自主真空扫地机器人的设计与优化

2019 IEEE International Conference on Robotics, Automation, Artificial-intelligence and Internet-of-Things (RAAICON) Pub Date : 2019-11-01 DOI:10.1109/RAAICON48939.2019.11

H.A.Shakhawat Hossen Prayash, Md. Ragib Shaharear, Md. Farhanul Islam, S. Islam, Noushad Hossain, Shamik Datta

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引用次数: 12

摘要

随着自动化的出现，机器人在工业制造、自动化零售、监控和安全领域得到了广泛的应用。与此同时，家庭自动化也引起了不同用户群体的兴趣。目前，工业生产的高价地板清洁机器人超出了第三世界国家普通家庭的购买能力。在本文中，我们介绍了一个倡议，以建立一个具有成本效益的地板清洁机器人。利用真空清洁系统，设计并实现了一种清洁机器人。本文描述了一个可操作的地板清洁机器人原型是如何与室内测绘和定位系统的技术一起开发的。同时使用树莓派和Arduino Mega作为机器人的处理器。该机器人可以自动绘制和清洁建筑物地板的特定区域。这项工作的一个新颖贡献是在树莓派上引入了GPS模块，这样机器人就可以意识到自己的位置并朝着正确的方向移动。只有废物处理和维护才需要人力协助。我们未来的目标是在原型机中增加一个可靠的自主废物处理功能。

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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Designing and Optimization of An Autonomous Vacuum Floor Cleaning Robot

With the advent of Automation, Robots are seeing widespread use in Industrial manufacturing, Automated retail, Surveillance and Security. In the same breath, home automation has also evoked interest among different user groups. Currently, high-priced floor cleaning robots produced industrially are beyond the purchasing capability of normal households in third world countries. In this paper, we have introduced an initiative to build a cost-effective floor cleaner robot. Using a vacuum cleaning system, we designed and implemented a cleaning robot. The paper has described how an operational floor cleaning robot prototype has been developed along with the techniques of the indoor mapping and positioning system. Raspberry Pi and Arduino Mega were used in unison as the processor of the robot. This robot can map and clean a certain area of a building floor autonomously. One novel contribution of this work is the introduction of a GPS module to the Raspberry Pi so that the robot can be aware of its location and move in the right direction. Human assistance is only required for waste disposal and maintenance. Our future goal is to add a reliable autonomous waste disposal feature in the prototype.

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来源期刊

2019 IEEE International Conference on Robotics, Automation, Artificial-intelligence and Internet-of-Things (RAAICON)

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