Hybrid Systems
Hybrid systems are networks of interacting digital and analog devices. Control systems for inherently unstable aircraft and computer aided manufacturing are typical applications for hybrid systems, but due to the rapid development of processor and circuit technology modern cars and consumer electronics use software to control physical processes. The identifying characteristic of hybrid systems is that they incorporate both continuous components governed by differential equations and also digital components - digital computers, sensors, and actuators controlled by programs. This volume of invited refereed papers is inspired by a workshop on the Theory of Hybrid Systems, held at the Technical University, Lyngby, Denmark, in October 1992, and by a prior Hybrid Systems Workshop, held at Cornell University, USA, in June 1991, organized by R.L. Grossman and A. Nerode. Some papers are the final versions of papers presented at these workshops and some are invited papers from other researchers who were not able to attend these workshops.
1101632243
Hybrid Systems
Hybrid systems are networks of interacting digital and analog devices. Control systems for inherently unstable aircraft and computer aided manufacturing are typical applications for hybrid systems, but due to the rapid development of processor and circuit technology modern cars and consumer electronics use software to control physical processes. The identifying characteristic of hybrid systems is that they incorporate both continuous components governed by differential equations and also digital components - digital computers, sensors, and actuators controlled by programs. This volume of invited refereed papers is inspired by a workshop on the Theory of Hybrid Systems, held at the Technical University, Lyngby, Denmark, in October 1992, and by a prior Hybrid Systems Workshop, held at Cornell University, USA, in June 1991, organized by R.L. Grossman and A. Nerode. Some papers are the final versions of papers presented at these workshops and some are invited papers from other researchers who were not able to attend these workshops.
54.99 In Stock
Hybrid Systems

Hybrid Systems

Overview

Hybrid systems are networks of interacting digital and analog devices. Control systems for inherently unstable aircraft and computer aided manufacturing are typical applications for hybrid systems, but due to the rapid development of processor and circuit technology modern cars and consumer electronics use software to control physical processes. The identifying characteristic of hybrid systems is that they incorporate both continuous components governed by differential equations and also digital components - digital computers, sensors, and actuators controlled by programs. This volume of invited refereed papers is inspired by a workshop on the Theory of Hybrid Systems, held at the Technical University, Lyngby, Denmark, in October 1992, and by a prior Hybrid Systems Workshop, held at Cornell University, USA, in June 1991, organized by R.L. Grossman and A. Nerode. Some papers are the final versions of papers presented at these workshops and some are invited papers from other researchers who were not able to attend these workshops.

Product Details

ISBN-13: 9783540573180
Publisher: Springer Berlin Heidelberg
Publication date: 11/05/1993
Series: Lecture Notes in Computer Science , #736
Edition description: 1993
Pages: 476
Product dimensions: 8.50(w) x 10.98(h) x 0.04(d)

Table of Contents

Verifying hybrid systems.- An extended duration calculus for hybrid real-time systems.- Towards refining temporal specifications into hybrid systems.- Hybrid systems in TLA+.- Hybrid models with fairness and distributed clocks.- A compositional approach to the design of hybrid systems.- An approach to the description and analysis of hybrid systems.- Integration Graphs: A class of decidable hybrid systems.- Hybrid automata: An algorithmic approach to the specification and verification of hybrid systems.- Hybrid Systems: the SIGNAL approach.- A dynamical simulation facility for hybrid systems.- Event identification and intelligent hybrid control.- Multiple agent hybrid control architecture.- Models for hybrid systems: Automata, topologies, controllability, observability.- Some remarks about flows in hybrid systems.- Hybrid system modeling and autonomous control systems.- Fault accommodation in feedback control systems.- On formal support for industrial-scale requirements analysis.- A formal approach to computer systems requirements documentation.
From the B&N Reads Blog
Page 1 of

Related Subjects

Computers
Computers - General & Miscellaneous
General & Miscellaneous Computing
Computers
Computers - General & Miscellaneous
General & Miscellaneous Computing

Customer Reviews