Conference Proceedings

1. Wang YC, Kapellusch J, Li X, Yen S-C, Rahman MH, Liu CJ. (2019). Shoulder UE Rehabits: Ca-calibrate Three upper extremity functional questionnaires in outpatients with shoulder injuries. 96th American Congress of Rehabilitation Medicine (ACRM) Annual Conference, Chicago, IL, Nov 5-8, 2019
2. Myszewski, J., Reina, T., Bergendahl, E. Rahman, M.H. (2018). Development of a Classification Algorithm for Bicep flexion from Multi-Subject EEG Data, 2018 Biomedical Engineering Society Annual Meeting, October, 2018.
3. Scannell N., Rahman M.H., Ardehali M, Smith R, Obiedat Q. (2018). Occupational Therapy Assistance Using a Humanoid Robot. 2018 Biomedical Engineering Society Annual Meeting, Oct 17-20, 2018.
4. Reina, T., Myszewski, J., Bergendahl, E.; Rahman, M.H. (2018). Design and development of an ergonomic handheld muscle dynamometer, 2018 Biomedical Engineering Society Annual Meeting, Oct 17-20, 2018.
5. Assad-Uz-Zaman, M., Islam, R., and *Rahman, M.H. (2018). Upper-Extremity Rehabilitation with NAO Robot, 5th International Conference of Control, Dynamic Systems, and Robotics (CDSR’18), Niagara Falls, Canada, June 7 – 9, 2018.
6. Brahmi, B., Saad, M., Ochoa Luna, C., Rahman, H., and Di Gennaro, S. (2018). Adaptive Control of Upper Limb Exoskeleton Robot Based on a New Modified Function Approximation Technique (FAT). 2018 European Control Conference, pp. 608-613.
7. Brahmi, B., *Rahman, M.H., Saad, M., Brahmi A. (2018). Non-Singular Second Order Terminal Sliding Mode Incorporating Time Delay Estimation for Uncertain Exoskeleton, 5th International Conference on Mechanical, Industrial and Energy Engineering (ICMIEE 2018), December 23-24, Khulna, Bangladesh. [Keynote Speaker: MH Rahman]
8. Brahmi, B., Saad, M., Ochoa-Luna, C., Di Gennaro, S., *Rahman, M.H. A New Integral Second-Order Terminal Sliding Mode Control with Time Delay Estimation for an Exoskeleton Robot with Dynamics Uncertainties. Proceedings of the 5th International Conference of Control, Dynamic Systems, and Robotics (CDSR’18). Niagara Falls, Canada, June 7–9, 2018.
9. Brahim, B., Saad, M., Rahman, M.H., Cristóbal O-L., Philippe, A. (2017). Sliding Mode Control of an Exoskeleton Robot Based on Time Delay Estimation, International Conference on Virtual Rehabilitation (ICVR 2017), Montreal, Canada, doi: 10.1109/ICVR.2017.8007513.
10. Brahim, B., Saad, M., Rahman, M.H., and Ochoa Luna, C. (2017). Cartesian Sliding Mode Tracking Control of an Exoskeleton Robot Based on Time Delay Estimation, 14^th International Multi-conference on Systems, Signals & Devices (SSD 2017), Marrakech, Morocco, March 28-31, 2017, pp. 817-822.
11. Sierra-flores Jr,F., Kovac, J.M., Rahman, M.H., Saad, M. (2017). EMG based Control of a Wearable Robot for Elbow and Forearm Movement Assistance, 2017 BMES Annual Meeting, Phoenix, Arizona, October 11-14.
12. Brahim B., Saad M., Rahman, M.H., Cristobal O-Luna, (2017). Adaptive Control of an Exoskeleton Robot with Uncertainties on Kinematics and Dynamics, 15th IEEE International Conference on Rehabilitation Robotics (ICORR 2017), London, UK, 1369-1374, doi: 10.1109/ICORR.2017.8009439.
13. Islam, M.R., Assad-Uz-Zaman, M., Christopher S., *Rahman, M.H. (2017). Motion Control of a Robotic Device for Passive Rehabilitation of Human Shoulder and Elbow Joint Movement, IEEE 37^th Annual Great Lakes Biomedical Conference (GLBC), Pewaukee, WI, USA, April 6-7, 2017.
14. Assad-Uz-Zaman, M., Islam, M.R., *Rahman, M.H., Roger S.,and Saad, M. (2017). An EMG based control scheme for elbow and forearm movement of NAO robot, IEEE  37^th Annual Great Lakes Biomedical Conference (GLBC), Pewaukee, WI, USA, April 6-7, 2017.
15. Shaon S.K., Rahman, M.H., and Anoop D. (2017). Design of a 3DOF Exoskeleton Robot for Rehabilitation of Lower Extremity on Sagittal Plane, IEEE 37^th Annual Great Lakes Biomedical Conference (GLBC), Pewaukee, WI, USA, April 6-7, 2017.
