Close Menu


D. Phil, Oxford University, England
B.Sc. (Electrical Engineering), University of the West Indies, Trinidad and Tobago
(876) 927-1640
(876) 970-1964

Haniph August Latchman was born on September 3, 1959 in St. Catherine Jamaica West Indies. He obtained a B.Sc. (1st Class Honors) degree in Electrical Engineering from the University of the West Indies in Trinidad and Tobago in 1981 and a D.Phil. in Engineering from Oxford University in 1986.

Dr. Latchman’s first professional association was with the Jamaica Telephone Company (now known as Cable and Wireless Jamaica) in Kingston Jamaica, where he was a transmission engineer responsible for microwave and fiber optic inter-exchange circuit design, specification, installation and commissioning. In 1983, while still employed to the Jamaica Telephone Company, he was awarded a Rhodes Scholarship to Oxford University where he began his doctoral research program in Systems and Control. In 1986 after completing his D.Phil. at Oxford, Dr. Latchman joined the faculty of the Electrical Engineering Department at the University of Florida, where he began teaching and conducting research in the areas of Systems and Control and Communications. Since that time Dr. Latchman has directed 24 Ph.D. dissertations and 32 M.S. Thesis projects and has taught graduate and undergraduate Electrical Engineering core courses in Circuits, Signals and Systems, Controls, Digital Signal Processing,Communications and Engineering Mathematics. He has received numerous teaching awards from student organizations, the Department of Electrical and Computer Engineering, the College of Engineering as well as the University of Florida. He was selected as the University of Florida Teacher of the Year in 1998 and was named a 2000 Boeing Welliver Faculty Fellow. He also received two Teaching Improvement Program Awards in 1993 and 1998 from the State of Florida which carried a $5,000.00 base salary increase. Dr. Latchman was also named the recipient of the prestigious IEEE 2000 Undergraduate Teaching Award with the citation “for innovative and inspirational teaching and advancing the use of information technology in education.” In addition he received Fulbright Fellowships in 2001 to the Czech Republic and to Brazil in 2013/14.

Dr. Latchman is the Director of the Laboratory for Information Systems and Telecommunications (LIST) and co-Director of the Research Laboratory for Control System and Avionics (RLCSA). His technical research centers around robustness issues in multivariable system analysis and design, as well as on wireless and powerline communications and networks for the support of multimedia. Beginning with his Doctoral research at Oxford, Dr. Latchman developed key results in the use of singular value methods in assessing the stability of uncertain multivariable systems in the frequency domain. Together with his collaborators at the University of Florida, Dr. Latchman developed the Critical Direction Theory which essentially extends the classical idea of a critical point to include a critical line which is shown to be crucial when there are system uncertainties. In the communication and networks area, Dr. Latchman and his students have developed several systems theoretic approaches to congestion and admission control for high speed networks, as well as performance bounds for multi-level modulation schemes in MMSE receiver-based CDMA systems with power control. He has also developed efficient Medium Access Control (MAC) protocols for Powerline Communication Networks. Dr. Latchman along with his graduate students and collaborators have were significant contributions to the Homeplug group of PLC specifications which became the major component for the IEEE 1901 Standard for High Speed Powerline Communications.

Since 1997 Dr. Latchman has become actively involved in the use of computer, communication and information technology to enhance the learning experience for traditional on-campus students as well as in distance education. In 1997 he received a grant for the Alfred P. Sloan Corporation to develop an online MS degree program in Electrical Engineering. In this effort Dr. Latchman pioneered the use of synchronized streaming media in a system called “Lectures on Demand in Asynchronous Learning Networks (ALNs)”. The success of this program led to the award of University of Florida grant to offer junior and senior level courses via the Internet, towards an online BS degree in Electrical Engineering using the Lectures on Demand in ALN approach. The results of that research demonstrated that the quality of traditional on campus learning in terms of student-to-student and student-to-instructor interaction has increased with the use of the ALN methods.

Dr. Latchman has also taught and conducted research as a visiting faculty member at a number of international universities including the University of the West Indies, Oxford University, University of Bolgna, Stanford University, Ecole Polytechnique Federal de Lausanne, Jamaica University of Technology, the Czech Technical University and various Universities in Brazil, including the Federal University of Juiz de Fora in Minas Gerais..

Dr. Latchman is a Director and Co-founder of Jamaica Online Information Systems Ltd., and Qualitech Computer Services, and has consulted on communication, networks Internet and related matters for Intellon Corporation (Ocala Florida), the Trinidad and Tobago Publishing Company, Protocol Systems Inc. (Pennsylvania USA), CVM Television (Kingston Jamaica) and several other information technology companies. Dr. Latchman has also consulted as an expert witness on Internet and communication technology issues in United States Federal and State courts.

