an Eulerian description method, which leads to partial differential equations. We show that the basic requirement is expressed naturally in this formulation. After defining the problem, we show the connection between the two perspectives. Using this reasoning, we develop the necessary conditions for the optimality of the problem. Finally, we discuss computational approaches for solving the problem.
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