Synopses & Reviews
The International Workshop on Embedded Systems -- Modeling, Technology, and Applications is the seventh in a successful series of workshops that were established by Shanghai Jiao Tong University and Technische Universitat Berlin. The goal of those workshops is to bring together researchers from both universities in order to present research results to an international community. Successfully realizing Embedded Systems requires methods and tools from different disciplines. Formal specification techniques not only for the embedded system itself but also for the device and environment that is controlled by the embedded system are used for functional and non-functional properties (e.g. performance, real-time behavior). Formal models allow analyzing and optimizing those properties. Different methods and tools are used to design the required behavior of the system and finally to implement and test the system.
Aspects covered in this workshop are, among others,
- Models and specification
- Simulation of different properties
- Middleware for distributed real-time systems
- Signal Analysis
- Control methods
- Applications in airborne and medical systems.
Synopsis
This book synthesizes the results of the seventh in a successful series of workshops that were established by Shanghai Jiao Tong University and Technische Universität Berlin, bringing together researchers from both universities in order to present research results to an international community. Aspects covered here include, among others, Models and specification; Simulation of different properties; Middleware for distributed real-time systems; Signal Analysis; Control methods; Applications in airborne and medical systems.
Table of Contents
Committee; Preface; A Conceptual Model for Conformance, Compliance and Consistency, by Sebastian Bab and Bernd Mahr; Simulation and Animation of Visual Models of Embedded Systems: A Graph-Transformation-Based Approach Applied to Petri Nets, by Hartmut Ehrig, Claudia Ermel, and Gabriele Taentzer; Efficient Construction and Verification of Embedded Software, by Sabine Glesner; Embedded Systems Design Using Optimistic Distributed Simulation of Colored Petri Nets, by Michael Knoke, Dawid Rasinski, and Günter Hommel; Extended Reward Measures in the Simulation of Embedded Systems With Rare Events, by Armin Zimmermann; High Performance Low Cost Multicore NoC Architectures for Embedded Systems, by Dietmar Tutsch and Günter Hommel; An Analyzable On-Chip Network Architecture for Embedded Systems, by Daniel Lüdtke, Dietmar Tutsch, and Günter Hommel; Simulation-Based Testing of Embedded Software in Space Applications, by Sergio Montenegro, Stefan Jähnichen, and Olaf Maibaum; Evolving Specifications for Embedded Systems in the Automotive Domain, by André Metzner and Peter Pepper; Embedded Network Processor Based Parallel Intrusion Detection, by Hu Yueming; Embedded System Architecture of the Second Generation Autonomous Unmanned Aerial Vehicle MARVIN MARK II, by Volker Remuß, Marek Musial, Carsten Deeg, and Günter Hommel; Middleware for Distributed Embedded Real-Time Systems, by Marek Musial, Volker Remuß, and Günter Hommel; Development of an Embedded Intelligent Flight Control System for the Autonomously Flying Unmanned Helicopter Sky-Explorer, by Wang Geng, Sheng Huanye, Lu Tiansheng; Model Predictive Control with Application to a Small-Scale Unmanned Helicopter, by Du Jianfu, Lu Tiansheng, Zhang Yaou, Zhao Zhigang, Wang Geng; The Recurrent Neural Network Model and Control of an Unmanned Helicopter, by Zhang Yaou, Lu Tiansheng, Du Jianfu, Zhao Zhigang, Wang Geng; GA-Based Evolutionary Identification of Model Structure for Small-scale Robot Helicopter System, by Zhao Zhigang, Lu Tiansheng; Framework for Development and Test of Embedded Flight Control Software for Autonomous Small Size Helicopters, by Markus Bernard, Konstantin Kondak, and Günter Hommel; Embedded System Design for a Hand Exoskeleton, by Andreas Wege and Günter Hommel; Embedded Control System for a Powered Leg Exoskeleton, by Christian Fleischer and Günter Hommel; Blind Source Separation of Temporal Correlated Signals and its FPGA Implementation Xia Bin, Zhang Liqing.