Abstract
Adaptive cruise control (ACC) has reached a new quality in driver assistance. For the first time, a large part of the driver’s tasks can be assigned to an automatic system and the driver relieved to a substantial degree. Based on cruise control, ACC adjusts the vehicle speed to the surrounding traffic. It accelerates and decelerates automatically when a preceding vehicle is traveling at less than the speed desired by the driver.
ACC is a key functional innovation and represents a new system architecture with a high degree of function distribution. The different operating modes and system states are described along with function limits and transition conditions.
From the many elements of this overall function, target selection and longitudinal control are addressed in detail because of the special challenges they present. Target selection is based on the actual road curvature being determined by the ESC sensor signals that describe the driving dynamics, of which several options are assessed. Predicting and selecting a suitably shaped corridor is explained using an example. Major sources of error for the individual steps, their severity, and possible countermeasures are described.
The prerequisite for vehicle-following-distance control is the selection of a target. An example shows that the basic control principle is simple, but it conflicts with comfort and convoy stability. Details of additional control functions in curve situations and approaches are provided.
The driver perspective is addressed in terms of control and display functions and in terms of satisfaction as ascertained by use and acceptance studies, also taking into account an extended driver familiarization phase.
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References
Abendroth B (2001) Gestaltungspotentiale für ein PKW-Abstandsregelsystem unter Berücksichtigung verschiedener Fahrertypen (Design potentials for an automotive distance control system under consideration of different types of drivers), Dissertation TU Darmstadt. In: Schriftenreihe Ergonomie. Ergonomia-Verlag, Stuttgart
Ackermann F (1980) Abstandsregelung mit Radar (Distance control with radar). In: Spektrum der Wissenschaft Juni 1980. pp 24–34, Heidelberg
Becker S, Sonntag J (1993) Autonomous intelligent cruise control – Pilotstudie der Daimler-Benz und Opel Demonstratoren. In: Prometheus CED 5, TÜV Rheinland. Köln
Becker S, Sonntag J, Krause R (1994) Zur Auswirkung eines Intelligenten Tempomaten auf die mentale Belastung eines Fahrers, seine Sicherheitsüberzeugungen und (kompensatorischen) Verhaltensweisen (Effects of an intelligent cruise control on the mental load of drivers, their safety conviction and (compensatory) behaviour). In: Prometheus CED 5, TÜV Rheinland. Köln
Didier M (2006) Ein Verfahren zur Messung des Komforts von Abstandsregelsystemen (ACC-Systemen) (A method for measuring the comfort of distance control systems (ACC systems)), Dissertation TU Darmstadt. In: Schriftenreihe Ergonomie. Ergonomia-Verlag, Stuttgart
Fancher P et al (1998) Intelligent cruise control field operational test. University of Michigan Transportation Research Institute (UMTRI) final report, Michigan
Filzek B (2002) Abstandsverhalten auf Autobahnen – Fahrer und ACC im Vergleich (Distance behaviour on autobahns –driver and ACC – a comparison), Dissertation TU Darmstadt. In: VDI Fortschritt-Berichte Reihe 12, Nr. 536. VDI-Verlag, Düsseldorf
Furui N, Miyakoshi H, Noda M, Miyauchi K (1998) Development of a scanning laser radar for ACC. Society of Automotive Engineers SAE paper no. 980615, Warrendale
ISO TC204/WG14 (2009) ISO 22179:2009 Intelligent transport systems – full speed range adaptive cruise control (FSRA) systems – performance requirements and test procedures, Geneva
ISO TC204/WG14 (2010) ISO 15622:2010 Transport information and control systems – adaptive cruise control systems – performance requirements and test procedures, Geneva
Luh S (2007) Untersuchung des Einflusses des horizontalen Sichtbereichs eines ACC-Sensors auf die Systemperformance (Investigation of the impact of the horizontal detection area of an ACC sensor on the system performance), Dissertation TU Darmstadt. In: VDI Fortschritt-Berichte Reihe 12. VDI-Verlag, Düsseldorf
Meyer-Gramcko F (1990) Gehörsinn, Gleichgewichtssinn und andere Sinnesleistungen im Straßenverkehr (Auditory, vestibular and other perception sensories in road traffic). In: Verkehrsunfall und Fahrzeugtechnik, Nr. 3. pp 73–76, München
