手輪馬達驅動式電動輪椅之控制系統的研發

Yung-Chia Chen; 陳勇嘉

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/48367

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	周瑞仁
dc.contributor.author	Yung-Chia Chen	en
dc.contributor.author	陳勇嘉	zh_TW
dc.date.accessioned	2021-06-15T06:54:07Z	-
dc.date.available	2013-02-16
dc.date.copyright	2011-02-20
dc.date.issued	2011
dc.date.submitted	2011-02-11
dc.identifier.citation	Attali, X. and F. Pelisse. 2001. Looking back on the evolution of electric wheelchairs. Journal of Medical Engineering and Physics. 23(10): 735-743. Bureau of Standards, Merology & Inspection, R.O.C. 2009. CNS14964 Wheelchair - Guidelines for the application, Part 6: Determination of maximum speed, acceleration and deceleration of electric wheelchairs. Taipei, Taiwan: : Bureau of Standards, Merology & Inspection, R.O.C. Chu, J., I. Moon, G. Choi, J. Ryu, M. Mun, K. Orthopedics, R. Center and S. Incheon. 2004. Design of BLDC motor controller for electric power wheelchair. IEEE International Conference on Mechatronics, Pusan, Korea. 3-5 June. pp.92-7e. Cooper, R. 1995. Intelligent control of power wheelchairs. IEEE Engineering in Medicine and Biology Magazine. 14(4): 423-431. Cooper, R., D. Ding, A. Kwarciak, S. Guo, D. Spaeth, E. Zipfel, A. Kelleher and M. Boninger. 2006. Wheelchair engineering. In 'Wiley Encyclopedia of Biomedical Engineering'. M. Akay: pp. 1-15. John Wiley & Sons, Inc. Ding, D. and R. Cooper. 2005. Electric powered wheelchairs. IEEE Control Systems Magazine. 25(2): 22-34. Gerller, V. 1953. Wheel chair adapted for optional operation by power or manually. U.S. Patent No. 2635703. Hogan, N. 1984. An organizing principle for a class of voluntary movements. Journal of Neuroscience. 4(11): 2745-2754. Jeon, J. and Y. Ha. 2002. A generalized approach for the acceleration and deceleration of industrial robots and CNC machine tools. IEEE Transactions on Industrial Electronics. 47(1): 133-139. Lee, Z. H. 2007. Design and manufacturing of rim motors on electric wheelchair. Master thesis. Taipei: National Taiwan University Department of Mechanical Engineering. (In Chinese) Liu, Y., Z. Zhu and D. Howe. 2005. Direct torque control of brushless DC drives with reduced torque ripple. IEEE Transactions on Industry Applications. 41(2): 599-608. Park, S., H. Park, M. Lee and F. Harashima. 2002. A new approach for minimum-torque-ripple maximum-efficiency control of BLDC motor. IEEE Transactions on Industrial Electronics. 47(1): 109-114. Pillay, P. and R. Krishnan. 2002. Modeling, simulation, and analysis of permanent-magnet motor drives. Part I. The permanent-magnet synchronous motor drive. IEEE Transactions on Industry Applications. 25(2): 265-273. Pillay, P. and R. Krishnan. 2002. Modeling, simulation, and analysis of permanent-magnet motor drives. Part II. The brushless DC motor drive. IEEE Transactions on Industry Applications. 25(2): 274-279. Seki, H. and S. Tadakuma. 2005. Velocity pattern generation for power assisted wheelchair based on jerk and acceleration limitation. IEEE Annual Conference on Industral Electronics Society 31st, Raleigh, North Carolina, USA. 6-10 Nov. pp. 457-462. Shadmehr, R. and S. Wise. 2005. Planning to reach or point I: smoothness in visual coordinates. In 'The computational neurobiology of reaching and pointing: a foundation for motor learning': pp. 341-352. Cambridge: MIT Press. Shim, H., J. Hong, S. Chung and S. Hong. 2001. A powered wheelchair controller based on master-slave control architecture. IEEE International Symposium on Industrial Electronics, Pusan, Korea. 