Imperial College London

DrDeren YusufBarsakcioglu

Faculty of EngineeringDepartment of Bioengineering

Research Associate







U421Building E - Sir Michael UrenWhite City Campus





Dr Deren Barsakcioglu is a research associate at Department of Bioengineering at Imperial College London. He received B.Sc. degree in Electrical and Computer Engineering from University of Texas at Austin, and M.Sc. in Analogue and Digital Integrated Circuit Design at Imperial College London in 2010 and 2011, respectively. He later joined Next Generation Neural Interfaces research group at Imperial College where he received his PhD in biomedical circuits and systems in 2016.

Following his PhD, Dr Barsakcioglu was awarded EPSRC Doctoral Prize Fellowship and worked as a Research Associate in Next Generation Neural Interfaces research group at the Department of Electrical and Electronic Engineering. In October 2017, he joined Farina Group at Department of Bioengineering where he currently carries out research on neural signal processing for spike sorting and electrophysiological decoding of human movements in upper limb prosthesis control.

Dr Barsakcioglu's main research interest is developing technologies for human-machine interfacing. His research focuses on biomedical signal processing, machine learning and real-time embedded systems.



Mendez Guerra I, Barsakcioglu DY, Vujaklija I, et al., 2022, Far-field electric potentials provide access to the output from the spinal cord from wrist-mounted sensors, Journal of Neural Engineering, Vol:19, ISSN:1741-2552

Eden J, Bräcklein M, Ibáñez J, et al., 2022, Principles of human movement augmentation and the challenges in making it a reality, Nature Communications, Vol:13, ISSN:2041-1723

Puttaraksa G, Muceli S, Barsakcioglu DY, et al., 2022, Online tracking of the phase difference between neural drives to antagonist muscle pairs in essential tremor patients, Ieee Transactions on Neural Systems and Rehabilitation Engineering, Vol:30, ISSN:1534-4320, Pages:709-718

Bräcklein M, Ibáñez J, Barsakcioglu DY, et al., 2021, The control and training of single motor units in isometric tasks are constrained by a common synaptic input signal

Braecklein M, Ibanez J, Barsakcioglu DY, et al., 2021, Towards human motor augmentation by voluntary decoupling beta activity in the neural drive to muscle and force production, Journal of Neural Engineering, Vol:18, ISSN:1741-2560

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