Socially Assistive Robotics for Post-stroke Rehabilitation Journal of Neuroengineering and Rehabilitation Socially Assistive Robotics for Post-stroke Rehabilitation

BackgroundAlthough there is a great deal of success in rehabilitative robotics applied to patient recovery post stroke, most of the research to date has dealt with providing physical assistance. However, new rehabilitation studies support the theory that not all therapy need be hands-on. We describe a new area, called socially assistive robotics, that focuses on non-contact patient/user assistance. We demonstrate the approach with an implemented and tested post-stroke recovery robot and discuss its potential for effectiveness.ResultsWe describe a pilot study involving an autonomous assistive mobile robot that aids stroke patient rehabilitation by providing monitoring, encouragement, and reminders. The robot navigates autonomously, monitors the patient's arm activity, and helps the patient remember to follow a rehabilitation program. We also show preliminary results from a follow-up study that focused on the role of robot physical embodiment in a rehabilitation context.ConclusionWe outline and discuss future experimental designs and factors toward the development of effective socially assistive post-stroke rehabilitation robots.

[1]  Adriana Tapus,et al.  User Personality Matching with a Hands-Off Robot for Post-stroke Rehabilitation Therapy , 2006, ISER.

[2]  W.S. Harwin,et al.  A robot workstation for use in education of the physically handicapped , 1988, IEEE Transactions on Biomedical Engineering.

[3]  J. H. van der Lee,et al.  Forced use of the upper extremity in chronic stroke patients: results from a single-blind randomized clinical trial. , 1999, Stroke.

[4]  S. Kiesler,et al.  Mental Models and Cooperation with Robotic Assistants , 2001 .

[5]  Maja J. Mataric,et al.  Motion capture from inertial sensing for untethered humanoid teleoperation , 2004, 4th IEEE/RAS International Conference on Humanoid Robots, 2004..

[6]  J. P. Miller,et al.  Methods for a Multisite Randomized Trial to Investigate the Effect of Constraint-Induced Movement Therapy in Improving Upper Extremity Function among Adults Recovering from a Cerebrovascular Stroke , 2003, Neurorehabilitation and neural repair.

[7]  Maja J. Mataric,et al.  The role of physical embodiment in human-robot interaction , 2006, ROMAN 2006 - The 15th IEEE International Symposium on Robot and Human Interactive Communication.

[8]  Lynn M. Grattan,et al.  An Empirical Study of Personality Change After Stroke , 2001, Stroke.

[9]  D. Feil-Seifer,et al.  Defining socially assistive robotics , 2005, 9th International Conference on Rehabilitation Robotics, 2005. ICORR 2005..

[10]  Illah R. Nourbakhsh,et al.  A survey of socially interactive robots , 2003, Robotics Auton. Syst..

[11]  Sara B. Kiesler,et al.  The advisor robot: tracing people's mental model from a robot's physical attributes , 2006, HRI '06.

[12]  E. Taub,et al.  A Placebo-Controlled Trial of Constraint-Induced Movement Therapy for Upper Extremity After Stroke , 2006, Stroke.

[13]  E. Taub,et al.  The EXCITE Trial: Attributes of the Wolf Motor Function Test in Patients with Subacute Stroke , 2005, Neurorehabilitation and neural repair.

[14]  W. Rymer,et al.  Comparison of Robot-Assisted Reaching to Free Reaching in Promoting Recovery From Chronic Stroke , 2001 .

[15]  M.J. Mataric,et al.  Hands-off assistive robotics for post-stroke arm rehabilitation , 2005, 9th International Conference on Rehabilitation Robotics, 2005. ICORR 2005..

[16]  Aleksandar Milenkovic,et al.  Journal of Neuroengineering and Rehabilitation Open Access a Wireless Body Area Network of Intelligent Motion Sensors for Computer Assisted Physical Rehabilitation , 2005 .

[17]  Andrew Howard,et al.  Design and use paradigms for Gazebo, an open-source multi-robot simulator , 2004, 2004 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS) (IEEE Cat. No.04CH37566).

[18]  Takayuki Kanda,et al.  Person identification and interaction of social robots by using wireless tags , 2003, Proceedings 2003 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2003) (Cat. No.03CH37453).

[19]  R. Teasell,et al.  What's new in stroke rehabilitation: back to basics. , 2005, Stroke.

[20]  H. F. Machiel Van der Loos,et al.  Robotic stroke therapy assistant , 2003, Robotica.

[21]  H. F. Machiel van der Loos,et al.  Development of robots for rehabilitation therapy: the Palo Alto VA/Stanford experience. , 2000, Journal of rehabilitation research and development.

[22]  Richard T. Vaughan,et al.  The Player/Stage Project: Tools for Multi-Robot and Distributed Sensor Systems , 2003 .

[23]  Maja J. Mataric,et al.  Encouraging physical therapy compliance with a hands-Off mobile robot , 2006, HRI '06.