Modelling, Analysis and Design of Hybrid Systems

Modeling.- What Is a Hybrid System?.- Description of Hybrid Systems by Modified Petri Nets.- Model Based Development of Hybrid Systems: Specification, Simulation, Test Case Generation.- Hybrid Modeling of Complex Process Control Function Blocks.- Discrete Models for Hybrid Systems.- Simulation.- An Environment for the Integrated Modelling of Systems with Complex Continuous and Discrete Dynamics.- A DEVS-Based Approach for Modeling and Simulation of Hybrid Variable Structure Systems.- Object-Oriented Development of Simulation Models for Complex Hybrid Systems.- Analysis and Verification.- to the Analysis and Verification of Hybrid Systems.- Reachability Analysis and Control of a Special Class of Hybrid Systems.- Performance Models for a Hybrid Reactor System.- Using Parameterized Timestamp Petri Nets in Automatic Control.- Compositional Verification of Continuous-Discrete Systems.- Abstraction Based Supervisory Controller Synthesis for High Order Monotone Continuous Systems.- Hybrid Reconfigurable Control.- Automatic Design of Controllers for Hybrid Systems Using Genetic Algorithms.- Synthesis of a Discrete Control for Hybrid Systems by Means of a Petri-Net-State-Model.- Nonlinear Hybrid Dynamical Systems: Modeling, Optimal Control, and Applications.- Generation of Optimal Control Policies for Systems with Switched Hybrid Dynamics.- Applications.- Definition of a Type of Continuous-Discrete High-Level Petri Nets and Its Application to the Performance Analysis of Train Protection Systems.- Simulation for Analysis of Aircraft Elevator Feedback and Redundancy Control.- Development of Hybrid Component Models for Online Monitoring of Complex Dynamic Systems.- Modelling and Simulation of Controlled Road Traffic.- Hybrid Control of Multi-fingered Dextrous Robotic Hands.