The LNCS series reports state-of-the-art results in computer science research, development, and education, at a high level and in both printed and electronic form. Enjoying tight cooperation with the R&D community, with numerous individuals, as well as with prestigious organizations and Societies, LNCS has grown into the most comprehensive computer science research forum available.
The scope of LNCS, including its sub series LNAI, spans the whole range of computer science and information technology including interdisciplinary topics in a variety of application fields. The type of material published traditionally includes
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【目录】
Abstracts of Invited Presentations
Control as an Embedded Technology
Optimisation of Hybrid Processes and Hybrid Controllers
Embedded Software and Systems: Challenges and Approaches
Panel Discussion
Hybrid Systems Applications: An Oxymoron?
Papers
Design of Luenberger Observers for a Class of Hybrid Linear Systems
Hybrid Modeling and Simulation of Bimolecular Networks
Compositional Refinement for Hierarchical Hybrid Systems
Optimal Paths in Weighted Timed Automata
Reach Set Computations Using Real Quantifier Elimination
On Hybrid Control of Under-Actuated Mechanical Systems
On the Decidability of the Reach ability Problem for Planar Differential Inclusions
The Substratum of Impulse and Hybrid Control Systems'
Path-Dependent Impulse and Hybrid Systems
Hybrid Feedback Control for Path Tracking by a Bounded-Curvature Vehicle
The Substratum of Impulse and Hybrid Control Systems
Path-Dependent Impulse and Hybrid Systems
Hybrid Feedback Control for Path Tracking by a Bounded-Curvature
Minimum-Cost Reach ability for Priced Timed Automata
A Hybrid Approach to Traction Control
Optimal Control Using Bisimulations: Implementation
A Generalized Approach for Analysis and Control of Discrete-Time
Piecewise Affline and Hybrid Systems
Accurate Event Detection for Simulating Hybrid Systems
A Clustering Technique for the Identification of Pieeewise Affine System
Lateral Inhibition through Delta-Notch Signaling: A Piecewise Affine Hybrid Model
Supervision of Event-Driven Hybrid Systems: Modeling and Synthesis
Control of Pieeewise-Linear Hybrid Systems on Simplices and Rectangles
Assume-Guarantee Reasoning for Hierarchical Hybrid Systems
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