Mitschke M, Wallentowitz H, Schwartz E (1991) Vermeiden querdynamisch kritischer Fahrzustände durch Fahrzustandsüberwachung (Avoidance of lateral-dynamics-critical driving states by driving state monitoring). In: VDI Bericht 91. VDI-Verlag, Düsseldorf
Neukum A, Lübbeke T, Krüger H-P, Mayser C, Steinle J (2008) ACC-Stop&Go: Fahrerverhalten an funktionalen Systemgrenzen (Driver behaviour at functional system limits). In: Proceedings 5. Workshop Fahrerassistenzsysteme, Walting
Nirschl G, Kopf M (1997) Untersuchung des Zusammenwirkens zwischen dem Fahrer und einem ACC-System in Grenzsituationen (Investigation of the interaction between the driver and an ACC system in borderline situations). In: Conference Der Mensch im Straßenverkehr, Berlin 1997, VDI Bericht 1317, VDI-FVT, VDI-Verlag, Düsseldorf
Nirschl G, Blum E-J, Kopf M (1999) Untersuchungen zur Benutzbarkeit und Akzeptanz eines ACC-Fahrerassistenzsystems (Investigation of usability and acceptance of an ACC driver assistance system). In: Fraunhofer Institut für Informations- und Datenverarbeitung IITB Mitteilungen, Karlsruhe
Pasenau T, Sauer T, Ebeling J (2007) Aktive Geschwindigkeitsregelung mit Stop&Go-Funktion im BMW 5er und 6er (Active cruise control with Stop&Go function in the BMW 5- and 6-series). In: ATZ 10/2007. Vieweg Verlag, Wiesbaden, pp 900–908
Schittenhelm HN (2013) Advanced brake assist – real world effectiveness of current implementations and next generation enlargements by Mercedes-Benz, 23. In: Technical conference enhanced safety of vehicles, proceedings, paper-no. 13–0194; 23. ESV-conference, Seoul
Steinle J, Hohmann S, Kopf M, Brandstäter M, Pfeiffer A, Farid N (2006) Keeping the focus on the driver: the BMW approach to driver assistance and active safety systems that interact with vehicle dynamics. In: Proceedings of FISITA World Automotive Congress 22–27 Oct 2006 FISITA F2006D185, Yokohama
Watanabe T, Kishimoto N, Hayafune K, Yamada K, Maede N (1995) Development of an intelligent cruise control system. In: Proceedings of the 2nd ITS World Congress in Yokohama, pp 1229–1235
Weinberger M (2001) Der Einfluss von Adaptive Cruise Control Systemen auf das Fahrverhalten (The impact of adaptive cruise control systems on driving behaviour), Dissertation TU München. In: Berichte aus der Ergonomie. Shaker-Verlag, Aachen
Weinberger M, Winner H, Bubb H (2001) Adaptive cruise control field operational test – the learning phase. In: JSAE review, vol 22. Elsevier, Amsterdam, p 487
Winner H (2003) Die lange Geschichte von ACC (The long history of ACC). In: Proceedings Workshop Fahrerassistenzsysteme, Leinsweiler
Winner H (2005) Die Aufklärung des Rätsels der ACC-Tagesform und daraus abgeleitete Schlussfolgerungen für die Entwicklerpraxis (Unravelling the mystery of the ACC form-of-the-day and related conclusions for engineering practice). In: Proceedings Fahrerassistenzworkshop, Walting
Winner H, Luh S (2007) Fahrversuche zur Bewertung von ACC – Eine Zwischenbilanz (Driving tests for assessment of ACC – an interim conclusion). In: Bruder R, Winner H (eds) Darmstädter Kolloquium Mensch & Fahrzeug – Wie objektiv sind Fahrversuche? Ergonomia-Verlag, Stuttgart
Winner H, Olbrich H (1998) Major design parameters of adaptive cruise control. AVEC’98 paper 130, Nagoya
Winner H et al (2003) Fahrversuche mit Probanden zur Funktionsbewertung von aktuellen und zukünftigen Fahrerassistenzsystemen (Driving test with test persons for function assessment of present and future driver assistance systems). In: Landau, Winner (ed) Fahrversuche mit Probanden – Nutzwert und Risiko, Darmstädter Kolloquium Mensch & Fahrzeug, 3./4.April 2003, TU Darmstadt, VDI Fortschritt-Berichte Reihe 12, Nr. 557. VDI-Verlag, Düsseldorf
Witte S (1996) Simulationsuntersuchungen zum Einfluss von Fahrerverhalten und technischen Abstandsregelsystemen auf den Kolonnenverkehr (Simulation investigations into the impact of driver behaviour and technical distance control systems on traffic queues), Dissertation Universität Karlsruhe, Karlsruhe, p 23
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Winner, H., Schopper, M. (2016). Adaptive Cruise Control. In: Winner, H., Hakuli, S., Lotz, F., Singer, C. (eds) Handbook of Driver Assistance Systems. Springer, Cham. https://doi.org/10.1007/978-3-319-12352-3_46
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DOI: https://doi.org/10.1007/978-3-319-12352-3_46
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