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1. Smart Prosthesis System: Continuous Automatic Prosthesis Fitting Adjustment and Real-time Stress Visualization

   https://doi.org/10.1109/BIOCAS.2018.8584784  

   Cai, Yi ; Chen, Jia ; Chen, Diliang ; Qu, Guanzhou ; Zhao, Hongping ; Ansari, Rahila ; Huang, Ming-Chun ( October 2018 , IEEE Biomedical Circuits and Systems Conference)

   Prosthetic devices have significantly improved mobility and quality of life for amputees. Significant engineering advancements have been made in artificial limb biomechanics, joint control systems, and light-weight materials. Amputees report that the primary problem they face with their artificial limbs is a poor fitting socket. In this paper, we propose a smart prosthesis system, in which we measure the real-time force distributions within a prothetic socket and dynamically visualize the results in a mobile application. A major part of the overall proposed system, a wireless pressure sensing system and a force visualization method, are evaluated at current stage. Finally, corresponding works for fully completing this smart prosthesis system are discussed as well. 

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2. Understanding the Preferences for Lower-Limb Prosthesis: A Think-Aloud Study during User-Guided Auto-Tuning

   https://doi.org/10.1177/1071181322661082  

   Yuan, Jing ; Bai, Xiaolu ; Alili, Abbas ; Liu, Ming ; Feng, Jing ; Huang, He ( September 2022 , Proceedings of the Human Factors and Ergonomics Society Annual Meeting)

   Prostheses help amputees to maintain physical health and quality of life. Prosthesis wearers’ satisfaction and adherence to the prosthesis are closely related to the preferences for prosthesis tuning settings. However, the underlying factors that contribute to the preferences were under-explored. In this study, two able-bodied participants were asked to change the robotic prosthesis settings to their preferred state and the think-aloud technique with a mixed-method approach was used to reveal the contributing factors of preferences. We found that physical perception (e.g., positions of the prosthetic foot, balance, and stability) and subjective feelings (e.g., comfortableness, satisfaction, confidence, and worries) were two major factors. Experiences with the intact leg and other profiles were used as anchors for their preference levels. Preferences may also differ with situational context such as walking speed. The saturation points were reached with no strong approach motivation. The implications for prosthesis design and research were discussed.

    

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3. Finding a Natural Fit: A Thematic Analysis of Amputees’ Prosthesis Setting Preferences during User-Guided Auto-Tuning

   https://doi.org/10.1177/21695067231216121  

   Yuan, Jing ; Bai, Xiaolu ; Alili, Abbas ; Liu, Ming ; Feng, Jing ; Huang, He ( November 2023 , Proceedings of the Human Factors and Ergonomics Society Annual Meeting)

   Amputees’ preferences for prosthesis settings are critical not only for their psychological well-being but also for long-term adherence to device adoption and health. Although active lower-limb prostheses can provide enhanced functionality than passive devices, little is known about the mechanism of preferences for settings in active devices. Therefore, a think-aloud study was conducted on three amputees to unravel their preferences for a powered robotic knee prosthesis during user-guided auto-tuning. The inductive thematic analysis revealed that amputee patients were more likely to use their own passive device rather than the intact leg as the reference for the natural walking that they were looking for in the powered device. There were large individual differences in factors influencing naturalness. The mental optimization of preference decisions was mostly based on the noticeableness of the differences between knee profiles. The implications on future design and research in active prostheses were discussed.

    

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4. FAST MULTISCALE FUNCTIONAL ESTIMATION IN OPTIMAL EMG PLACEMENT FOR ROBOTIC PROSTHESIS CONTROLLERS

   https://doi.org/10.1216/jie.2023.35.355  

   Ren, Jin ; Song, Guohui ; Tabacu, Lucia ; Xu, Yuesheng ( October 2023 , Journal of Integral Equations and Applications)
5. Comparison of vibrotactile and joint-torque feedback in a myoelectric upper-limb prosthesis

   https://doi.org/10.1186/s12984-019-0545-5  

   Thomas, Neha ; Ung, Garrett ; McGarvey, Colette ; Brown, Jeremy D. ( December 2019 , Journal of NeuroEngineering and Rehabilitation)

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