Supervisory Control Theory (SCT) provides a tool to model and control human-engineered complex systems, such as computer networks, World Wide Web, identification and spread of malicious executables, and command, control, communication, and information systems. Although there are some excellent monographs and books on SCT to control and diagnose discrete-event systems, there is a need for a research monograph that provides a coherent quantitative treatment of SCT theory for decision and control of complex systems. This new monograph will assimilate many new concepts that have been recently reported or are in the process of being reported in open literature. The major objectives here are to present a) a quantitative approach, supported by a formal theory, for discrete-event decision and control of human-engineered complex systems; and b) a set of applications to emerging technological areas such as control of software systems, malicious executables, and complex engineering systems. The monograph will provide the necessary background materials in automata theory and languages for supervisory control. It will introduce a new paradigm of language measure to quantitatively compare the performance of different automata models of a physical system. A novel feature of this approach is to generate discrete-event robust optimal decision and control algorithms for both military and commercial systems.
|Publisher:||Springer New York|
|Product dimensions:||6.10(w) x 9.25(h) x 0.02(d)|
About the Author
Dr. Asok Ray, Distinguished Professor of Mechanical Engineering, Pennsylvania State University. Previously worked at Carnegie Mellon University, Massachusetts Institute of Technology, Charles Stark Draper Laboratory, and MITRE. Fellow of IEEE; Fellow of ASME; Associate Fellow of AIAA; Professional Engineer. Editor of IEEE Transactions on Aerospace and Electronic Systems; Editorial Board Member, Advances in Industrial Control Series, Springer-Verlag, London; Associate editor of IEEE Transactions on Control Systems Technology; Associate Editor, The International Journal of Structural Health Monitoring (IJSHM); Associate Editor, International Journal of Flexible Manufacturing Systems; Past Associate Editor, ASME Journal of Dynamic Systems, Measurement, and Control (1992-1995). Author of over 350 research publications and book chapters including a Springer-Verlag, London monograph, Intelligent Seam Tracking for Robotic Welding (1993). More details are available at http://www.me.psu.edu/Ray/.
Dr. Vir V. Phoha, Associate Professor of Computer Science in the College of Engineering and Science at Louisiana Tech University. Has won various distinctions including outstanding research faculty and faculty circle of excellence award at Northeastern State University, Oklahoma, and as a student was awarded President’s Gold medal for academic distinction. Author of over 35 publications and author of two books: (1) Internet Security Dictionary, Springer-Verlag (2002) and (2) Foundations of Wavelet Networks and Applications, CRC Press/Chapman Hall (2002).
Dr. Shashi Phoha, Director of Information Science and Technology Division at the Applied Research Laboratory and Professor of Electrical and Computer Engineering, Pennsylvania State University. Founder and Director of a University/Industry consortium for establishing a National Information Infrastructure Interoperability Testbed, funded by DARPA. Member of the Board of Directors of the International Consortium CERES Global Knowledge Network, along with representatives of thirteen other international universities. On the Board of Directors of Autonomous Undersea Vehicle Technology Consortium for International Cooperation Between Research, Technology, Industry and Applications. Panelist on the National Information Infrastructure Standards Panel (ANSI). Author of over 150 scholarly articles and book chapters. M.S. Cornell University, Ph.D. Michigan State University.
Table of ContentsTheory of Language Measure and Supervisory Control.- Signed Real Measure of Regular Languages.- Optimal Supervisory Control of Regular Languages.- Robust Optimal Control of Regular Languages.- Advanced Topics in Supervisory Control.- Engineering and Software Applications of Language Measure and Supervisory Control.- Discrete Event Supervisory Control of a Mobile Robotic System.- Optimal Control of Robot Behavior Using Language Measure.- Optimal Discrete Event Control of Gas Turbine Engines.- Supervisory Control of Software Systems.- Supervisory Control of Malicious Executables in Software Processes.