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1. Rodriguez Senin A, Martinez Saez L, Vicente Corral T. (2006). Experimental evaluation of the wheelchair occupant protection under different impact conditions using commercial wheelchairs. International Journal of Crashworthiness 11(n 5):425-441.

2. Bugmann G, Robinson P, Koay KL. (2006). Stable encoding of robot paths using normalised radial basis networks: Application to an autonomous wheelchair. International Journal of Vehicle Autonomous Systems 4(n 2-4):239-249.

3. Bugmann G, Robinson P, Koay KL. (2006). Stable encoding of robot paths using normalised radial basis networks: Application to an autonomous wheelchair. International Journal of Vehicle Autonomous Systems 4(n 2-4):239-249.

4. Rodriguez Senin A, Martinez Saez L, Vicente Corral T. (2006). Experimental evaluation of the wheelchair occupant protection under different impact conditions using commercial wheelchairs. International Journal of Crashworthiness 11(n 5):425-441.

5. Seki H, Sugimoto T, Tadakuma S. (2006). Novel straight road driving control of power assisted wheelchair based on disturbance estimation of right and left wheels. IEEJ Transactions on Industry Applications 126(6):764-770.

6. Guo LY, Su FC, An KN. (2006). Effect of handrim diameter on manual wheelchair propulsion: mechanical energy and power flow analysis. Clinical Biomechanics 21(2):107-15.

7. Lalonde NM, Dansereau J, Pauget P, Cinquin P, et al. (2006). Accessing the influence of repositioning on the pelvis' 3-D orientation in wheelchair users. IEEE Transactions on Neural Systems and Rehabilitation Engineering 14(1):76-82.

8. Ceres R, Pons JL, Calderon L, Jimenez AR, et al. (2005). A robotic vehicle for disabled children. Providing assisted mobility with the PALMA project. IEEE Engineering in Medicine and Biology Magazine 24(6):55-63.

9. Chen W, Chen S, Chen Y, Hsieh J, et al. (2005). The M3S-based electric wheelchair for the people with disabilities in Taiwan. Disability and Rehabilitation 27(24):1471-7.

10. Mukherjee G, Bhowmik P, Samanta A. (2005). Effect of chronic use of different propulsion systems in wheelchair design on the aerobic capacity of Indian users. Indian Journal of Medical Research 121(6):747-58.

11. Ceres R, Pons JL, Calderon L, Jimenez AR, et al. (2005). A robotic vehicle for disabled children. Providing assisted mobility with the PALMA project. IEEE Engineering in Medicine and Biology Magazine 24(6):55-63.

12. Chen W, Chen S, Chen Y, Hsieh J, et al. (2005). The M3S-based electric wheelchair for the people with disabilities in Taiwan. Disability and Rehabilitation 27(24):1471-7.

13. Gagnon B, Vincent C, Noreau L. (2005). Adaptation of a seated postural control measure for adult wheelchair users. Disability and Rehabilitation 27(16):951-9.

14. Kilkens OJ, Dallmeijer AJ, De Witte LP, Van Der Woude LH, et al. (2004). The Wheelchair Circuit: Construct validity and responsiveness of a test to assess manual wheelchair mobility in persons with spinal cord injury. Archives of Physical Medicine and Rehabilitation 85(3):424-31.

15. Kilkens OJ, Dallmeijer AJ, De Witte LP, Van Der Woude LH, et al. (2004). The Wheelchair Circuit: Construct validity and responsiveness of a test to assess manual wheelchair mobility in persons with spinal cord injury. Archives of Physical Medicine and Rehabilitation 85(3):424-31.

16. Alm M, Gutierrez E, Hultling C, Saraste H. (2003). Clinical evaluation of seating in persons with complete thoracic spinal cord injury. Spinal Cord 41(10):563-71.

17. Chen YL, Chen SC, Chen WL, Lin JF. (2003). A head orientated wheelchair for people with disabilities. Disability and Rehabilitation 25(6):249-53.

18. Rozendaal LA, Veeger HE, van der Woude LH. (2003). The push force pattern in manual wheelchair propulsion as a balance between cost and effect. Journal of Biomechanics 36(2):239-47.

19. Stein RB, Roetenberg D, Chong SL, James KB. (2003). A wheelchair modified for leg propulsion using voluntary activity or electrical stimulation. Medical Engineering and Physics 25(1):11-9.

20. Swaine JM. (2003). Seeing the difference. Rehab Management 16(9):26-8.

21. Wei SH, Huang S, Jiang CJ, Chiu JC. (2003). Wrist kinematic characterization of wheelchair propulsion in various seating positions: implication to wrist pain. Clinical Biomechanics 18(6):S46-52.

22. Alm M, Gutierrez E, Hultling C, Saraste H. (2003). Clinical evaluation of seating in persons with complete thoracic spinal cord injury. Spinal Cord 41(10):563-71.

23. Makino K, Yoshimoto N, Wada H, Hachisuka K. (2003). [Usefulness of a Leg-pedaled Wheelchair for Hemiplegic Patients]. Japanese Journal of Rehabilitation Medicine 40:617-620.

24. Lawn MJ, Ishimatsu T. (2003). Modeling of a stair-climbing wheelchair mechanism with high single-step capability. IEEE Transactions on Neural Systems and Rehabilitation Engineering 11(3):323-32.

25. Moss AD, Fowler NE, Tolfrey VL. (2003). A telemetry-based velocometer to measure wheelchair velocity. Journal of Biomechanics 36(2):253-7.

