Perfil personal
Intereses principales de investigación
I am a researcher focused on developing computational and neuromuscular models, digital twins, and intelligent control strategies to support and restore human movement. My work combines biomechanics, signal processing, and human-robot interaction to create personalised, adaptive solutions for rehabilitation and assistive technology.
My primary research interests involve modelling and optimising FES-based and wearable-assisted movement, with applications in cycling, rowing, gait, and functional recovery for individuals with spinal cord injury and stroke. I develop neuromusculoskeletal simulations, predictive models, and real-time controllers to understand lower limb dynamics better and improve performance and safety in both experimental and clinical settings.
Across my projects, I aim to bridge the gap between computational models and practical rehabilitation by advancing digital twin frameworks that integrate motion data, EMG, and wearable sensor data. My goal is to build technologies that enhance autonomy, facilitate motor recovery, and expand access to personalised rehabilitation through evidence-based, computationally informed design.
Palabras clave
- TK Electrical engineering. Electronics Nuclear engineering
- TJ Mechanical engineering and machinery
Huella digital
- 1 Perfiles similares
Colaboraciones y áreas de investigación principales de los últimos cinco años
Producción científica
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A Preliminary Comparative Study of Knee Kinematics and Dynamics with NanoStim and Motion Capture Systems
Franco, T., Peres, A., Font-Llagunes, J. M. & de Sousa, A. C. C., 2025, Converging Clinical And Engineering Research On Neurorehabilitation V: Proceedings of the 6th International Conference on Neurorehabilitation (ICNR 2024), November 5–8, 2024, La Granja, Spain - Volume 1. Pons, J., Tornero, J. & Akay, M. (eds.). Springer Science and Business Media Deutschland GmbH, Vol. 31. p. 588-592 5 p. (Biosystems And Biorobotics).Producción científica: Capítulo del libro › Contribución a congreso/conferencia › revisión exhaustiva
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Validating Predictive Simulation-Derived Electrical Stimulation Cycling in a Person with Spinal Cord Injury
Peres, A. B., Carmona, G. G., Gonçalves, C., De Sousa, A. C. C. & Baptista, R. D. S., 2025, 2025 International Conference On Rehabilitation Robotics, ICORR. IEEE Computer Society, p. 1245-1250 6 p. (International Conference On Rehabilitation Robotics Icorr).Producción científica: Capítulo del libro › Contribución a congreso/conferencia › revisión exhaustiva
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Comparison of filtering methods for real-time extraction of the volitional EMG component in electrically stimulated muscles
Hambly, M. J., de Sousa, A. C. C. & Pizzolato, C., ene 2024, En: Biomedical Signal Processing and Control. 87, 105471.Producción científica: Artículo en revista indizada › Artículo › revisión exhaustiva
Acceso abierto17 Citas (Scopus) -
Joint contact forces during semi-recumbent seated cycling
Crossley, C. B., Diamond, L. E., Saxby, D. J., de Sousa, A., Lloyd, D. G., Che Fornusek, F. & Pizzolato, C., may 2024, En: Journal of Biomechanics. 168, 9 p., 112094.Producción científica: Artículo en revista indizada › Artículo › revisión exhaustiva
Acceso abierto4 Citas (Scopus) -
Non-invasive Digital Twin Controlled BCI-FES-VR Leg-Cycling Ergometer Intervention Recovers Sensorimotor Function in Individuals with Complete Spinal Cord Injury
Pizzolato, C., Palipana, D. B., Mulholland, K., Quinn, A. R. J., Mannan, M. M. N., Clanchy, K., Crossley, C. B., Jurd, E., Sabapathy, S., Bisset, L., Lloyd, E. C. R., Beck, B., de Sousa, A. C. C., Teng, Y. D. & Lloyd, D. G., 2024, Converging Clinical And Engineering Research On Neurorehabilitation V, Icnr 2024, Vol 2. Pons, J., Tornero, J. & Akay, M. (eds.). Springer Nature, Vol. 32. p. 63-67 5 p. (Biosystems And Biorobotics; vol. 32).Producción científica: Capítulo del libro › Contribución a congreso/conferencia › revisión exhaustiva
1 Cita (Scopus)