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本文引用的文献

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Real-time model based electrical powered wheelchair control.实时模型基电动轮椅控制。
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A perspective on intelligent devices and environments in medical rehabilitation.医学康复中智能设备与环境的展望。
Med Eng Phys. 2008 Dec;30(10):1387-98. doi: 10.1016/j.medengphy.2008.09.003. Epub 2008 Nov 6.
3
Evaluation of a stair-climbing power wheelchair in 25 people with tetraplegia.对25名四肢瘫痪患者使用的爬楼梯电动轮椅的评估。
Arch Phys Med Rehabil. 2008 Oct;89(10):1958-64. doi: 10.1016/j.apmr.2008.03.008.
4
Young people's experiences using electric powered indoor - outdoor wheelchairs (EPIOCs): potential for enhancing users' development?年轻人使用电动室内外轮椅(EPIOCs)的体验:促进用户发展的潜力?
Disabil Rehabil. 2007 Aug 30;29(16):1281-94. doi: 10.1080/09638280600964406.
5
Older adults' use of, and satisfaction with, electric powered indoor/outdoor wheelchairs.老年人对电动室内/室外轮椅的使用情况及满意度。
Age Ageing. 2007 Jul;36(4):431-5. doi: 10.1093/ageing/afm034. Epub 2007 Mar 24.
6
Perceptions of power mobility use and safety within residential facilities.住宅设施内电动代步工具使用及安全性的认知
Can J Occup Ther. 2005 Jun;72(3):142-52. doi: 10.1177/000841740507200302.
7
Study of the Independence IBOT 3000 Mobility System: an innovative power mobility device, during use in community environments.独立IBOT 3000移动系统的研究:一种创新的动力移动设备,在社区环境中的使用情况。
Arch Phys Med Rehabil. 2004 Dec;85(12):2002-10. doi: 10.1016/j.apmr.2004.04.044.
8
Preliminary assessment of a prototype advanced mobility device in the work environment of veterans with spinal cord injury.在脊髓损伤退伍军人的工作环境中对一种先进移动设备原型进行的初步评估。
NeuroRehabilitation. 2004;19(2):161-70.
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Older people's use of powered wheelchairs for activity and participation.老年人使用电动轮椅进行活动和参与。
J Rehabil Med. 2004 Mar;36(2):70-7. doi: 10.1080/16501970310017432.
10
Technological advances in powered wheelchairs.电动轮椅的技术进步。
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用于个人移动和操作设备二代机器人轮椅的先进移动基座的开发。

Development of an advanced mobile base for personal mobility and manipulation appliance generation II robotic wheelchair.

作者信息

Wang Hongwu, Candiotti Jorge, Shino Motoki, Chung Cheng-Shiu, Grindle Garrett G, Ding Dan, Cooper Rory A

机构信息

University of Pittsburgh, Pittsburgh, PA 15206, USA.

出版信息

J Spinal Cord Med. 2013 Jul;36(4):333-46. doi: 10.1179/2045772313Y.0000000094.

DOI:10.1179/2045772313Y.0000000094
PMID:23820149
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3758530/
Abstract

BACKGROUND

This paper describes the development of a mobile base for the Personal Mobility and Manipulation Appliance Generation II (PerMMA Gen II robotic wheelchair), an obstacle-climbing wheelchair able to move in structured and unstructured environments, and to climb over curbs as high as 8 inches. The mechanical, electrical, and software systems of the mobile base are presented in detail, and similar devices such as the iBOT mobility system, TopChair, and 6X6 Explorer are described.

FINDINGS

The mobile base of PerMMA Gen II has two operating modes: "advanced driving mode" on flat and uneven terrain, and "automatic climbing mode" during stair climbing. The different operating modes are triggered either by local and dynamic conditions or by external commands from users. A step-climbing sequence, up to 0.2 m, is under development and to be evaluated via simulation. The mathematical model of the mobile base is introduced. A feedback and a feed-forward controller have been developed to maintain the posture of the passenger when driving over uneven surfaces or slopes. The effectiveness of the controller has been evaluated by simulation using the open dynamics engine tool.

CONCLUSION

Future work for PerMMA Gen II mobile base is implementation of the simulation and control on a real system and evaluation of the system via further experimental tests.

摘要

背景

本文描述了第二代个人移动与操作装置(PerMMA Gen II 机器人轮椅)移动底座的开发情况,这是一种能够在结构化和非结构化环境中移动并翻越高达8英寸路缘的障碍攀爬轮椅。详细介绍了移动底座的机械、电气和软件系统,并描述了诸如iBOT移动系统、TopChair和6X6 Explorer等类似设备。

研究结果

PerMMA Gen II的移动底座有两种操作模式:在平坦和不平坦地形上的“高级驾驶模式”,以及爬楼梯时的“自动攀爬模式”。不同的操作模式由局部和动态条件或用户的外部命令触发。正在开发一个高达0.2米的步阶攀爬序列,并将通过模拟进行评估。介绍了移动底座的数学模型。已开发出反馈和前馈控制器,以在驶过不平坦表面或斜坡时保持乘客的姿势。已使用开放动力学引擎工具通过模拟评估了控制器的有效性。

结论

PerMMA Gen II移动底座的未来工作是在实际系统上实现模拟和控制,并通过进一步的实验测试对系统进行评估。