Dr. Latchman is a Senior Member of the IEEE and has published more that 180 research articles in prestigious international archival publications and has given numerous conference presentations in the areas of his research in multivariable and computer control systems, communications and internetworking and innovative educational technologies. He is also the author of the books Computer Communication Networks and the Internet, published by McGraw Hill and Linear Control Systems – a First Course, published by John Wiley, as well as the book HomePlug AV and IEEE 1901 - A Handbook for PLC Designers and Users, published by IEEE/Wiley. He has also served as Guest Editor for the International Journal of Nonlinear and Robust Control, the IEEE Communications Magazine and the International Journal on Communications.

Dr. Latchman’s current research interests include Broadband Powerline Communications for High Speed and Multimedia System, Wireles and Powerline Communication Systems and Networks with Applications to Smartgrids, and IP Telecoms and Global Scale Streaming Video; Analysis and Design of Multivariable Systems in the Presence of Uncertainties, Robust Control Systems, non-linear systems and systems with delays; the Scholarship of Teaching and Learning with applications to Engineering Education.



  • Haniph A. Latchman, Srinivas Katar, Larry Yonge and Sherman Gavette, “HomePlug AV and IEEE 1901 – A Handbook for PLC Designers and Users”, Pages 1-389, IEEE Press / Wiley, 2013
  • H. Latchman Jung Eun Son and Kartikeya Tripathi, “Control Systems Analysis and Design – A Laboratory Manual and Handbook”, ISBN 0-470-08217-8 John Wiley & Sons, May, 2006
  • H. Latchman, "Linear Control Systems — A First Course", ISBN # 0471-38783-5, Pages 1-205, John Wiley & Sons, 1999.
  • H. Latchman, "Computer Communication Networks and the Internet", ISBN 0-07-033952-4, Pages 1-223, McGraw Hill 1997. 

Journal Publications

  • Haniph A. Latchman, Stefano Galli, and Larry Yonge, “Multimedia Powerline Communication Systems”, POWER LINE COMMUNICATIONS - Theory and Applications for Narrowband and Broadband Communications Over Power Lines, 2nd Ed, 20 pages, John Wiley, to appear.
  • Amarsingh, A, H. Latchman,D.Yang H.Latchman, “Narrowband Power Line Communications: Enabling the Smart Grid”, IEEE Potentials Magazine Vol 33 Issue 1, pages 16-21, 2014 .
  • Amarsingh, A, H. Latchman,D.Yang H.Latchman, “Design and Return on Investment Analysis of Residential Solar Photovoltaic Systems”, 6 pages, IEEE Potentials Magazine, to appear
  • Carlton Andre Thompson, Haniph A. Latchman, Nathan Angelacos, Bharath Kumar Pareek , “A Distributed Ip-Based Telecommunication System Using Sip” International Journal of Computer Networks & Communications (IJCNC) Vol.5, No.6, pp 121-136, November 2013
  • Sunguk Lee, Haniph A. Latchman, Byungjoo Park “Efficient Handover Scheme of Proxy Mobile IPv6 in Wireless Local Area Networks” International Journal of Multimedia and Ubiquitous Engineering, Vol 5. No. 2, pp 21-38, 2010
  • Kyoungnam Seo* and Haniph Latchman, “Joint Transceiver Optimization in MC-CDMA Systems," IEICE Transactions on Communications, Vol. E92-B No. 98, pp 2675-2683, 2010 

Refereed Conference Publications

  • Gautham Prasad*, Haniph A. Latchman*, Youngjoon Lee*, Weiler A. Finamore, “A Comparative Performance Study of LDPC and Turbo Codes for Realistic Powerline Communication Channels” proceedings of the IEEE International Symposium on Power line Communications and its Applications, pp 202-207, Glasgow, Scotland, pp 202-207, 2014
  • Latchman, H, S.Katar, L. Yonge and A. Amarsingh, “High Speed Multimedia and Smart Energy Applications Based on Adaptations of HomePlug AV” proceedings of the IEEE International Symposium on Power line Communications and its Applications, pp 143-148, Johannesburg, South Africa, March 2013
  • Youngjoon Lee, Hyunseok Ha, Mintae Hwang, and Haniph A. Latchman, “QoS Augmented CSMA/CA MAC Protocol for High Speed Multimedia Powerline Communications,” Proceedings of IEEE International Symposium on Power Line Communications and Its Applications (ISPLC), pp. 236-241, Beijing, China, Mar. 2012.
  • Evan Kriminger* and Haniph Latchman, “Markov Chain Model of HomePlug CSMA MAC for Determining Optimal Fixed Contention Window Size”, Proceedings of the IEEE International Symposium on Power Line Communications, pp 399-404, Udine, Italy, April 2011.
  • Youngjoon Lee*, Mintae Hwang, and Haniph A. Latchman, “Competing Solutions for Multimedia Home Networking,” Proceedings of IIIS International Multi-Conference on Complexity, Informatics and Cybernetics (IMCIC), pp. 32-37, Mar. 2011.
Control Systems, Communications and Computer Networks
Courses Taught: 
ELET2460: Signals & System
ELET2480: Modern Communications
ECSE2106: Signals and Linear Systems
MATH2230: Engineering Mathematics II
ECSE2208: Analogue & Digital Communication Systems
ECSE2209: Control System Engineering
Staff Category: 
Top of Page