为残疾人设计的有效手势控制智能轮椅

2022 3rd International Conference on Smart Electronics and Communication (ICOSEC) Pub Date : 2022-10-20 DOI:10.1109/ICOSEC54921.2022.9952008

R. Niranjana, M. Ibrahim, R. Ajay, V. B. Arunnachalam, R. Krishnan, K. Narayanan

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引用次数: 6

摘要

这里提出的工作是使用MEMS加速度计和柔性传感器来创建残疾人可以访问的轮椅控制。这个控制可以被那些不能移动他们的手或识别手势的人使用。在短时间内，轮椅技术取得了显著进步。尽管有了这些进步，四肢瘫痪的人仍然需要另一个人的帮助才能在轮椅上导航。这台轮椅由简单的手部动作控制。传感器检测这些运动，PIC微控制器将其转换为数字语言，系统将其识别为所需的运动。还有一个即插即用单元和一个四键键盘，供各种身体能力的人使用。Proteus是一个仿真工具包，在整个设计过程中使用，以提高质量和灵活性。

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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Effectual Gesture Controlled Smart Wheelchair for the Incapacitated

The work proposed here is the usage of MEMS accelerometers and flex sensors to create a wheelchair control that is accessible to individuals with disabilities. This control can be used by someone who can’t move their hands to move them or recognize hand signals. In a short period of time, wheelchair technology has advanced significantly. Despite all of these advancements, quadriplegics still require assistance from a second person to navigate obstacles in their wheelchairs. This wheelchair is controlled by simple hand movements. The sensors detect these movements, which the PIC microcontroller converts to digital language, which the system recognizes as a required movement. There’s also a plug-and-play unit and a four-button keypad for persons of various physical abilities. Proteus, a package of simulation tools, is utilized throughout the design process to improve quality and flexibility.

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来源期刊

2022 3rd International Conference on Smart Electronics and Communication (ICOSEC)

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