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Dr. Qinyin Qiu received a Baccalaureate degree in computer science from Hangzhou Dianzi University. She received her master’s degree in computer engineering from University of Southern California, and Doctoral in Biomedical Engineering from New Jersey institute of Technology and University of Medicine and Dentistry of New Jersey. Dr. Qiu is assistant professor at Department of Rehabilitation and Movement Science.
B.S., Hangzhou Electrical Institute of Technology, China
M.S., University of Southern California
Ph.D., NJIT/UMDNJ
Research Interests
My research interest focuses on Virtual Reality and robotic assisted rehabilitation system design and development. I was the principal engineer that designed the NJIT RAVR system and the NJIT TrackGlove systems. I participated in two large studies examining the use of these systems in children with CP and adults with stroke. I also designed all of the kinematic testing software for these studies. Since then, along with Amanda Cronce, I designed the NJIT-HoVRS system. Currently, I am leading the system feasibility and effectiveness study.
| Title | Sponsor | Effective Dates | Role |
| Optimizing Hand Rehabilitation Post-Stroke Using Interactive Virtual Environments | Rutgers University, NJIT, Kessler Rehabilitation, Northeastern University | 07/01/2017 – 06/30/2022 | Research Engineer |
| National Institute on Disability and Rehabilitation Research | Rehabilitation Engineering Research Center (RERC) for Rehabilitation Robotics | 09/01/2017 – 08/31/2022 | Research Engineer |
| Optimizing Hand Rehabilitation Post-Stroke Using Interactive Virtual Environments | National Institute of Child Health and Human Development | 03/01/2009 – 02/28/2014 | Research Engineer |
| Rehabilitation Engineering Research Center (RERC) for Children with Orthopedic Disabilities | National Institute on Disability and Rehabilitation Research | November 1, 2005 – October 30, 2011 | Research Engineer |
| Title | Authors | Where and When |
| Home based virtual rehabilitation for upper extremity functional recovery post-stroke | Qiu Q, Cronce A, Fluet G, Patel J, Merians A, Adamovich S | J Altern Med Res 2017;9(4) |
| Does training with traditionally presented and virtually-simulated tasks elicit differing changes in object interaction kinematics in persons with upper extremity hemiparesis? | Fluet GG, Merians AS, Qiu Q, Rohafaza M, Van Wingerden A, et al | Top Stroke Rehabil. 2015 (3):176-84 |
| Comparing integrated training of the hand and arm with isolated training of the same effectors in persons with stroke using haptically rendered virtual environments, a randomized clinical trial | Fluet G., Merians A.S., Qiu Q, Davidow A, Adamovich S.V. | J Neuroeng Rehab, 2014, 11(1):126 |
| Robots integrated with virtual reality simulations for customized motor training in a person with upper extremity hemiparesis: a case study | Fluet G.G., Merians A.S., Qiu, Q., Saleh S., Lafond I., Ruano V., Delmonico A.R., Adamovich S.V. | Journal of Neurologic Physical Therapy 2012; 36(2):79-86 |
| Correlations between statistical models of robotically collected kinematics and clinical measures of upper extremity function | Rohafza M., Fluet G.G., Qiu Q., Adamovich S.V. | Conf Proc IEEE Eng Med Biol Soc. 2012; 4120-4123 |
| Classification of hand preshaping in persons with stroke using Linear Discriminant Analysis | Puthenveettil S., Fluet G., Qiu Q., Adamovich S | In Conf. Proc. IEEE Eng. Med. Biol. Soc. 2012; 4563-4566 |
| Robotically Facilitated Virtual Rehabilitation of Arm Transport Integrated With Finger Movement in Persons with Hemiparesis | Merians A.S., Fluet G.G., Qiu Q., Saleh S., Lafond I., Adamovich S.V. | Journal of Neuroengineering and Rehabilitation, 8:27, 2011 |
