Hardware Design of Low Cost Myoelectric Controlled Prosthetic Hand For Engineering Laboratory
Yıl 2022,
Cilt: 12 Sayı: 2, 715 - 725, 01.06.2022
Mehmet Serdar Çelik
,
Cengiz Tepe
,
İlyas Eminoğlu
Öz
This study presents a low cost, two-channel, on-off type, constant speed myo-electric controlled prosthetic hand project as an educational tool for Biomedical/Control/Mechatronic Engineering. Surface Electromyogram (sEMG) signals were recorded from the muscles of flexor carpi ulnaris and extensor digitorium on the forearm. Signal conditioning of these signals is performed in the analog stages of the system, before passing it on to a microcontroller for further filtering and implementation of control. The control logic is simplified to represent the muscles as being active or inactive, resulting in a very simple on/off control based on the two signals. The on/off control signals are used to drive a myo-electric controlled prosthetic hand-powered by a hobby RC servo motor. A printed circuit board has been designed for the analog stages of the system, and a simple Arduino Microcontroller is used for the digital stages. Other commercial off-the-shelf components were used to keep the cost of the hardware and the software components as low as possible. This project was used as a teaching aid for the final year undergraduate students to demonstrate the use of simple myo-electric signal processing and control techniques.
Proje Numarası
PYO.MUH.1906.10.001-BAL-LAB
Kaynakça
- Akirmak OO, Tatar C, Altun ZG, Mishchenko Y, 2017. Design of an Accessible, Powered Myoelectrically Controlled Hand Prosthesis. Tem Journal-Technology Educatıon Management Informatıcs, 6(3): 479-483.
- Akgün G, Alveroğlu A, Kaplanoğlu E, 2013. Sonlu Durum Makine Yöntemi ile Protez El Kontrolü. Otomatik Kontrol Ulusal Toplantısı (TOK), 26-28 Eylül, Malatya, Türkiye.
- Asghari OM, Hu H, 2007. Myoelectric Control Systems - A Survey. Biomedical Signal Processing and Control. 2(4): 275-294.
- Cinal Ş, Çelik MS, Şahin İ, Tepe C, Eminoğlu İ, 2016. "Design of Prosthetic Hand Simulator. Medical Technologies National Congress (TIPTEKNO), Antalya, October 27-29, pp:241-244.
- Çelik MS, Tepe C, Baş H, Eminoğlu İ, 2016. Multifunctional Hand Prosthesis Setup Design. Medical Technologies National Congress (TIPTEKNO), Antalya, October 27-29, pp:245-248.
- Hubbard S, Heim W, 2004. Powered Upper Limb Prosthetic Practice In Paediatrics. Powered Upper Limb Prostheses, Muzumdar A (Ed.), pp:85-115, Springer.
- Jamal MZ, 2012. Signal Acquisition Using Surface EMG And Circuit Design Considerations For Robotic Prosthesis. Computational Intelligence In Electromyography Analysis - A Perspective on Current Applications and Future Challenges, Naik GK (Ed.), London.
- Jamaluddin FN, Ahmad SA Noor SBM, Hasan WZW, 2014. Flexible Bio-Signals Channels Acquisition System for ECG and EMG Application. IEEE Student Conference on Research and Development, Penang, December 16-17, pp:1-4.
- Kobayashi H, Sasakura T, Ishidzuka M, 2010. Development of an EMG Acquisition System of Universal Bio-Signal Interface for High-Quality Life. The SICE Annual Conference, Taipei, August 18-21, pp:539-542.
- Moura I, Ozelim L, Soares F, 2014. Low Cost Surface Electromyographic Signal Amplifier Based on Arduino Microcontroller. International Journal of Electrical and Information Engineering, 8(2):303 - 307.
- Özdemir AE Kayhan G, Usta H, Gharooni SC, Tokhi MO, Eminoǧlu I, 2010. A Real-Time EMG Driven Virtual Prosthesis Hand. International Conference on Climbing and Walking Robots and the Support Technologies for Mobile Machines (CLAWAR), Istanbul, September 9-11, pp:250-257.
