OPTIMUM ROBOT DESIGN BASED ON TASK SPECIFICATIONS USING EVOLUTIONARY TECHNIQUES AND KINEMATIC, DYNAMIC, AND STRUCTURAL CONSTRAINTS

机译：使用进化技术和运动，动态和结构约束的基于任务规范的最佳机器人设计

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In this paper, we discuss optimum robot design based on task specifications using evolutionary optimization approaches. The three evolutionary optimization approaches employed are Simple Genetic Algorithms, Genetic Algorithms with elitism, and Differential Evolution. These approaches were used for the optimum design of SCARA and articulated type manipulators. The objective function minimizes the torque required for the motion subject to deflection and physical constraints with the design variables being the physical characteristics of link (length and cross sectional area parameters). In this work, we experimented links with various cross sections. The main findings of this research are that the differential evolution converges quickly, requires significantly less number of iterations and achieves better results.

机译：在本文中，我们讨论了使用进化优化方法基于任务规范的最佳机器人设计。所采用的三种进化优化方法是简单遗传算法，具有精英主义的遗传算法和差分进化。这些方法用于SCARA和铰接型机械手的优化设计。目标函数将运动所需要的扭矩最小化，使其受到偏转和物理约束，其设计变量是连杆的物理特征（长度和横截面积参数）。在这项工作中，我们尝试了各种横截面的链接。这项研究的主要发现是，差分进化收敛迅速，需要的迭代次数大大减少，并且获得了更好的结果。

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来源
《2002 ASME International Mechanical Engineering Congress and Exposition , Nov 17-22, 2002, New Orleans, Louisiana》|2002年|p.825-832|共8页
会议地点 New Orleans LA(US);New Orleans LA(US)
作者
P. S. Shiakolas; D. Koladiya; J. Kebrle;
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作者单位

Mechanical and Aerospace Engineering Department, The University of Texas at Arlington Arlington, TX 76019-0023, USA;

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会议组织
原文格式 PDF
正文语种 eng
中图分类机械、仪表工业;
关键词
robot design; optimization; evolutionary techniques; dynamic; kinematics; structural;

机译：机器人设计；优化;进化技术；动态;运动学结构的;

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专利

1. Optimum robot design based on task specifications using evolutionary techniques and kinematic, dynamic, and structural constraints [J] . P. S. Shiakolas, D. Koladiya, J. Kebrle Inverse problems in engineering . 2002,第4期

机译：基于任务规范的最佳机器人设计，使用进化技术以及运动，动态和结构约束
2. Evolutionary bi-criteria optimum design of robots based on task specifications [J] . R. Saravanan, S. Ramabalan, N. Godwin Raja Ebenezer, The International Journal of Advanced Manufacturing Technology . 2009,第3a4期

机译：基于任务规范的机器人进化双准则优化设计
3. Evolutionary bi-criteria optimum design of robots based on task specifications [J] . R. Saravanan, S. Ramabalan, N. Godwin Raja Ebenezer, The International Journal of Advanced Manufacturing Technology . 2009,第3a4期

机译：基于任务规范的进化双准则机器人优化设计
4. optimum robot design based on task specifications using evolutionary techniques and kinematic, dynamic, and structural constraints [C] . P. S. Shiakolas, D. Koladiya, J. Kebrle ASME International Mechanical Engineering Congress and Exposition . 2002

机译：基于使用进化技术和运动，动态和结构约束的任务规范的最佳机器人设计
5. Pseudo robot based methods to analyze kinematics and dynamics of robotic systems from a design perspective. [D] . Deshpande, Ashish D. 2007

机译：基于伪机器人的方法，从设计角度分析机器人系统的运动学和动力学。
6. Design Optimization of Concentric Tube Robots Based on Task and Anatomical Constraints [O] . Chris Bedell, Jesse Lock, Andrew Gosline, -1

机译：同心管机器人基于对任务和解剖约束设计优化
7. 1 Optimum Robot Design Based on Task Specifications Using Evolutionary Techniques and Kinematic, Dynamic, and Structural Constraints [O] . P. S. Shiakolas, D. Koladiya, J. Kebrle 2015

机译：1基于任务规范的最佳机器人设计，使用进化技术和运动学，动态和结构约束

OPTIMUM ROBOT DESIGN BASED ON TASK SPECIFICATIONS USING EVOLUTIONARY TECHNIQUES AND KINEMATIC, DYNAMIC, AND STRUCTURAL CONSTRAINTS

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