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Capabilities of Humans for Vehicle Guidance Read chapter Read first chapter

2016 | OriginalPaper | Chapter

14. Testing with Coordinated Automated Vehicles

Authors : Hans-Peter Schöner, Wolfgang Hurich

Published in: Handbook of Driver Assistance Systems

Publisher: Springer International Publishing

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Abstract

Many tests of assistance systems can be performed more precisely, much more safely, and more efficiently using coordinated automated vehicles. A testing method that has been developed at Daimler AG to cope with the challenges of testing new assistance systems is presented. The concept for safe operation of automated vehicles on a test track is detailed by describing the technical components and the control strategy of the system. Results from precision and repeatability tests are discussed, and methods of planning tests efficiently and safely are described. The concept of virtual guide rails, which allows a vehicle being tested to act autonomously within a deterministic testing environment, is presented.
In a separate section, the design of automatically driving crash targets is discussed. Two different concepts – the self-driving soft crash target and the over-drivable target carrier – are described in detail. Advantages and limitations of these concepts are discussed.
The chapter concludes with a presentation of several typical test applications of coordinated automated vehicles as single vehicles for better precision and repeatability, as coordinated vehicles to set up complex scenarios that are too difficult to coordinate with human drivers, or as a combination of human-driven vehicles with precisely coordinated crashable targets in challenging traffic situations.

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Literature
Bock T, Maurer M, Färber G (2007) Vehicle in the Loop (VIL) – a new simulator set-up for testing advanced driving assistance systems. In: Driving simulation conference, Iowa City
Gulde D (2010) So testet AMS, Teil 9: Assistenzsysteme (Testing of driver assistance systems at AMS). Auto-Motor-Sport
Hoffmann J, Winner H (2008) EVITA – das Untersuchungswerkzeug für Gefahrensituationen (EVITA – testing tool for dangerous situations). In: 3rd Conference on active safety, München
Huber B, Resch S (2008) Methods for testing of driver assistance systems. SAE Paper 2008-28-0020
Hurich W, Luther J, Schöner HP (2009) Koordiniertes Automatisiertes Fahren zum Entwicklen, Prüfen und Absichern von Assistenzsystemen (Coordinated automated driving for development and test of driver assistance systems). In: 10th AAET symposium, Braunschweig
ISO 26262 (2011) (DIN-ISO 61508): Road vehicles – functional safety
Pick AJ, Hubbard MJ, Neads SJ (2010) Near-miss collisions using coordinated robot-controlled vehicles. In: Proceedings of the 10th international symposium on advanced vehicle control, Loughborough, pp 634–639
Ploeg J, Hendriks FM, Schouten NJ (2008) Towards nondestructive testing of pre-crash systems in a HIL setup. In: IEEE intelligent vehicles symposium IV, 4–6 June 2008, Eindhoven
Schöner HP, Hurich W, Luther J, Herrtwich RG (2011a) Koordiniertes Automatisiertes Fahren für die Erprobung von Assistenzsystemen (Coordinated automated driving for testing of driver assistance systems). Automobiltechnische Zeitschrift ATZ
Schöner HP, Hurich W, Haaf D (2011b) Selbstfahrendes Soft Crash Target zur Erprobung von Assistenzsystemen (Self-driving soft crash target for testing of driver assistance systems). In: 12th AAET symposium, Braunschweig
Schretter N, Sinz W, Schöner HP (2009) Planung und Realisierung von automatisierten Fahrmanövern zur Erprobung von aktiven Sicherheitssystemen (Planning and realization of automated driving maneuvers for test of driver assistance systems). In: 3rd symposium virtual vehicle, Graz
Steffan H, Moser A, Ebner J, Sinz W (2012) UFO – ein neues System zur Evaluierung von Assistenzsystemen (UFO – a new system for the evaluation of driver assistance systems). In: 13th AAET symposium, Braunschweig
Metadata
Title
Testing with Coordinated Automated Vehicles
Authors
Hans-Peter Schöner
Wolfgang Hurich
Copyright Year
2016
Publisher
Springer International Publishing
Book
Handbook of Driver Assistance Systems

Print ISBN: 978-3-319-12351-6

Electronic ISBN: 978-3-319-12352-3

Copyright Year: 2016

DOI
https://doi.org/10.1007/978-3-319-12352-3_14

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