04920nam a22005895i 4500001001800000003000900018005001700027007001500044008004100059020001800100024003100118050001500149050001400164050001200178072001500190072001600205072002300221072002300244082002000267245022800287264006100515300003700576336002600613337002600639338003600665347002400701490005800725505157600783520131102359650002203670650003003692650002003722650002903742650003103771650002503802650001403827650001803841650002203859650003703881650004603918650001303964650003903977650001604016650003704032700003404069700003504103710003404138773002004172776003604192830005804228856004404286978-3-540-48983-2DE-He21320170515111508.0cr nn 008mamaa121227s1999 gw | s |||| 0|eng d a97835404898327 a10.1007/3-540-48983-52doi 4aQA76.9.L63 4aQA76.5913 4aQA76.63 7aUM2bicssc 7aUYF2bicssc 7aCOM0510002bisacsh 7aCOM0360002bisacsh04a005.101511322310aHybrid Systems: Computation and Controlh[electronic resource] :bSecond International Workshop, HSCC’99 Berg en Dal, The Netherlands, March 29–31, 1999 Proceedings /cedited by Frits W. Vaandrager, Jan H. van Schuppen. 1aBerlin, Heidelberg :bSpringer Berlin Heidelberg,c1999. aCCXCII, 282 p.bonline resource. atextbtxt2rdacontent acomputerbc2rdamedia aonline resourcebcr2rdacarrier atext filebPDF2rda1 aLecture Notes in Computer Science,x0302-9743 ;v15690 aSACRES: A Step Ahead in the Development of Critical Avionics Applications -- Approximating Hybrid System Dynamics for Analysis and Control -- High-Level Modeling and Analysis of an Air-Traffic Management System -- Geometric Categories, O-Minimal Structures and Control -- Polyhedral Flows in Hybrid Automata -- As Soon as Possible: Time Optimal Control for Timed Automata -- Verification of Hybrid Systems via Mathematical Programming -- Orthogonal Polyhedra: Representation and Computation -- A Geometric Approach to Bisimulation and Verification of Hybrid Systems -- Verification of Polyhedral-Invariant Hybrid Automata Using Polygonal Flow Pipe Approximations -- Path Planning and Flight Controller Scheduling for an Autonomous Helicopter -- Reachability Analysis Using Polygonal Projections -- Scale-Independent Hysteresis Switching -- Well-Posedness of a Class of Piecewise Linear Systems with No Jumps -- A New Class of Decidable Hybrid Systems -- Synthesis of Control Software in a Layered Architecture from Hybrid Automata -- An Overview of Hybrid Simulation Phenomena and Their Support by Simulation Packages -- Building Hybrid Observers for Complex Dynamic Systems Using Model Abstractions -- Integration of Analog and Discrete Synchronous Design -- Reachability Analysis of a Class of Switched Continuous Systems by Integrating Rectangular Approximation and Rectangular Analysis -- Refinement and Continuous Behaviour -- Computing Controllers for Nonlinear Hybrid Systems -- Stabilization of Orthogonal Piecewise Linear Systems: Robustness Analysis and Design. aThis volume contains the proceedings of the Second International Workshop on Hybrid Systems: Computation and Control (HSCC’99) to be held March 29- 31, 1999, in the village Berg en Dal near Nijmegen, The Netherlands. The rst workshop of this series was held in April 1998 at the University of California at Berkeley. The series follows meetings that were initiated by Anil Nerode at Cornell University. The proceedings of those meetings were published in the Springer-Verlag LNCS Series, Volumes 736, 999, 1066, 1201, and 1273. The p- ceedings of the rst workshop of the new series was published in LNCS 1386. The focus of the workshop is on modeling, control, synthesis, design, and ve- cation of hybrid systems. A hybrid system is a theoretical model for a computer controlled engineering system, with a dynamics that evolves both in a discrete state set and in a family of continuous state spaces. Research is motivated by, for example, control of electro-mechanical systems (robots), air tra c control, control of automated freeways, and chemical process control. The emerging - search area of hybrid systems overlaps both with computer science and with control theory. The interaction between researchers from these elds is expected to be fruitfull for the development of the area of hybrid systems. 0aComputer science. 0aComputer system failures. 0aComputer logic. 0aArtificial intelligence. 0aComplexity, Computational. 0aControl engineering. 0aRobotics. 0aMechatronics.14aComputer Science.24aLogics and Meanings of Programs.24aArtificial Intelligence (incl. Robotics).24aControl.24aSystem Performance and Evaluation.24aComplexity.24aControl, Robotics, Mechatronics.1 aVaandrager, Frits W.eeditor.1 aSchuppen, Jan H. van.eeditor.2 aSpringerLink (Online service)0 tSpringer eBooks08iPrinted edition:z9783540657347 0aLecture Notes in Computer Science,x0302-9743 ;v156940uhttp://dx.doi.org/10.1007/3-540-48983-5