Projects per year
Personal profile
Research profile
My primary research interest is the neuromuscular mechanisms underlying control of movement, and how an understanding of these mechanisms can be exploited in the design of neurorehabilitation technologies. I believe that a biomimetic design and a compatibility with the remaining function of the neuromuscular system are essential components for technology usability. In my research I apply experimental recordings as well as computational modelling. I received my PhD degree in 2012 from Aalborg University, Denmark, and was a postdoctoral fellow at University of Göttingen, Germany from 2012-2015.
Expertise related to UN Sustainable Development Goals
In 2015, UN member states agreed to 17 global Sustainable Development Goals (SDGs) to end poverty, protect the planet and ensure prosperity for all. This person’s work contributes towards the following SDG(s):
Education/Academic qualification
MSc Biomedical Engineering
Award Date: 1 Jul 2009
Keywords
- Biomedical Engineering
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- 1 Similar Profiles
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DISRUPT: Direct simultaneous control of upper-limb prostheses in multiple degrees of freedom
01/09/2022 → 31/12/2025
Project: Research
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SimBionics: Neuromechanical simulation and sensory feedback for the control of bionic legs
Dosen, S., Dideriksen, J. L., Valette, R. & Manz, S.
01/09/2019 → 31/08/2023
Project: Research
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ROBIN: Robust bidirectional human-machine interface for natural control and feedback in hand prostheses
Dosen, S., Dideriksen, J. L., Mamidanna, P., Tchimino, J. & Castro, M. N.
01/07/2018 → 01/01/2023
Project: Research
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Natural neural integration of artificial proprioceptive feedback for effortless prosthetic control
01/02/2018 → 31/07/2022
Project: Research
Research output
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Adaptations in motor unit properties underlying changes in recruitment, rate coding, and maximum force
Dideriksen, J. & Del Vecchio, A., 1 Jan 2023, In: Journal of Neurophysiology. 129, 1, p. 235-246 12 p.Research output: Contribution to journal › Journal article › Research › peer-review
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Combined spatial and frequency encoding for electrotactile feedback of myoelectric signals
Nataletti, S., Leo, F., Dideriksen, J., Brayda, L. & Dosen, S., Sep 2022, In: Experimental Brain Research. 240, 9, p. 2285-2298 14 p.Research output: Contribution to journal › Journal article › Research › peer-review
Open AccessFile1 Citation (Scopus)14 Downloads (Pure) -
Continuous Transition Impairs Discrimination of Electrotactile Frequencies
Gholinezhad, S., Dosen, S. & Dideriksen, J., 1 Oct 2022, In: IEEE Transactions on Haptics. 15, 4, p. 753-758 6 p., 9896868.Research output: Contribution to journal › Journal article › Research › peer-review
Open AccessFile19 Downloads (Pure) -
Electrotactile and Vibrotactile Feedback Enable Similar Performance in Psychometric Tests and Closed-loop Control
Dideriksen, J., Markovic, M., Lemling, S., Farina, D. & Dosen, S., Jan 2022, In: IEEE Transactions on Haptics. 15, 1, p. 222-231 10 p., 9562749.Research output: Contribution to journal › Journal article › Research › peer-review
5 Citations (Scopus) -
EMG feedback outperforms force feedback in the presence of prosthesis control disturbance
Tchimino, J., Dideriksen, J. L. & Dosen, S., 20 Sep 2022, In: Frontiers in Neuroscience. 16, 952288.Research output: Contribution to journal › Journal article › Research › peer-review
Open AccessFile2 Citations (Scopus)13 Downloads (Pure)
Datasets
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Amplitude cancellation influences the association between frequency components in the neural drive to muscle and the rectified EMG signal
Dideriksen, J. L. (Creator), Figshare, 2019
DOI: 10.6084/m9.figshare.7964603, https://figshare.com/articles/Amplitude_cancellation_influences_the_association_between_frequency_components_in_the_neural_drive_to_muscle_and_the_rectified_EMG_signal/7964603
Dataset
Prizes
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Svend Andersen Fonden Talentprize
Dideriksen, Jakob Lund (Recipient), 18 Dec 2020
Prize: Research, education and innovation prizes