12-16 June. 3: 1553-1556. Tsai, F. C. 2010. The optimal design and application of rim motors for a novel powered wheelchair. Master thesis. Taipei: National Taiwan University Department of Mechanical Engineering. (In Chinese) Tu, K. H. 2010. Product design, manufacture and verification of controllers for a wheelchair powered by rim motors. Master thesis. Taipei: National Taiwan University Department of Mechanical Engineering. (In Chinese) Yang, Y., W. Huang and C. Lai. 2007. Optimal design of rim motor for electric powered wheelchair. IET Electric Power Applications. 1(5): 825-832. Yang, Y. and Z. Lee. 2009. A novel wheelchair powered by dual rim motors. IEEE International Electric Machines and Drives Conference, Miami, Florida, USA. 3-6 May. pp. 1284-1289. APEM. 2008. APEM 9000 Series - Contactless Joystick. Available at: http://www.apemswitches.be/files/apem/brochures/joystick-finger-operated-switch-9000-ENG.pdf. Accessed 10 October 2009. Atmel. 2006. AVR447: Sinusoidal driving of three-phase permanent magnet motor using atmega48/88/168. Available at: http://www.atmel.com/dyn/resources/prod_documents/doc8010.pdf. Accessed 14 November 2010. Rohm. 2009. Serial-in / parallel-out driver (2-input drivers) datasheet for bu2098f, bu2090f, and bu2090fs. Available at: http://www.rohm.com/products/databook/analogi/pdf/bu2098f-e.pdf. Accessed 14 November 2010.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/48367	-
dc.description.abstract	本研究開發一用於手輪馬達驅動電動輪椅之控制系統，目標係使此輪椅上配備之手輪馬達在速度調控或追蹤的動態響應達到上升時間短、超調量小，並具有最小顫動之特性。此控制系統採用主僕式，上、下控制器之架構，本研究中研發的項目包含人機介面、搖桿訊號處理、輪椅運動控制、手輪馬達速度控制、以及通訊協定等。透過上控制器之差速演算法，計算出左右輪之期待轉速；下控制器以此為參考轉速，進行手輪馬達之閉迴路速度控制。本研究基於比例積分微分速度控制，於下控制器加入參考輸入前饋、事件觸發取樣、與切換模式策略等，重點在探討手輪馬達應用不同速度閉迴路控制架構，在馬達空載及輪椅路測等情況下之性能。事件觸發取樣的概念係以霍爾感測器訊號之變化作為控制器運算之觸發條件，取代以固定時間間隔取樣的方式。運用切換控制模式的策略，可針對馬達啟動、追蹤速度、與剎車等三個模式設計不同的控制方法。實驗結果顯示，以本研究所提出的控制器能有效降低最大超越量及速度波動，同時維持可接受的上升時間，尤其在低速的調控或追蹤。運動控制方面，利用最小顫動路徑的最佳化概念，求得一條具有舒適性之物理意義的速度曲線，未來可建置於上控制器之速度產生器中。參照中華民國國家標準之輪椅指導綱要第六節中之測試指標，應用本研究提出之控制系統，手輪馬達驅動式電動輪椅可以達到與市售產品相當之速度與加速度性能表現，並符合標準中規範之測試指標項目。	zh_TW
dc.description.abstract	This study is to design a control system for the electric wheelchair powered by rim motors (rim motor wheelchair). The goal of this study is to achieve the dynamic responses with short rise time, small overshoot and minimum-jerk in both regulation and tracking control of rim motors. The control system is based on master-slave architecture which consists of upper and lower controllers. Human-machine interface, joystick signal processing, wheelchair motion control, motor speed control, and the communication protocol are developed in this study. The desired speed of each motor is computed according to a steering algorithm in the upper controller, and the closed-loop speed control of motor is performed in lower controllers. We investigate speed performance of rim motors in open-loop control scheme and develop a closed-loop speed controller for the rim motors. The controllers are based on PID (proportional integral derivative) control. Besides, the improvements of control performance can be achieved by employing some techniques such as input feed forward, event-based sampling, and switching control strategy. The concept of event-based control used in the system is sensor-triggered rather than time-triggered, where the sensor triggering signal is from Hall sensors. And the purpose of switching control strategy is to apply an effective control method according to the operating conditions such as soft-start mode, tracking mode, and braking mode. The study focuses on the comparisons of performance between the developed one and the existed, under