| A comparison of motor adaptations to robotically facilitated upper extremity task practice demonstrated by children with cerebral palsy and adults with stroke | Qiu Q., Adamovich S., Saleh S., Lafond I., Merians A.S., Fluet G.G. | In Conf Proc IEEE Int Conf Rehabil Robot. 2011; 5975431 |
| Haptically facilitated bimanual training combined with augmented visual feedback in moderate to severe hemiplegia | Boos A., Qiu Q., Fluet G.G., Adamovich S.V. | In Conf. Proc. IEEE Eng. Med. Biol. Soc. 2011; 3111-3114 |
| Learning in a Virtual Environment Using Haptic Systems for Movement Re-Education: Can This Medium Be Used for Remodeling Other Behaviors and Actions? | Merians A.S., Fluet G.G., Qiu Q., Saleh S., Lafond I., Adamovich S.V. | Journal of Diabetes Science and Technology 5:301-308, 2011 |
| Interfacing a haptic robotic system with complex virtual environments to treat impaired upper extremity motor function in children with cerebral palsy | Fluet G.G., Qiu Q., Ramirez D.A., Saleh S., Parikh H.D., Kelly D., Adamovich S. | Developmental NeuroRehabilitation. 2010; 13:335-345 |
| Integrated versus isolated training of the hemiparetic upper extremity in haptically rendered virtual environments | Qiu Q., Fluet G.G., Saleh S., Lafond I., Merians A.S., Adamovich S.V. | In Conf. Proc. IEEE Eng. Med. Biol. Soc. 2010; 2255-2258 |
| The New Jersey Institute of Technology Robot-Assisted Virtual Rehabilitation (NJIT-RAVR) system for children with cerebral palsy: A feasibility study | Qiu Q., Ramirez D.A., Saleh S., Fluet G.G., Parikh H.D., Kelly D., Adamovich S. | Journal of Neuroengineering and Rehabilitation 2009; Nov 16;6:40 |
| Incorporating Haptic Effects into Virtual Environments to Train the Hemiplegic Upper Extremity | Adamovich S., Fluet G., Merians A.S., Mathai A., Qiu Q. | IEEE Transactions on Neural Systems and Rehabilitation Engineering, 2009; Oct; 17(5):512-520 |
| Coordination changes demonstrated by subjects with hemiparesis performing hand-arm training using the NJIT-RAVR robotically assisted virtual rehabilitation system | Qiu Q., Fluet G., Lafond I., Merians A.S., Adamovich S.V. | In Conf. Proc. IEEE Engineering Med. Biol. Soc. 2009; 1143-1146 |
| Design of a complex virtual reality simulation to train finger motion for persons with hemiparesis: A feasibility study | Adamovich S.V., Fluet G.G., Mathai A., Qiu Q., Lewis J., Merians A.S. | Journal of Neuroengineering and Rehabilitation, 2009, Jul 17; 6:28 |
| Robot-Assisted Virtual Rehabilitation (NJIT-RAVR) system for children with upper extremity hemiplegia | Fluet G.G., Qiu Q., Saleh S., Ramirez D., Adamovich S., Kelly D., Parikh H. | Conf Proc Virtual Rehabilitation 2009, Haifa, Israel, August 4, 2009, 189-192 |
| Recovery of Hand Function in Virtual Reality: Training Hemiparetic Hand and Arm Together or Separately | Adamovich S., Fluet G.G., Merians A.S., Mathai A., Qiu Q.. | In Proceedings: In Conf. Proc. IEEE Eng. Med. Biol. Soc. 2008, pp.3475-3478 |
| Design of a Virtual Reality-Based System for Hand and Arm Rehabilitation | Adamovich S., Qiu Q., Talati B., Fluet G. and Merians A.S | Proceedings IEEE International Conference on Rehabilitation Robotics, June 2007, Netherlands, pp. 958-963 |
| Strategies for Incorporating Bilateral Training into a Virtual Environment | Merians A.S., Lewis J., Qiu Q., Fluet G., Talati B. and Adamovich S | 2007 IEEE/ICME International Conference on Complex Medical Engineering-CME2007, May 2007, Beijing, China pp.1272-1276 |
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