Research Interests

Dr. Kovacs is an Associate Professor of Electrical Engineering at Stanford University with a courtesy appointment in the Department of Medicine. He received a BASc degree in Electrical Engineering from the University of British Columbia, an MS degree in Bioengineering from the University of California, Berkeley, and a PhD and an MD degree from Stanford University. His present research areas include biomedical instruments and sensors, miniaturized spaceflight hardware, and biotechnology. In addition, Dr. Kovacs is the Director of Medical Device Technologies for the Astrobionics Program at the NASA Ames Research Center, and for the Stanford-NASA National Biocomputation Center. He helps direct a variety of projects spanning wearable physiologic monitors, biosensor instruments for detection of chemical and biological warfare agents and space biology applications, and free-flyer experiment payloads.

He has published extensively in technical literature, including authorship of a popular engineering textbook. He is a long-standing member of the Defense Sciences Research Council (DARPA), and has served as Associate Chair and Chairman. He also has extensive industry experience including co-founding several companies, most recently Cepheid in Sunnyvale, CA, supplier of advanced instrumentation for nucleic acid diagnostics. He received an NSF Young Investigator Award, held the Noyce Family Chair, and was a Terman and then University Fellow at Stanford. He is a Fellow of the American Institute for Medical and Biological Engineering. Dr. Kovacs is a private pilot, scuba diver, and a Fellow National of the Explorers Club.

He has considerable field experience, including a successful expedition to Palau in 2000 to locate and document downed WW II aircraft in various underwater and jungle locations. Later that year, he led a team of Stanford researchers with the U.S. Marine Corps at 29 Palms, CA, for a successful field test of a portable biological toxin detection system developed in his laboratory. Through the DSRC, he has also participated in numerous military activities. He is currently involved in hands-on field testing of NASA wearable monitors in high altitude conditions, with several field tests completed in 2003. He was a member of a NASA and National Geographic Society sponsored team that climbed Licancabur volcano (19,734 ft.) on the Chile/Bolivia border in November of 2003, serving as medical, physiologic research, and photography lead.

He recently served as the Investigation Scientist for the debris team of the Columbia Accident Investigation Board, having worked for the first four months after the accident at the Kennedy Space Center, Florida. In this role, he carried out physical, photographic, x-ray, chemical and other analyses on selected items from the nearly 90,000 pounds of recovered debris and worked toward understanding the nature of the accident.

Representative Publications

	Aravanis AM, DeBusschere BD, Chruscinski AJ, Gilchrist KH, Kobilka BK, Kovacs GT. A genetically engineered cell-based biosensor for functional classification of agents. Biosens Bioelectron. 2001 Sep;16(7-8):571-7.
	Gilchrist KH, Barker VN, Fletcher LE, DeBusschere BD, Ghanouni P, Giovangrandi L, Kovacs GT. General purpose, field-portable cell-based biosensor platform. Biosens Bioelectron. 2001 Sep;16(7-8):557-64.
	DeBusschere BD, Kovacs GT. Portable cell-based biosensor system using integrated CMOS cell-cartridges. Biosens Bioelectron. 2001 Sep;16(7-8):543-56.
	Borkholder DA, Bao J, Maluf NI, Perl ER, Kovacs GT. Microelectrode arrays for stimulation of neural slice preparations. J Neurosci Methods. 1997 Nov 7;77(1):61-6.
	Kane BJ, Storment CW, Crowder SW, Tanelian DL, Kovacs GT. Force-sensing microprobe for precise stimulation of mechanosensitive tissues. IEEE Trans Biomed Eng. 1995 Aug;42(8):745-50.
	Kovacs GT, Storment CW, Halks-Miller M, Belczynski CR Jr, Della Santina CC, Lewis ER, Maluf NI. Silicon-substrate microelectrode arrays for parallel recording of neural activity in peripheral and cranial nerves. IEEE Trans Biomed Eng. 1994 Jun;41(6):567-77.
	Kovacs GT, Storment CW, Rosen JM. Regeneration microelectrode array for peripheral nerve recording and stimulation. IEEE Trans Biomed Eng. 1992 Sep;39(9):893-902. Review.
	Liang DH, Kovacs GT, Storment CW, White RL. A method for evaluating the selectivity of electrodes implanted for nerve simulation. IEEE Trans Biomed Eng. 1991 May;38(5):443-9.

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