different testing conditions. The experimental results show that by using the speed controller developed in this study, magnitude of both overshoot and speed fluctuations are suppressed effectively and still maintained acceptable rise time. Furthermore, we construct a minimum-jerk velocity profile to provide a smooth reference velocity for wheelchair. This profile can be implemented in future systems. Finally, we follow the test items stated in CNS14964-6 to evaluate the performance of velocity and acceleration. Experimental result shows that based on the developed control system the rim motor wheelchair is competitive to another commercial electric wheelchair in the aspect of velocity and acceleration. Meanwhile, the items listed in the standard are fulfilled.	en
dc.description.provenance	Made available in DSpace on 2021-06-15T06:54:07Z (GMT). No. of bitstreams: 1 ntu-100-R97631020-1.pdf: 2495025 bytes, checksum: 9a6c30ba31aaa4e48753a27b6bebcbf1 (MD5) Previous issue date: 2011	en
dc.description.tableofcontents	口試委員審定書 i 誌謝 ii 摘要 iii Abstract v Table of Contents vii List of Figures ix List of Tables xiii Chapter 1 Introduction 1 Chapter 2 Literature Review 4 2.1 Electric Wheelchair Control System 4 2.2 Rim Motor Wheelchair 7 Chapter 3 Materials and Methods 9 3.1 Electric Wheelchair Powered by Rim Motors 9 3.1.1 System Overview 10 3.1.2 Rim Motor 11 3.1.3 Human Machine Interface 17 3.2 Control System Specifications 18 3.3 Control System Structure 21 3.4 Motion Control of Wheelchair 22 3.4.1 Kinematic Model of Wheelchair 22 3.4.2 Differential Drive 23 3.4.3 Joystick Signal Processing 24 3.4.4 Steering Algorithm 26 3.4.5 Velocity Profile 27 3.5 Speed Controller of Rim Motors 30 3.5.1 Driving of Rim Motor 30 3.5.2 PID Controller 33 3.5.3 Switching Control Strategy 35 3.5.4 Event-Based Control 37 3.5.5 Simulation Platform 39 3.6 Software Design 39 3.6.1 Development Platform 40 3.6.2 File Structure 40 3.6.3 Human Machine Interface 42 3.6.4 Communication Protocol 43 3.7 Measurement Device 44 Chapter 4 Results and Discussion 46 4.1 Open-loop Speed Control of Rim Motors without Load 47 4.2 Closed-loop Speed Control of Rim Motors without Load 56 4.2.1 Controller Parameters 56 4.2.2 Step Response 60 4.2.3 Speed Tracking 63 4.3 Wheelchair Road Test 68 4.3.1 Step Response on the Flat 68 4.3.2 Step Response on the Slope 75 4.3.3 Speed Tracking on the Flat 78 Chapter 5 Conclusions 82 References 84
dc.language.iso	en
dc.subject	最小顫動速度曲線	zh_TW
dc.subject	手輪馬達式電動輪椅	zh_TW
dc.subject	速度閉迴路控制	zh_TW
dc.subject	比例積分微分控制	zh_TW
dc.subject	前饋迴路	zh_TW
dc.subject	事件觸發控制	zh_TW
dc.subject	proportional integral derivative (PID) control	en
dc.subject	minimum-jerk velocity profile	en
dc.subject	event-based control	en
dc.subject	feed forward	en
dc.subject	Electric wheelchair powered by rim motors	en
dc.subject	closed-loop speed control	en
dc.title	手輪馬達驅動式電動輪椅之控制系統的研發	zh_TW
dc.title	Development of the Control System for the Electric Wheelchair Powered by Rim Motors	en
dc.type	Thesis
dc.date.schoolyear	99-1
dc.description.degree	碩士
dc.contributor.oralexamcommittee	黃緒哲,陽毅平,鄭宗記
dc.subject.keyword	手輪馬達式電動輪椅,速度閉迴路控制,比例積分微分控制,前饋迴路,事件觸發控制,最小顫動速度曲線,	zh_TW
dc.subject.keyword	Electric wheelchair powered by rim motors,closed-loop speed control,proportional integral derivative (PID) control,feed forward,event-based control,minimum-jerk velocity profile,	en
dc.relation.page	87
dc.rights.note	有償授權
dc.date.accepted	2011-02-11
dc.contributor.author-college	生物資源暨農學院	zh_TW
dc.contributor.author-dept	生物產業機電工程學研究所	zh_TW
顯示於系所單位：	生物機電工程學系

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