- Pan T-T, Ping-Lin F, Chiang HK, Rong-Seng C, Jiang J-A, 2004. Mechatronic Experiments Course Design: A Myoelectric Controlled Partial-Hand Prosthesis Project. IEEE Transactions on Education, 47(3):348-355.
- Park J, John Park A, Mackay S, 2003. Practical Data Acquisition For İnstrumentation And Control Systems, Newnes.
- Quanser, 2017. QNET Myolelectric Datasheet. https://www.quanser.com/wp-content/ uploads/2017/03/QNET-Myoelectric-Datasheet-v1.0.pdf (Date of access: 3 March 2022)
- Rahman KKM, Nasor M, 2015. Multipurpose Low Cost Bio-Daq System For Real Time Biomedical Applications. International Conference on Information and Communication Technology Research (ICTRC), Birmingham, May 17-19, pp:286-289.
Seguna C, Von Brockdorff A, Scerri J, Scicluna K, 2018. Development of a New Low-Cost EMG Monitoring System for the Classification of Finger Movement. New Generation of Circuits and Systems Conference (NGCAS), Valletta, November 20-23, pp:126-129.
- Sedra AS, Smith KC, 1998. Microelectronic Circuits, Oxford University Press, New York.
- Sharmila K, Sarath TV, Ramachandran KI, 2016. EMG Controlled Low Cost Prosthetic Arm. IEEE Distributed Computing, VLSI, Electrical Circuits and Robotics (DISCOVER), Mangalore, August 13-14, pp:169-172.
- Suzuki R, Okazaki S, Kuniya M, Muraoka Y, 2017. Low-Cost 2-Channel Electromyography Telemeter using a Personal Computer Microphone Port. International Journal of Physical Medicine&Rehabilitation, 5(386), doi:10.4172/2329-9096.1000386
- Taşar B, Kaya T, Gülten A, 2014. EMG Tabanlı El Hareketinin Analizi Aracılığı İle Robot El Simülatörünün Kontrolü. IEEE Signal Processing and Communications Applications Conference (SIU), Trabzon, April 23-25, pp:389-392.
- Tepe C, Eminoğlu İ, 2014. Düşük Maliyetli Mayo-Elektrik Denetimli Protez El Projesi: Kontrol Mühendisliği Laboratuvarı Deney Düzeneği Tasarımı. Otomatik Kontrol Ulusal Toplantısı (TOK), 11-13 Eylül 2014, Kocaeli.
- Zecca M, Micera S, Carrozza MC, Dario P, 2002. Control of Multifunctional Prosthetic Hands by Processing the Electromyographic Signal. Critical Reviews In Biomedical Engineering, 30(4-6):459–485.
Yıl 2022,
Cilt: 12 Sayı: 2, 715 - 725, 01.06.2022
Mehmet Serdar Çelik
,
Cengiz Tepe
,
İlyas Eminoğlu
Destekleyen Kurum
Ondokuz Mayıs Üniversitesi
Proje Numarası
PYO.MUH.1906.10.001-BAL-LAB
Kaynakça
- Akirmak OO, Tatar C, Altun ZG, Mishchenko Y, 2017. Design of an Accessible, Powered Myoelectrically Controlled Hand Prosthesis. Tem Journal-Technology Educatıon Management Informatıcs, 6(3): 479-483.
- Akgün G, Alveroğlu A, Kaplanoğlu E, 2013. Sonlu Durum Makine Yöntemi ile Protez El Kontrolü. Otomatik Kontrol Ulusal Toplantısı (TOK), 26-28 Eylül, Malatya, Türkiye.
- Asghari OM, Hu H, 2007. Myoelectric Control Systems - A Survey. Biomedical Signal Processing and Control. 2(4): 275-294.
- Cinal Ş, Çelik MS, Şahin İ, Tepe C, Eminoğlu İ, 2016. "Design of Prosthetic Hand Simulator. Medical Technologies National Congress (TIPTEKNO), Antalya, October 27-29, pp:241-244.
- Çelik MS, Tepe C, Baş H, Eminoğlu İ, 2016. Multifunctional Hand Prosthesis Setup Design. Medical Technologies National Congress (TIPTEKNO), Antalya, October 27-29, pp:245-248.
