2016 - 2020 Consideration of issues concerning body image: The experimental study of "tool-incorporation" of white canes, wheelchairs and prosthetic hands
2015 - 2019 Development of a plantar tactile measurement system for prevention of lifestyle diseases
2008 - 2010 Construction of a model of the evaluation system for Assistive Technology that use tool-body assimilation as index
2007 - 2009 Development of an orientation and mobility assisst system considering activity and environment for people with visual impairment.
2005 - 2006 Approach to materialize comprehensive navigation system that people with various physical conditions participate in community
2004 - 2006 A study on self-determination and assistive technology for the multiple disabled children with sensory impairments.
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Papers (28):
Takeshi Tanabe, Yasuhiro Fujimoto, Kiyohiko Nunokawa, Kouki Doi, Shuichi Ino. White Cane-Type Holdable Device Using Illusory Pulling Cues for Orientation & Mobility Training. IEEE Access. 2023. 11. 28706-28714
Atsushi Sugama, Takahiro Nishimura, Kouki Doi, Shigenobu Shimada, Manabu Chikai, Kiyohiko Nunokawa, Shuichi Ino. Evaluation of musculoskeletal workload of manual operating tasks using a hydraulic jack based on ergonomic postural analysis and electromyography: A case study of non-professional young male users. Work. 2022. 72. 2. 677-685
Kiyohiko Nunokawa, Takeshi Tanabe, Hotaka Takizawa, Kouki Doi, Shuichi Ino. Navigation for precise walking of blind people based on pulling illusion devices embedded in white canes. 2022 IEEE 4th Global Conference on Life Sciences and Technologies (LifeTech). 2022
Takeshi Tanabe, Kiyohiko Nunokawa, Kouki Doi, Shuichi Ino. Contribution of Vibration, Tapping Sound, and Reaction Force to Hardness Perception During Indirect Tapping Using a White Cane. IEEE Transactions on Haptics. 2022. 15. 2. 1-1
Takeshi Tanabe, Kiyohiko Nunokawa, Kouki Doi, Shuichi Ino. Training System for White Cane Technique Using Illusory Pulling Cues Induced by Asymmetric Vibrations. IEEE Transactions on Neural Systems and Rehabilitation Engineering. 2022. 30. 305-313
