2022 - 2027 Effect of divergence between body schema and body image on gait relearning
Papers (20):
Yoshihiro Miyake, Hirotaka Uchitomi. Wearable gait analysis system using inertial measurement unit and its clinical application. The Japanese journal of physical therapy. 2021. 55. 8. 887-893
Hirotaka Uchitomi, Ken-ichiro Ogawa, Satoshi Orimo, Yoshiaki Wada, Yoshihiro Miyake. Effect of Interpersonal Interaction on Festinating Gait Rehabilitation in Patients with Parkinson’s Disease. PLOS ONE. 2016. 11. 6. e0155540-e0155540
Leo Ota, Hironori Hashiguchi, Hirotaka Uchitomi, Ken-ichiro Ogawa, Satoshi Orimo, Yoshihiro Miyake. Rhythm-fluctuation-based evaluation platform for gait training of Parkinson's disease patients. 2015 IEEE/SICE International Symposium on System Integration (SII). 2015. 726-731
Leo Ota, Hirotaka Uchitomi, Ken-ichiro Ogawa, Satoshi Orimo, Yoshihiro Miyake. Relationship between Neural Rhythm Generation Disorders and Physical Disabilities in Parkinson’s Disease Patients’ Walking. PLoS ONE. 2014. 9. 11. e112952-e112952
Hirotaka Uchitomi, Leo Ota, Ken-ichiro Ogawa, Satoshi Orimo, Yoshihiro Miyake. Interactive Rhythmic Cue Facilitates Gait Relearning in Patients with Parkinson's Disease. PLoS ONE. 2013. 8. 9. e72176-e72176
Improving gait performance in Parkinson's disease by interpersonal synchrony-based dynamic stabilization
(Proceedings of the 2012 ICME International Conference on Complex Medical Engineering (CME2012), Kobe, Japan 2012)
Interpersonal synchrony-based dynamic stabilization of the gait rhythm between human and virtual robot — Clinical application to festinating gait of Parkinson's disease patient
(Proceedings of the 23th 2012 International Symposium on Micro-NanoMechatronics and Human Science (MHS2012), Nagoya, Japan 2012)
Co-creative rehabilitation: Effect of rhythmic auditory stimulus on gait cycle fluctuation in Parkinson's disease patients
(Proceedings of the SICE Annual Conference 2011 (SICE2011), Tokyo, Japan 2011)
Dynamically stabilizing gait festination in Parkinson's disease by walking with interpersonal synchrony emulation system
(Proceedings of 9th Sino-German Advanced Workshop on Cognitive Neuroscience and Psychology, Beijing, China (2011/05/16-18)) 2011)