16. Brahim B., Cristóbal O-L., *Rahman, M.H., Saad, M. (2017). A new Adaptive Super-Twisting Control for an Exoskeleton Robot with Dynamic Uncertainties, IEEE 37^th Annual Great Lakes Biomedical Conference (GLBC), Pewaukee, WI, USA, April 6-7, 2017.
17. Spiewak, C. S., Rasedul, M.R., Rahman, M.H., and Saad, M. (2017). Myo Signal Based Control of a Robotic Assistive Device for Hand Rehabilitation, IEEE 37^th Annual Great Lakes Biomedical Conference (GLBC), Pewaukee, WI, USA, April 6-7, 2017.
18. Brahim, B., Saad, M., Cristobal O-L, Brahmi, A., Rahman, M.H. (2016). Adaptive Iterative Observer Based on Integral Backstepping Control for Upper Extremity Exoskeleton Robot. 2016 8th International Conference on Modelling, Identification and Control (ICMC), Algiers, Algeria, pp.886-891. DOI: 10.1109/ICMIC.2016.7804240.
19. Spiewak, C. S., Rahman, M.H., Saad, M., Smith, R.O. (2016). Modeling and Control of a 4DoF Robotic Assistive Device for Forearm and Hand Rehabilitation, 18th International Conference on Control, Dynamic Systems, and Robotics (ICCDSR 2016), Amsterdam, Netherlands, August 4 – 5, 2016.
20. Brahim, B., Rahman, M.H., Saad, M., Cristóbal O-L. (2016). Iterative Estimator Based Nonlinear Backstepping Control of a Robotic Exoskeleton, 18th International Conference on Control, Dynamic Systems, and Robotics (ICCDSR 2016), Amsterdam, Netherlands, August 4 – 5, 2016.
21. Spiewak, C.S., Rahaman, M.A., *Rahman, M.H., D’Souza, R., Saad, M. (2016). Design and Control of a Robotic Assistive Device for Hand Rehabilitation (RAD-HR), International Conference on Control, Dynamic Systems, and Robotics (CDSR 2016), Ottawa, Canada, pp. (109)1-6, DOI: 10.11159/cdsr16.109).
22. Brahim, B., *Rahman, M.H., Saad, M., Cristóbal O-L. (2016). Sliding mode-backstepping control for upper-limb rehabilitation with the ETS-MARSE exoskeleton robot, Rehabilitation Engineering and Assistive Technology Society of North America Conference, (RESNA 2016), Arlington, VA, USA, pp.1-7.
23. Cristobal, O.L., Rahman, H., Saad, M., and Archambault, P.S. (2014). Robotic assisted trajectory tracking for human arm rehabilitation, International Conference on Advances in Robotics, Mechatronics and Circuits, Greece, pp. 51-55.
24. Rahman, H., Cristobal, O. L., Saad, M., and Archambault, P. (2014). Motion Control of an Exoskeleton Robot using EMG Signals, International Conference on Advances in Robotics, Mechatronics and Circuits, Greece, pp. 27-33.
25. Rahman, H., Archambault, P.S., Saad, M., Cristobal, O. L., and Ferrer, S.B. (2013). Robot Aided Passive Rehabilitation using Nonlinear Control Techniques, Asian Control Conference (ASCC 2013), Turkey.
26. Ferrer, S.B., Cristobal, O.L., Rahman, H., Saad, M., & Archambault, P.S. (2013). HELIOS: The human machine interface for MARSE robot, International Conference on Human System Interaction (HSI 2013). Sopot, Poland, pp 117-122.
27. Rahman, H., Cristobal, O.L., Ferrer, S.B., Saad, M., & Archambault, P.S. (2013). Control of an Upper Extremity Exoskeleton Robot to Provide Active Assistive Therapy, International Conference on Modeling, Identification and Control (ICMIC 2013), Egypt.
28. *Rahman, M.H., Cristobal, O.L., Saad, M., Kenne, J.P., & Archambault, P.S. (2012). Cartesian Trajectory Tracking of an Upper Limb Exoskeleton Robot, IECON-2012 – 38th Annual Conference on IEEE Industrial Electronics Society, Montreal, pp. 2668-2673.
29. Rahman, M.H., Ouimet, T.K., Saad, M., Kenne, J.P., and Archambault, P.S. (2011). Nonlinear Control of an Upper-Limb Exoskelton Robot, IEEE International Conference on Electronics, Circuits, and Systems (ICECS), 772-775, Beirut, Lebanon.
30. *Rahman, M.H., Ouimet, T.K., Saad, M., Kenne, J.P., and Archambault, P.S. (2011). Tele-operation of a Robotic Exoskeleton for Rehabilitation and Passive Arm Movement Assistance, 2011 IEEE International Conference on Robotics and Biomimetics, 443-448, Phuket, Thailand.
31. *Rahman, M.H., Ouimet, T.K., Saad, M., Kenne, J.P., and Archambault, P. S. (2011). Control of a Powered Exoskeleton for Elbow, Forearm and Wrist Joint Movements, IEEE Int. Conference on Robotics and Biomimetics, 1561-1566, Phuket, Thailand.
