État académique
Thèse soutenue le 2017-09-18
Sujet: Adaptability and Reconfiguration Automotive Embedded Systems
Direction de thèse:
Ellipse bleue: doctorant, ellipse jaune: docteur, rectangle vert: permanent, rectangle jaune: HDR. Trait vert: encadrant de thèse, trait bleu: directeur de thèse, pointillé: jury d'évaluation à mi-parcours ou jury de thèse.
Productions scientifiques
ASLA: Adaptive System-Level in AUTOSAR
In conjunction with the 23rd International Conference on Real-Time and Network Systems (RTNS 2015)
International audience
This paper presents an initial approach towards making AUTOSAR dynamic starting from the application layer down to the operating system level (task model and RTE)(i.e. extending AUTOSAR ECU Software architecture)and describes ASLA, which is the framework that provides tasks-level adaptation techniques in AUTOSAR.
JRWRTC 2015: 9th Junior Researcher Workshop on Real-Time Computing https://hal.inria.fr/hal-01416872 JRWRTC 2015: 9th Junior Researcher Workshop on Real-Time Computing , Nov 2015, Lille, FranceARRAY(0x7f03feded250) 2015-11-04
Towards adaptive autosar : a system-level approach
International audience
The automotive industry has recently agreed upon the embedded software standard AUTOSAR, whichstructures an application into reusable components that can be deployed according to a given configuration. However, this configuration is fixed at design-time, with no support for dynamically adding, migrating and/or removing components to adapt the system at runtime. In this paper, we present the design and implementation of ASLA (Adaptive System-Level in AUTOSAR) a framework that provides runtime adaptation to AUTOSAR. We believe that our approach opens up new functionalities for vehiclesoftware platforms and can be leveraged in therecent initiative Adaptive AUTOSAR.
FISITA 2016 World Automotive Congress https://hal.inria.fr/hal-01416879 FISITA 2016 World Automotive Congress, Sep 2016, Busan, South Korea. 2016, <http://www.fisita2016.com/> http://www.fisita2016.com/ARRAY(0x7f03fedf6920) 2016-09-26
Thèse: Adaptability and reconfiguration of automotive embedded systems
Soutenance: 2017-09-18