Fault injection method for safety and controllability evaluation of automated driving

Garazi Juez Uriagereka; Ray Lattarulo; Joshue Perez Rastelli; Estibaliz Amparan Calonge; Alejandra Ruiz Lopez; Huascar Espinoza Ortiz

doi:10.1109/ivs.2017.7995977

Fault injection method for safety and controllability evaluation of automated driving

Garazi Juez Uriagereka
, Ray Lattarulo
, Joshue Perez Rastelli
, Estibaliz Amparan Calonge
, Alejandra Ruiz Lopez
, Huascar Espinoza Ortiz

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución a la conferencia › revisión exhaustiva

13 Citas (Scopus)

12 Descargas (Pure)

Resumen

Advanced Driver Assistance Systems (ADAS) and automated vehicle applications based on embedded sensors have become a reality today. As road vehicles increase its autonomy and the driver shares his role in the control loop, novel challenges on their dependability assessment arise. One key issue is that the notion of controllability becomes more complex when validating the robustness of the automated vehicle in the presence of faults. This paper presents a simulation-based fault injection approach aimed at finding acceptable controllability properties for the model-based design of control systems. We focus on determining the best fault models inserting exceptional conditions to accelerate the identification of specific areas for testing. In our work we performed fault injection method to find the most appropriate safety concepts, controllability properties and fault handling strategies at early design phases of lateral control functions based on the error in the Differential GPS signal.

Idioma original	Inglés
Título de la publicación alojada	unknown
Editorial	IEEE
Páginas	1867-1872
Número de páginas	6
ISBN (versión digital)	978-1-5090-4804-5, 9781509048045
ISBN (versión impresa)	978-1-5090-4805-2
DOI	https://doi.org/10.1109/ivs.2017.7995977
Estado	Publicada - 31 jul 2017
Evento	28th IEEE Intelligent Vehicles Symposium, IV 2017 - Redondo Beach, Estados Unidos Duración: 11 jun 2017 → 14 jun 2017

Serie de la publicación

Nombre	IEEE Intelligent Vehicles Symposium, Proceedings

Conferencia

Conferencia	28th IEEE Intelligent Vehicles Symposium, IV 2017
País/Territorio	Estados Unidos
Ciudad	Redondo Beach
Período	11/06/17 → 14/06/17

Palabras clave

Automated driving
Advanced Driver Assistance Systems
ADAS
Automated vehicle applications
Embedded sensors
Simulation-based fault
Fault injection method
Differential GPS signal
Safety concepts

Project and Funding Information

Project ID
info:eu-repo/grantAgreement/EC/H2020/643921/EU/Unifying Control and Verification of Cyber-Physical Systems/UNCOVERCPS
info:eu-repo/grantAgreement/EC/H2020/692474/EU/Architecture-driven, Multi-concern and Seamless Assurance and Certification of Cyber-Physical Systems/AMASS
Funding Info
Authors wants to thank to the H2020 UnCoVerCPS Project_x000D_ (with grant number 643921) and the ECSEL JU AMASS_x000D_ project under H2020 grant agreement No 692474 and from_x000D_ MINETUR (Spain).

Acceder al documento

10.1109/ivs.2017.7995977

IV2017 acceptedVersión publicada final, 3,76 MB

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@inproceedings{a8f7a86e896d4158af03f97394ca195f,

title = "Fault injection method for safety and controllability evaluation of automated driving",

abstract = "Advanced Driver Assistance Systems (ADAS) and automated vehicle applications based on embedded sensors have become a reality today. As road vehicles increase its autonomy and the driver shares his role in the control loop, novel challenges on their dependability assessment arise. One key issue is that the notion of controllability becomes more complex when validating the robustness of the automated vehicle in the presence of faults. This paper presents a simulation-based fault injection approach aimed at finding acceptable controllability properties for the model-based design of control systems. We focus on determining the best fault models inserting exceptional conditions to accelerate the identification of specific areas for testing. In our work we performed fault injection method to find the most appropriate safety concepts, controllability properties and fault handling strategies at early design phases of lateral control functions based on the error in the Differential GPS signal.",