32. *Rahman, M.H., Saad, M., Kenne, J.P., and Archambault, P.S. (2010). Modeling and Development of an Exoskeleton Robot for Rehabilitation of Wrist Movements, 2010 IEEE/ASME International Conference on Advanced Intelligent Mechatronics, AIM 2010, pp. 25-30, 6-9 July 2010, Montreal, Canada.
33. Rahman, M.H., Saad, M., Kenne, J.P., and Archambault, P.S. (2010). Exoskeleton robot for rehabilitation of elbow and forearm movements, 2010 18th Mediterranean Conference on Control & Automation (MED 2010), pp. 1567-1572, Marrakech, Morocco.
34. Rahman, M.H., Ouimet, T.K., Saad, M., Kenne, J.P., & Archambault, P.S. (2010). Development and control of a wearable robot for rehabilitation of elbow and shoulder joint movements, IECON 2010 – 36th Annual Conference of IEEE Industrial Electronics, pp. 1506-1511, 7-10 Nov. 2010, Piscataway, NJ, USA.
35. *Rahman, M.H., Saad, M., Kenne, J.P., and Archambault, P.S. (2009). Modeling and control of a 7DOF exoskeleton robot for arm movements, 2009 IEEE International Conference on Robotics and Biomimetics (ROBIO 2009), pp.245-250, 19-23 Dec. 2009, Guilin, China.
36. *Rahman, M.H., and Saad, M. (2007). Development of Robotic Orthosis for Human Upper-Limb motion Assist. Poster presented at the 10^th Innovation Contest, AITS, Canada, 2007.
37. *Rahman, M.H., Kiguchi, K., Rahman, M.M., and Sasaki, M. (2006). Robotic exoskeleton for rehabilitation and motion assist, 1st International Conference on Industrial and Information Systems, ICIIS 2006, August 8, 2006 – August 11, 2006, pp. 241-246, Peradeniya, Sri lanka.
38. Rahman, M.M., Rahman, M.H., & Ikeura, R. (2006). Impedance characteristic of shoulder and elbow joints during passive movement. 1st International Conference on Industrial and Information Systems, ICIIS 2006, pp. 231-235, 8 -11 August 2006, Peradeniya, Sri lanka.
39. Kiguchi, K., Rahman, M.H., and Sasaki, M. (2006). Neuro-fuzzy based motion control of a robotic exoskeleton: considering end-effector force vectors. Proceedings of the 2006 IEEE International Conference on Robotics and Automation, 3146-51, Orlando, FL, USA.
40. Kiguchi, K., and *Rahman, M.H. (2005). Design and development of a mobile exoskeleton robot for human upper limb motion assist. Proceedings of the SICE Annual Conference 2005, pp. 811-815, August 2005, Japan.
41. Kiguchi, K., Rahman, M.H., and Yamaguchi, T. (2005). Adaptation strategy for the 3DOF exoskeleton for upper-limb motion assist, Proceedings of the2005 IEEE International Conference on Robotics and Automation, pp. 2296-2301, April 2005, Spain.
42. Kiguchi, K., Rahman, M.H., and Sasaki, M. (2005). Motion Control of a Robotic Exoskeleton, International Conference on Information and Automation, 186-191, December, 2005, Colombo, Sri Lanka.
43. Kiguchi, K., *Rahman, M. H., and Sasaki, M. (2005). Control of a Mobile Exoskeleton Robot for Rehabilitation, 20th Japanese Conference on the Advancement of Assistive and Rehabilitation Technology (JCART). Saga, Japan.
44. Kiguchi, K., Rahman, M.H., and Sasaki, M. (2005). Development of a Mobile Power-Assist Exoskeleton Robot for Human Upper Limb Motion. BE D/JSME, 2005(18(20060112)), 323-324.
45. Kiguchi, K., and Rahman, M.H. (2004). Upper-Limb Daily Motion Assist with a Robotic Exoskeleton. Nihon Kikai Gakkai Nenji Taikai Koen Ronbunshu, 2004, 351-352
46. Kiguchi, K., Rahman, M.H., and Yamaguchi, T. (2004). An Adjustment Method of an Exoskeleton Robot for Upper-Limb Motion Assist. Nippon Robotto Gakkai Gakujutsu Koenkai Yokoshu 22, 1I27.
47. Kiguchi, K., Tanaka, T., and Rahman, M.H. (2004). Adaptation of an Exoskeleton Robot for Human Upper-Limb Motion Support. 2004, Nippon Kikai Gakkai Robotikusu, Mekatoronikusu Koenkai Koen Ronbunshu, 2P2-H-3.
48. Kiguchi, K., T. Tanaka, and Rahman, M.H. (2004). Adaptation Strategy for the 3DOF Exoskeleton Robot for Human Upper-Limb Motion Assist. ROBOMEC, Japan’04.