Publications
Self paced brain computer interface (SBCI) using movement related cortical potentials. 28. Danske Medicotekniske Landsmøde, 21.-23. September 2010, Brædstrup, Danmark. Dansk Medicoteknisk Selskab.
. (2010). Robustness of movement detection techniques from motor execution: Single trial movement related cortical potential. In Neural Engineering (NER), 2015 7th International IEEE/EMBS Conference on (pp. 13–16). IEEE.
. (2015). Robustness of Frequency Division Technique for Online Myoelectric Pattern Recognition Against Contraction Level Variation. Frontiers in bioengineering and biotechnology, 5, 3. Frontiers.
. (2017). Reply from Dario Farina, Francesco Negro and Ning Jiang. The Journal of physiology, 592, 251–252. The Physiological Society.
. (2014). Movement Related Cortical Potentials and Sensory Motor Rhythms during Self Initiated and Cued Movements.
. (2014). Replace, Repair, Restore, Relieve -- Bridging Clinical and Engineering Solutions in Neurorehabilitation: Proceedings of the 2nd International Conference on NeuroRehabilitation (ICNR2014), Aalborg, 24-26 June, 2014. Retrieved from http://dx.doi.org/10.1007/978-3-319-08072-7_42
. (2014). Rehabilitation Using a Brain Computer Interface Based on Movement Related Cortical Potentials–A Review. In XIII Mediterranean Conference on Medical and Biological Engineering and Computing 2013 (pp. 1659–1662). Springer International Publishing.
. (2014). (Submitted). Real time simultaneous and proportional control of multiple degrees of freedom from surface EMG: preliminary results on subjects with limb deficiency. In 2012 Annual International Conference of the IEEE Engineering in Medicine and Biology Society (pp. 1346–1349). IEEE.
. (2012). A Note on the Signal-to-noise Ratio of Myo-electric Channel.
. (2008). Review: Movement related cortical potential based brain computer interface for rehabilitation.
. (2013). A Computational Model of Nerve Signal Detection and Recognition During Voluntary Muscle Contractions.
. (2008). EMGSIM: A Comprehensive Simulation Toolbox for Electromyograph.
. (2008). Correlation and common drive in motor units.
. (2004). An ambulatory BCI-driven orthosis for stroke rehabilitation.
. (2013). The potential of imagination and artificial afference in stroke rehabilitation. In Symposium on Neural Network Applications in Electrical Engineering, NEUREL.
(Submitted). The potential of imagination and artificial afference in stroke rehabilitation. In Neural Network Applications in Electrical Engineering (NEUREL), 2012 11th Symposium on (pp. 115–117). IEEE.
(2012). Motor Unit Characteristics after Targeted Muscle Reinnervation. Retrieved from http://dx.doi.org/10.1371%2Fjournal.pone.0149772
. (2016). Plasticity following skilled learning and the implications for BCI performance. In International Brain-Computer Interface Conference, BCI.
. (Submitted). Myoelectric control of artificial limb inspired by quantum information processing. Retrieved from http://stacks.iop.org/1402-4896/90/i=3/a=035001
. (2015).