Group Formation and Communication of Multitasking Multi-Robots for Smart City Cleaning Process

2022 4th International Conference on Advancements in Computing (ICAC) Pub Date : 2022-12-09 DOI:10.1109/ICAC57685.2022.10025255

D.M.S.J Dahanaka, Ayesha Wijesooriya, D.S.S Wickramasinghage, G.V.C Bhaggya, S. Harshanath, U. U. Samantha Rajapaksha

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引用次数: 1

Abstract

In this research paper, we focus on how multitasking robots team up to clean a city. In particular, we consider how they build their team, how they position themselves in their positions, how they work with teams, how they face obstacles along the way, and how to move groups out of control in an emergency. We use a leader-follower strategy here, and we are also tasked with selecting a leader for each group. The leader finds the shortest route to avoid the obstacle by considering the obstacle details such as obstacle location, obstacle width, and destination. The leader decides the best way for the team to go. If the leader wants to change the group, it gives the message to the relevant member. In the event of meeting an obstacle, it changes its shape and moves. A Robot Operating System (ROS) framework was created to perform real-time experiments with ROS-capable mobile robotic TURTLEBOTs to evaluate this control strategy. Simulations performed on a mobile robot team demonstrate the effectiveness of the proposed approach.

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面向智慧城市清洁过程的多任务多机器人组团与通信

在这篇研究论文中，我们专注于多任务机器人如何组队清洁城市。特别是，我们考虑他们如何建立团队，如何在自己的位置上定位，如何与团队合作，如何在前进的道路上面对障碍，以及如何在紧急情况下使团队失去控制。我们在这里使用领导者-追随者策略，我们还负责为每个小组选择一名领导者。领导者通过考虑障碍物的位置、宽度和目的地等障碍物细节，找到避开障碍物的最短路线。领导决定团队的最佳路线。如果领导想要更改组，它会将消息发送给相关成员。如果遇到障碍物，它会改变形状并移动。创建了机器人操作系统(ROS)框架，并与具有ROS功能的移动机器人TURTLEBOTs进行实时实验，以评估该控制策略。在移动机器人团队上进行的仿真验证了所提出方法的有效性。

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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2022 4th International Conference on Advancements in Computing (ICAC)

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