Energy efficient trajectory planning via Big Bang Big Crunch with obstacle avoidance

2016 6th IEEE International Conference on Control System, Computing and Engineering (ICCSCE) Pub Date : 2016-01-01 DOI:10.1109/ICCSCE.2016.7893594

Sabri Yilmaz, Metin Gökaşan

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Abstract

Robot manipulation has been an interesting topic for researchers over decades. While researches are going on, different problems occurred. One of the most important problems is energy consumption. Because operation time of mobile robots is fully related with energy consumption. In this study two main problems are taken into consideration, first one is minimization of energy consumption and second one is obstacle avoidance. For this purpose, a simple robot manipulator with two degrees of freedom is chosen. The objective function is selected as a function of applied torque values at the joints, minimization of objective function, results in minimization of motor currents. The algorithm checks if there is a contact between the obstacles and the manipulator, while the algorithm is searching for the trajectory polynomial that requires minimum energy consumption. Finally, the algorithm finds the trajectory polynomial that contains no contact between the manipulator and the obstacles, also minimizes energy consumption.

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基于大爆炸大碰撞的避障节能轨迹规划

几十年来，机器人操作一直是研究人员感兴趣的话题。在研究的过程中，出现了不同的问题。最重要的问题之一是能源消耗。因为移动机器人的操作时间与能耗是完全相关的。本研究主要考虑两个问题，一是能量消耗的最小化，二是避障问题。为此，选择了一种简单的二自由度机器人机械手。选择目标函数作为关节处施加转矩值的函数，目标函数的最小化导致电机电流的最小化。该算法检查障碍物与机械手之间是否存在接触，同时搜索能量消耗最小的轨迹多项式。最后，该算法找到不包含机械臂与障碍物接触的轨迹多项式，同时使能量消耗最小。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 6th IEEE International Conference on Control System, Computing and Engineering (ICCSCE)

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