离散与连续事件联合仿真的路径运动学

John Barry, Joseph Walsh
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引用次数: 0

摘要

离散事件和连续事件相结合的仿真为研究影响复杂机电系统生产率的诸多因素的影响提供了一种手段。本文描述了建立笛卡尔运动轴拾取和放置系统路径运动学的算法和方法,该系统必须避免不同的障碍物轮廓,并且在共享工作环境中有可能与其他拾取和放置系统发生路径交叉。当出现交叉时,一个拾取装置必须按照预先设定的优先级减速,等待另一个拾取装置撤离冲突区域。路径运动学代表正在开发的仿真的连续事件方面,而等待许可进行则代表仿真的离散事件方面。该研究的一个要求是运动学只包括恒定加速度和恒定速度的周期,并且任何减速都必须沿着原始路径持续。所提出的算法和方法简洁,适用于运动装置直角轴的轨迹控制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Path Kinematics for Combined Discrete and Continuous Event Simulation
Combined discrete and continuous event simulations provide a means of investigating the influence of the many factors affecting the productivity of complex electromechanical systems. This paper describes algorithms and methods for establishing the path kinematics of Cartesian axes of motion pick and place systems which must avoid varying obstacle profiles and which have the potential for path intersections with other pick and place systems within a shared working environment. Where intersections arise, one pick and place device must, in accordance with pre-established prioritization, decelerate and wait for another pick and place device to vacate the zone of conflict. Path kinematics represent a continuous event aspect of the simulation under development while awaiting permission to proceed represents a discrete event aspect of the simulation. A requirement of the research is that the kinematics only include periods of constant acceleration and constant velocity and that any deceleration must continue substantially along the original path. The algorithm and methods presented are concise and may be applicable and convenient to apply in the path control of Cartesian axis of motion devices.
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