Optimizing Wearable Assistive Devices with Neuromuscular Models and Optimal Control

Narsipura Sreenivasa, Manish; Millard, Matthew; Manns, Paul; Mombaur, Katja

Optimizing Wearable Assistive Devices with Neuromuscular Models and Optimal Control

conference contribution

posted on 2024-11-14, 09:21 authored by Manish Narsipura SreenivasaManish Narsipura Sreenivasa, Matthew Millard, Paul Manns, Katja Mombaur

The coupling of human movement dynamics with the function and design of wearable assistive devices is vital to better understand the interaction between the two. Advanced neuromuscular models and optimal control formulations provide the possibility to study and improve this interaction. In addition, optimal control can also be used to generate predictive simulations that generate novel movements for the human model under varying optimization criterion.

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Sreenivasa, M., Millard, M., Manns, P. & Mombaur, K. (2017). Optimizing Wearable Assistive Devices with Neuromuscular Models and Optimal Control. In J. Ibanez, J. Gonzalez-Vargas, J. M. Azorin, M. Akay & J. L. Pons (Eds.), Converging Clinical and Engineering Research on Neurorehabilitation II (pp. 627-632). Cham, Switzerland: Springer.

Volume

15

Pagination

627-632

Publisher website/DOI

https://doi.org/10.1007/978-3-319-46669-9_103

Language

English

RIS ID

128860

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Keywords

control neuromuscular optimal devices assistive wearable optimizing models

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Optimizing Wearable Assistive Devices with Neuromuscular Models and Optimal Control

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