keywords = "Automated driving, Advanced Driver Assistance Systems, ADAS, Automated vehicle applications, Embedded sensors, Simulation-based fault, Fault injection method, Differential GPS signal, Safety concepts, Automated driving, Advanced Driver Assistance Systems, ADAS, Automated vehicle applications, Embedded sensors, Simulation-based fault, Fault injection method, Differential GPS signal, Safety concepts",

author = "Uriagereka, \{Garazi Juez\} and Ray Lattarulo and Rastelli, \{Joshue Perez\} and Calonge, \{Estibaliz Amparan\} and \{Ruiz Lopez\}, Alejandra and \{Espinoza Ortiz\}, Huascar",

note = "Publisher Copyright: {\textcopyright} 2017 IEEE.; 28th IEEE Intelligent Vehicles Symposium, IV 2017 ; Conference date: 11-06-2017 Through 14-06-2017",

year = "2017",

month = jul,

day = "31",

doi = "10.1109/ivs.2017.7995977",

language = "English",

isbn = "978-1-5090-4805-2",

series = "IEEE Intelligent Vehicles Symposium, Proceedings",

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pages = "1867--1872",

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}

Uriagereka, GJ, Lattarulo, R, Rastelli, JP, Calonge, EA , Ruiz Lopez, A & Espinoza Ortiz, H 2017, Fault injection method for safety and controllability evaluation of automated driving. En unknown. IEEE Intelligent Vehicles Symposium, Proceedings, IEEE, pp. 1867-1872, 28th IEEE Intelligent Vehicles Symposium, IV 2017, Redondo Beach, Estados Unidos, 11/06/17. https://doi.org/10.1109/ivs.2017.7995977

Fault injection method for safety and controllability evaluation of automated driving. / Uriagereka, Garazi Juez; Lattarulo, Ray; Rastelli, Joshue Perez et al.
unknown. IEEE, 2017. p. 1867-1872 (IEEE Intelligent Vehicles Symposium, Proceedings).

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución a la conferencia › revisión exhaustiva

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AU - Ruiz Lopez, Alejandra

AU - Espinoza Ortiz, Huascar

PY - 2017/7/31

Y1 - 2017/7/31

N2 - Advanced Driver Assistance Systems (ADAS) and automated vehicle applications based on embedded sensors have become a reality today. As road vehicles increase its autonomy and the driver shares his role in the control loop, novel challenges on their dependability assessment arise. One key issue is that the notion of controllability becomes more complex when validating the robustness of the automated vehicle in the presence of faults. This paper presents a simulation-based fault injection approach aimed at finding acceptable controllability properties for the model-based design of control systems. We focus on determining the best fault models inserting exceptional conditions to accelerate the identification of specific areas for testing. In our work we performed fault injection method to find the most appropriate safety concepts, controllability properties and fault handling strategies at early design phases of lateral control functions based on the error in the Differential GPS signal.

AB - Advanced Driver Assistance Systems (ADAS) and automated vehicle applications based on embedded sensors have become a reality today. As road vehicles increase its autonomy and the driver shares his role in the control loop, novel challenges on their dependability assessment arise. One key issue is that the notion of controllability becomes more complex when validating the robustness of the automated vehicle in the presence of faults. This paper presents a simulation-based fault injection approach aimed at finding acceptable controllability properties for the model-based design of control systems. We focus on determining the best fault models inserting exceptional conditions to accelerate the identification of specific areas for testing. In our work we performed fault injection method to find the most appropriate safety concepts, controllability properties and fault handling strategies at early design phases of lateral control functions based on the error in the Differential GPS signal.

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KW - Embedded sensors

KW - Simulation-based fault

KW - Fault injection method

KW - Differential GPS signal

KW - Safety concepts

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KW - ADAS

KW - Automated vehicle applications

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M3 - Conference contribution

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BT - unknown

PB - IEEE

T2 - 28th IEEE Intelligent Vehicles Symposium, IV 2017

Y2 - 11 June 2017 through 14 June 2017

ER -

Fault injection method for safety and controllability evaluation of automated driving

Resumen

Serie de la publicación

Conferencia

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Project and Funding Information

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