E-Book, Englisch, 543 Seiten
Reihe: VDI-Buch
Valldorf / Gessner Advanced Microsystems for Automotive Applications 2005
1. Auflage 2005
ISBN: 978-3-540-27463-6
Verlag: Springer Berlin Heidelberg
Format: PDF
Kopierschutz: 1 - PDF Watermark
E-Book, Englisch, 543 Seiten
Reihe: VDI-Buch
ISBN: 978-3-540-27463-6
Verlag: Springer Berlin Heidelberg
Format: PDF
Kopierschutz: 1 - PDF Watermark
Since 1995 the annual international forum on Advanced Microsystems for Automotive Applications (AMAA) has been held in Berlin. The event offers a unique opportunity for microsystems component developers, system suppliers and car manufacturers to show and to discuss competing technological approaches of microsystems based solutions in vehicles. The book accompanying the event has demonstrated to be an efficient instrument for the diffusion of new concepts and technology results. The present volume including the papers of the AMAA 2005 gives an overview on the state-of-the-art and outlines imminent and mid-term R&D perspectives. The 2005 publication reflects - as in the past - the current state of discussions within industry. More than the previous publications, the AMAA 2005 'goes back' to the technological requirements and indispensable developments for fulfilling the market needs. The large part of contributions dealing with sensors as well as 'sensor technologies and data fusion' is exemplary for this tendency. In this context a paradigm shift can be stated. In the past the development focused predominantly on the detection and processing of single parameters originating from single sensors. Today, the challenge increasingly consists in getting information of complex situations with a series of variables from different sensors and in evaluating this information. Smart integrated devices using the information deriving from the various sensor sources will be able to describe and assess a traffic situation or behaviour much faster and more reliable than a human being might be able to do. Additional information is available on www.amaa.de
Autoren/Hrsg.
Weitere Infos & Material
1;Preface;5
2;Public Financers;7
3;Supporting Organisations;7
4;Co- Organisators;7
5;Honorary Commitee;8
6;Steering Commitee;9
7;Table of Contents ;10
8;Introduction;15
8.1;Biological Aspects in Technical Sensor Systems;16
8.2;The International Market for Automotive Microsystems, Regional Characteristics and Challenges;36
8.3;Status of the Inertial MEMS-based Sensors in the Automotive;56
8.4;The Assessment of the Socio-economic Impact of the Introduction of Intelligent Safety Systems in Road Vehicles – Findings of the EU Funded Project SEiSS;62
9;Safety;71
9.1;Special Cases of Lane Detection in Construction Areas;72
9.2;Development of a Camera-Based Blind Spot Information System;81
9.3;Predictive Safety Systems – Steps Towards Collision Avoidance and Collision Mitigation;95
9.4;Datafusion of Two Driver Assistance System Sensors;107
9.5;Reducing Uncertainties in Precrash-Sensing with Range Sensor Measurements;125
9.6;SEE – Sight Effectiveness Enhancement;138
9.7;System Monitoring for Lifetime Prediction in Automotive Industry;158
9.8;Replacing Radar by an Optical Sensor in Automotive Applications;168
9.9;System Design of a Situation Adaptive Lane Keeping Support System, the SAFELANE System;177
9.10;Intelligent Braking: The Seeing Car Improves Safety on the Road;192
9.11;Roadway Detection and Lane Detection using Multilayer Laserscanner;204
9.12;Pedestrian Safety Based on Laserscanner Data;221
9.13;Model-Based Digital Implementation of Automotive Grade Gyro for High Stability;232
9.14;Next Generation Thermal Infrared Night Vision Systems;247
9.15;Development of Millimeter-wave Radar for Latest Vehicle Systems;261
9.16;New Inertial Sensor Cluster for Vehicle Dynamic Systems;273
10;Powertrain;291
10.1;Multiparameteric Oil Condition Sensor Based on the Tuning Fork Technology for Automotive Applications;292
10.2;Automotive Pressure Sensors Based on New Piezoresistive Sense Mechanism;302
10.3;Multilayer Ceramic Amperometric (MCA) NOx- Sensors Using Titration Principle;314
11;Comfort and HMI;323
11.1;Infrared Carbon Dioxide Sensor and its Applications in Automotive Air- Conditioning Systems;324
11.2;The role of Speech Recognition in Multimodal HMIs for Automotive Applications;335
12;Networked Vehicle;350
12.1;Developments in Vehicle-to-vehicle Communications;351
12.2;Generic Remote Software Update for Vehicle ECUs Using a Telematics Device as a Gateway;369
12.3;High Performance Fiber Optic Transceivers for Infotainment Networks in Automobiles;379
13;Components and Generic Sensor Technologies;397
13.1;Automotive CMOS Image Sensors;398
13.2;A Modular CMOS Foundry Process for Integrated Piezoresistive Pressure Sensors;410
13.3;High Dynamic Range CMOS Camera for Automotive Applications;422
13.4;Performance of GMR-Elements in Sensors for Automotive Application;431
13.5;360-degree Rotation Angle Sensor Consisting of MRE Sensors with a Membrane Coil;443
13.6;Low g Inertial Sensor based on High Aspect Ratio MEMS;454
13.7;Realisation of Fail-safe, Cost Competitive Sensor Systems with Advanced 3D- MEMS Elements;467
14;Intersafe;479
14.1;eSafety for Road Transport: Investing in Preventive Safety and Co- operative Systems, the EU Approach;480
14.2;A New European Approach for Intersection Safety – The EC- Project INTERSAFE;486
14.3;Feature-Level Map Building and Object Recognition for Intersection Safety Applications;498
14.4;Development of Advanced Assistance Systems for Intersection Safety;513
15;Appendix A;522
15.1;List of Contributors;523
16;Appendix B;526
16.1;List of Keywords;527