26. Davies A, De Souza LH, Frank AO. (2003). Changes in the quality of life in severely disabled people following provision of powered indoor/outdoor chairs. Disability and Rehabilitation 25(6):286-90.

27. Chen YL, Chen SC, Chen WL, Lin JF. (2003). A head orientated wheelchair for people with disabilities. Disability and Rehabilitation 25(6):249-53.

28. Kittel A, Di Marco A, Stewart H. (2002). Factors influencing the decision to abandon manual wheelchairs for three individuals with a spinal cord injury. Disability and Rehabilitation 24(1-3):106-114.

29. Sawatzky BJ, Denison I, Kim WO. (2002). Rolling, rolling, rolling. Rehab Management 15(6):36-9.

30. Boquete L, Martin P, Mazo M, et al. (2002). Hardware implementation of a new neurocontrol wheelchair-guidance system. Neurocomputing 47:145-60.

31. Apatsidis DP, Solomonidis SE, Michael SM. (2002). Pressure distribution at the seating interface of custom-molded wheelchair seats: Effect of various materials. Archives of Physical Medicine and Rehabilitation 83(8):1151-1156.

32. Hillman M, Hagan K, Hagan S, Jepson J, et al. (2002). The Weston wheelchair mounted assistive robot-the design story. Robotica 20:125-32.

33. Kurozumi R, Fujisawa S, Yamamoto T, Suita Y. (2002). Development of an automatic travel system for electric wheelchairs using reinforcement learning systems and CMACs. Proceedings of the 2002(Cat. No.02CH37290):1690-5.

34. Sgouros NM. (2002). Qualitative navigation for autonomous wheelchair robots in indoor environments. Autonomous Robots 12(3):257-66.

35. Lesley S, Porter LA. (2002). An ergonomic wheelchair for hemiplegics. Technology and Disability 14(4):183-189.

36. Hirose H. (2002). [Pressure Sore Prevention in Rehabilitation Engineering]. Japanese Journal of Rehabilitation Medicine 39:497-503.

37. Barea R, Boquete L, Mazo M, Lopez E. (2002). System for assisted mobility using eye movements based on electrooculography. IEEE Transactions on Neural Systems and Rehabilitation Engineering 10(4):209-18.

38. Janssen-Potten YJ, Seelen HA, Drukker J, Spaans F, et al. (2002). The effect of footrests on sitting balance in paraplegic subjects. Archives of Physical Medicine and Rehabilitation 83(5):642-8.

39. Kittel A, Di Marco A, Stewart H. (2002). Factors influencing the decision to abandon manual wheelchairs for three individuals with a spinal cord injury. Disability and Rehabilitation 24(1-3):106-114.

40. Aissaoui R, Arabi H, Lacoste M, Zalzal V, et al. (2002). Biomechanics of manual wheelchair propulsion in elderly: system tilt and back recline angles. American Journal of Physical Medicine and Rehabilitation 81(2):94-100.

41. Hong JP, Shim HM, Jung SB, Lee EH, et al. (2001). A steering algorithm of the MCU based controller for two-wheel drive vehicles. ISIE 2001(Cat. No.01TH8570):1887-90 vol.

42. Kitagawa L, Kobayashi T, Beppu T, Terashima K. (2001). Semi-autonomous obstacle avoidance of omnidirectional wheelchair by joystick impedance control. Proceedings 1999 IEEE/RSJ International Conference on Intelligent Robots and Systems 2(Human and Environment Friendly Robots with High Intelligence and Emotional Quotients) 4(Cat. No.01CH37180):2148-53.

43. Kotani S, Nakata T, Hideo M. (2001). A strategy for crossing of the robotic travel aid "Harunobu". Proceedings 1999 IEEE/RSJ International Conference on Intelligent Robots and Systems 2(Human and Environment Friendly Robots with High Intelligence and Emotional Quotients) 2(Cat. No.01CH37180):668-73.

44. Matsumotot Y, Ino T, Ogsawara T. (2001). Development of intelligent wheelchair system with face and gaze based interface. Proceedings 1999 IEEE/RSJ International Conference on Intelligent Robots and Systems 2(Human and Environment Friendly Robots with High Intelligence and Emotional Quotients) 2001(Cat. No.01TH8591):262-7.

45. Murakami Y, Kuno Y, Shimada N, Shirai Y. (2001). Collision avoidance by observing pedestrians' faces for intelligent wheelchairs. Proceedings 1999 IEEE/RSJ International Conference on Intelligent Robots and Systems 2(Human and Environment Friendly Robots with High Intelligence and Emotional Quotients) 4(Cat. No.01CH37180):2018-23.

46. Shim HM, Hong JP, Chung SB, Hong SH. (2001). A powered wheelchair controller based on master-slave control architecture. ISIE 2001(Cat. No.01TH8570):1553-6 vol.

47. Denison I, Gayton D. (2001). Redefining power wheelchairs. SCI Nursing 18(4):195-8.

48. Espinosa F, Lopez E, Mateos R, Mazo M, et al. (2001). Advanced and intelligent control techniques applied to the drive control and path tracking systems on a robotic wheelchair. Autonomous Robots 11(2):137-48.

49. Edwards S, Walsh S, Blythe P, Hamilton N, et al. (2001). Accessibility in the built and transport environment. The wheelchair user perspective. Universal Access in the Information Society 1(2):91-8.

50. Abascal J, Cagigas D, Naray N, Gardeazabal L. (2001). Efficient path planning for autonomous wheelchairs in structured environments. OEGAI Journal (Oesterreichische Gesellschaft Fur Artificial Intelligence) 20:13-15.