ABSTRACT
There is great interest in developing virtual reality and augmented reality applications for use in neuromotor rehabilitation treatments. These applications provide the benefits of traditional rehabilitation without becoming tiresome. Furthermore, the way the users interact with these applications makes it possible to retrieve and analyze the data generated by their movements during treatment. However, it is hard to find datasets of body movements, and those available do not include specific movements in the rehabilitation context. We present a development framework for virtual and augmented reality applications to support neuromotor rehabilitation.
Supplemental Material
- Aishat Aloba, Gianne Flores, Julia Woodward, Alex Shaw, Amanda Castonguay, Isabella Cuba, Yuzhu Dong, Eakta Jain, and Lisa Anthony. 2018. Kinder-Gator: The UF Kinect Database of Child and Adult Motion.. In Eurographics (Short Papers). 13–16.Google Scholar
- Alexandre Fonseca Brandão, Diego Roberto Colombo Dias, Sávyo Toledo Machado Reis, Clovis Magri Cabreira, Maria Cecilia Moraes Frade, Thomas Beltrame, Marcelo de Paiva Guimarães, and Gabriela Castellano. 2020. Biomechanics Sensor Node for Virtual Reality: A Wearable Device Applied to Gait Recovery for Neurofunctional Rehabilitation. In International Conference on Computational Science and Its Applications. Springer, 757–770.Google ScholarDigital Library
- Serpro Serviço Federal de Processamento de Dados. [n.d.]. Dados anonimizados. https://www.serpro.gov.br/lgpd/menu/protecao-de-dados/dados-anonimizados-lgpdGoogle Scholar
- Matt C Howard. 2017. A meta-analysis and systematic literature review of virtual reality rehabilitation programs. Computers in Human Behavior 70 (2017), 317–327.Google ScholarDigital Library
- Kate E Laver, Belinda Lange, Stacey George, Judith E Deutsch, Gustavo Saposnik, and Maria Crotty. 2017. Virtual reality for stroke rehabilitation. Cochrane database of systematic reviews11 (2017).Google Scholar
- Camillo Lugaresi, Jiuqiang Tang, Hadon Nash, Chris McClanahan, Esha Uboweja, Michael Hays, Fan Zhang, Chuo-Ling Chang, Ming Guang Yong, Juhyun Lee, 2019. Mediapipe: A framework for building perception pipelines. arXiv preprint arXiv:1906.08172(2019).Google Scholar
- Debjani Mukherjee, Rebecca L Levin, and Wendy Heller. 2006. The cognitive, emotional, and social sequelae of stroke: psychological and ethical concerns in post-stroke adaptation. Topics in stroke rehabilitation 13, 4 (2006), 26–35.Google Scholar
- Daniel Wigdor and Dennis Wixon. 2011. Brave NUI World: Designing Natural User Interfaces for Touch and Gesture (1st ed.). Morgan Kaufmann Publishers Inc., San Francisco, CA, USA.Google ScholarDigital Library
Index Terms
- ReBase: data acquisition and management system for neuromotor rehabilitation supported by virtual and augmented reality
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