- Hubbard S, Heim W, 2004. Powered Upper Limb Prosthetic Practice In Paediatrics. Powered Upper Limb Prostheses, Muzumdar A (Ed.), pp:85-115, Springer.
- Jamal MZ, 2012. Signal Acquisition Using Surface EMG And Circuit Design Considerations For Robotic Prosthesis. Computational Intelligence In Electromyography Analysis - A Perspective on Current Applications and Future Challenges, Naik GK (Ed.), London.
- Jamaluddin FN, Ahmad SA Noor SBM, Hasan WZW, 2014. Flexible Bio-Signals Channels Acquisition System for ECG and EMG Application. IEEE Student Conference on Research and Development, Penang, December 16-17, pp:1-4.
- Kobayashi H, Sasakura T, Ishidzuka M, 2010. Development of an EMG Acquisition System of Universal Bio-Signal Interface for High-Quality Life. The SICE Annual Conference, Taipei, August 18-21, pp:539-542.
- Moura I, Ozelim L, Soares F, 2014. Low Cost Surface Electromyographic Signal Amplifier Based on Arduino Microcontroller. International Journal of Electrical and Information Engineering, 8(2):303 - 307.
- Özdemir AE Kayhan G, Usta H, Gharooni SC, Tokhi MO, Eminoǧlu I, 2010. A Real-Time EMG Driven Virtual Prosthesis Hand. International Conference on Climbing and Walking Robots and the Support Technologies for Mobile Machines (CLAWAR), Istanbul, September 9-11, pp:250-257.
- Pan T-T, Ping-Lin F, Chiang HK, Rong-Seng C, Jiang J-A, 2004. Mechatronic Experiments Course Design: A Myoelectric Controlled Partial-Hand Prosthesis Project. IEEE Transactions on Education, 47(3):348-355.
- Park J, John Park A, Mackay S, 2003. Practical Data Acquisition For İnstrumentation And Control Systems, Newnes.
- Quanser, 2017. QNET Myolelectric Datasheet. https://www.quanser.com/wp-content/ uploads/2017/03/QNET-Myoelectric-Datasheet-v1.0.pdf (Date of access: 3 March 2022)
- Rahman KKM, Nasor M, 2015. Multipurpose Low Cost Bio-Daq System For Real Time Biomedical Applications. International Conference on Information and Communication Technology Research (ICTRC), Birmingham, May 17-19, pp:286-289.
Seguna C, Von Brockdorff A, Scerri J, Scicluna K, 2018. Development of a New Low-Cost EMG Monitoring System for the Classification of Finger Movement. New Generation of Circuits and Systems Conference (NGCAS), Valletta, November 20-23, pp:126-129.
- Sedra AS, Smith KC, 1998. Microelectronic Circuits, Oxford University Press, New York.
- Sharmila K, Sarath TV, Ramachandran KI, 2016. EMG Controlled Low Cost Prosthetic Arm. IEEE Distributed Computing, VLSI, Electrical Circuits and Robotics (DISCOVER), Mangalore, August 13-14, pp:169-172.
- Suzuki R, Okazaki S, Kuniya M, Muraoka Y, 2017. Low-Cost 2-Channel Electromyography Telemeter using a Personal Computer Microphone Port. International Journal of Physical Medicine&Rehabilitation, 5(386), doi:10.4172/2329-9096.1000386
- Taşar B, Kaya T, Gülten A, 2014. EMG Tabanlı El Hareketinin Analizi Aracılığı İle Robot El Simülatörünün Kontrolü. IEEE Signal Processing and Communications Applications Conference (SIU), Trabzon, April 23-25, pp:389-392.
- Tepe C, Eminoğlu İ, 2014. Düşük Maliyetli Mayo-Elektrik Denetimli Protez El Projesi: Kontrol Mühendisliği Laboratuvarı Deney Düzeneği Tasarımı. Otomatik Kontrol Ulusal Toplantısı (TOK), 11-13 Eylül 2014, Kocaeli.
- Zecca M, Micera S, Carrozza MC, Dario P, 2002. Control of Multifunctional Prosthetic Hands by Processing the Electromyographic Signal. Critical Reviews In Biomedical Engineering, 30(4-6):459–485.