Biomedical Circuits and Systems, bioinspired electronic systems, low-power analog ASICs, sensors and related systems, asynchronous-digital ASICs and non-invasive prosthetics. The overlying goal of this research is to learn from biology to created more efficient electronic systems and to use state-of-the-art electronic systems to repair/enhance biological systems.
C. M. Andreou, S. Koudounas and J. Georgiou, “A Novel wide-temperature-range, 3.9 ppm/°C CMOS Bandgap Reference Circuit”, IEEE Journal of Solid-State Circuits, Vol. 47, No. 2 , pp. 574 – 581, February 2012
N. Nicolaou, S. Hourris, P. Alexandrou and J. Georgiou, “EEG-based Automatic Classification of 'Awake' versus 'Anesthetized' State in General Anesthesia Using Granger Causality”, PLoS ONE Vol. 7, Issue 3, March 2012, doi:10.1371/journal.pone.0033869
E. Kyriakides, S. Carrara, G. De Micheli and J. Georgiou, “A low-cost, CMOS compatible TaOx hemi-memristor for neuromorphic circuits”, IEE Electronics Letters, Vol. 48, No. 14, pp. 1451-1452, November 2012.
J. Georgiou and C. Toumazou ,“A 126-microWatt Cochlear Chip For a Totally Implantable System,” IEEE Journal of Solid-State Circuits, Vol. 40 , No. 2 , pp. 430 – 443, February 2005
Personal Website: http://www.ece.ucy.ac.cy/labs/holistic_elab
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