Fitzpatrick Institute for Photonics Fitzpatrick Institute for Photonics
Pratt School of Engineering
Duke University

 HOME > pratt > FIP    Search Help Login pdf version printable version 

Martin A. Brooke, Associate Professor of Electrical & Computer Engineering

Martin A. Brooke

Martin A. Brooke received the B.E. (Elect.) Degree (1st. Class Hons.) from Auckland University in New Zealand in 1981. He received the M.S. and Ph. D. in Electrical Engineering from The University of Southern California in 1984, and 1988, respectively. He is currently an Associate Professor of Electrical Engineering at Duke University. Professor Brooke was an Analog Devices Career development award recipient from 1988-1993, won a National Science Foundation Research Initiation Award in 1990, the 1992 IEEE Midwest Symposium on Circuits and Systems, Myril B. Reed Best Paper Award, and the Georgia Tech Outstanding Thesis Advisor Award in 2003. He has graduated twenty three PhD students from his research group and has six U.S. patents awarded. He has published more than 120 articles in technical Journals and Proceedings, and articles on his work have appeared in several trade publications. Dr. Brooke is a senior member of the IEEE.

Contact Info:
Office Location:  3581 CIEMAS
Office Phone:  (919) 660-5252
Email Address: send me a message
Web Pages:  http://www.ee.duke.edu/~mbrooke/
https://www.ee.duke.edu/mbrookewiki/

Teaching (Fall 2014):

  • ECE 495.02, SPECIAL TOPICS Synopsis
    SEE INSTRU, TuTh 10:05 AM-11:20 AM
Education:

PhDUniversity of Southern California1988
MSEEUniversity of Southern California1982
BSEEUniversity of Auckland, New Zealand1981
Specialties:

Integrated Analog CMOS Circuit Design
Integrated Nanoscale Systems
Mixed Signal VLSI Design
Sensing and Sensor Systems
Optical imaging
Analog and Power Electronics
Microsystems
Electronic Circuit Assembly and Testing
Communications, Optical
Research Interests: Analog-Digital Integrated Circuit Design; Sensor Systems

Current projects: Integrated Wireless Pulse Oximeter, Low voltage Electrophoresis on an Integrated Circuit, Nano scale imaging technology, Compact Sensor on a Chip systems

Professor Brooke's expertise is in multi-disciplinary, team-oriented collaborative research involving co-design and co-development of hybrid analog, digital, and optoelectronic information processing systems. He has conducted a research program in applications for ultra-compact optical sensors, short-haul and in-home optical data communications, real-time control, cost effective high performance and optoelectronic packaging, and predictive and statistical modeling of RF and optoelectronic passive and active components and circuits suitable for use in circuit design environments such as HSPICE and HPADS. Dr. Brooke's research enables both undergraduate and graduate students to design, build, and test integrated circuits and associated support circuitry (over 50 designs so far) that get used by our collaborators for such exotic purposes as chemical analysis and jet turbine combustion control.

Areas of Interest:

Analog Integrated Circuits
Mixed Signal Integrated Circuits
RF Test and measurement
Sensor design and test
Wireless Sensor design
Photonic Sensor design
Analog Circuit Design
RF Circuit Design
Microwave Circuit Design

Keywords:

Analog Integrated Circuits • Mixed Signal Integrated Circuits • RF Test and measurement • Sensor design and test • Wireless Sensor design • Photonic Sensor design • Analog Circuit Design • Circuit Design • RF Circuit Design • Microwave Circuit Design

Curriculum Vitae
Current Ph.D. Students  

  • Heather Wake  
  • Xin Cai  
  • Arnak Aleksanyan  
Recent Publications   (More Publications)   (search)

  1. N. M. Jokerst and M. A. Brooke and S. Y. Cho and A. B. Shang, Chip-Scale Sensor System Integration for Portable Health Monitoring, Anesthesia And Analgesia, vol. 105 (December, 2007), pp. S42 -- S47, ISSN 0003-2999  [abs]
  2. Kim, D.D. and Brooke, M.A., Scalable delta-sigma modulator readout architecture for array-based sensor system, 2006 IEEE International Symposium on Circuits and Systems (IEEE Cat. No. 06CH37717C) (2006), pp. 4 pp. -, Island of Kos, Greece  [abs]
  3. Liu, Fang and Ozev, Sule and Brooke, Martin, Identifying the source of BW failures in high-frequency linear analog circuits based on S-parameter measurements, IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, vol. 25 no. 11 (2006), pp. 2594 - 2605 [TCAD.2006.871619]  [abs]
  4. Wake, H.A. and Kim, D.D. and Brooke, M.A., Mixed-signal implementation of a nonlinear decoder for delta-sigma encoded stream, 2006 IEEE International Symposium on Circuits and Systems (IEEE Cat. No. 06CH37717C) (2006), pp. 4 pp. -, Island of Kos, Greece  [abs]
  5. Jokerst, N.M. and Brooke, M.A. and Cho, S. and Thomas, M. and Lillie, J. and Kim, D. and Ralph, S. and Dennis, K. and Comeau, B. and Henderson, C., Integrated planar lightwave bio/chem OEIC sensors on Si CMOS circuits, Progress in Biomedical Optics and Imaging - Proceedings of SPIE, vol. 5730 (2005), pp. 226 - 233, San Jose, CA, United States [12.592771]  [abs]
Selected Grant Support

  • Nanoscale Particle Imaging using Near-Field Subwavelength Measurements in a 3-D Cylindrical Array of Nanometer Sized Probes, National Science Foundation.      


Duke University * Pratt * Reload * Login