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  • VISION:
    EEA4CCAM aims to empower the safe and cyber secure deployment and operation of CCAM solutions across widespread ODDs through a novel centralized, reliable, cyber-secure and upgradable in-vehicle ECA.
  • MISSION:
    EEA4CCAM will perform a paradigm shift regarding in-vehicle ECAs by developing a centralized and upgradable design that integrates HW/SW co-design, enables smart data flows, and ensures safe and cyber-secure operation.

VEDECOM

Details
Written by: ro.furche
Category: Consortium
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Partner description:

VEDECOM is leading R&D projects in partnership with industry, local authorities and academic institutions, with the aim of accelerating the transition to sustainable terrestrial mobility, by acting on both uses and systems. VEDECOM has an important experience in the development and experimentation of technology innovations in the mobility domain and has been contributing to many European projects, especially in relation with CCAM applications.

 

Role in the project:

As part of its automated vehicles, data and connected infrastructure program, VEDECOM provides its scientific and technical expertise in automated driving systems, V2X communication protocols, demonstrator prototyping, laboratory, and test track validation in EEA4CCAM project. Specifically, VEDECOM contributes to the specification and development of hardware and software component for the E/E architecture, the development of the harmonized validation methods and the demonstration of the vehicle reconfiguration use case.

Objectives

  • Obj. 1:
    Development of a new, centralized, and upgradable design for future in-vehicle ECAs based on HW/SW co-design enabling smart data flows to maximize efficiency, modularity, compatibility, and scalability.
  • Obj. 2:
    Exemplarily deployment of level 4 automation use cases characterized by expanded ODDs addressing complex urban scenarios and adverse weather conditions and harmonized validation methods.
  • Obj. 3:
    Enable a safe and cyber-secure operation of future CCAM solutions through system agility, experience-based decision making enabled by distributed intelligence in the edge-cloud continuity focusing on VRUs and ODD transitions.
  • Obj. 4:
    Realize a paradigm shift to integrated, resource efficient and reliable in-vehicle electronics control architectures based on open-source layouts enabling an easier development and integration of connected and automated driving functions.
  • Obj. 5:
    Set up an international cooperation of European OEMs and suppliers to co-design a harmonized ECA layout with harmonized interfaces.

Development Infrastructure

Demonstrator vehicles

Testing Infrastructure

  • Software developement infrastructure
  • HPC cloud infrasturcture for data management
  • XiL testing and validation
  • Access to fully equipped CCAM vehicles including the entrie software stack
  • Access to E/E architectures including sensors and raw data
  • Developement on vehicle level
  • Controlled scenario execution
  • Diverse testing conditions (ODD) applicable

INT SW development infrastructure

IFAG/IFAT Laboratory

IDI simulator

VICOM simulator

VED Lab environment

VICOM HPC

Valeo Vehicle

Vicom Vehicle

IDI Vehicle

VED Vehicle

BCCAM testing infrastructure (ES)

VED proving ground (FR)

VALEO proving ground (DE)

IDI proving ground (ES)

Development Infrastructure

  • Software developement infrastructure
  • HPC cloud infrasturcture for data management
  • XiL testing and validation

INT SW development infrastructure

IFAG/IFAT Laboratory

IDI simulator

VICOM simulator

VED Lab environment

VICOM HPC

Demonstrator vehicles

  • Access to fully equipped CCAM vehicles including the entrie software stack
  • Access to E/E architectures including sensors and raw data
  • Developement on vehicle level

Valeo Vehicle

Vicom Vehicle

IDI Vehicle

VED Vehicle

Testing Infrastructure

  • Controlled scenario execution
  • Diverse testing conditions (ODD) applicable

BCCAM testing infrastructure (ES)

VED proving ground (FR)

VALEO proving ground (DE)

IDI proving ground (ES)

Targets the design and development of a novel centralized, reliable and upgradable in-vehicle electronic control architecture (ECA).

Paradigm shift to a centralized, upgradable, HW/SW co-design driven ECA
Enables smart data flows and ensures safe and cyber-secure operation
Combines a SW-driven top-down approach with a HW-driven bottom-up approach
Creates the foundation for SdVs realizing a service-oriented architecture
Cooperates along the complete CCAM value chain Explores harmonization and standardization activities Pushes international cooperation and builds on results from previous projects

Targets the design and development of a
novel centralized, reliable and
upgradable in-vehicle
electronic control architecture (ECA)
Paradigm shift to a centralized, upgradable, HW/SW co-design driven ECA
Enables smart data flows and ensures safe and cyber-secure operation
Combines a SW-driven top-down approach with a HW-driven bottom-up approach
Creates the foundation for SdVs realizing a service-oriented architecture
Cooperates along the complete CCAM value chain Explores harmonization and standardization activities Pushes international cooperation and builds on results from previous projects

ADS Timeline

(Re-) Design

O1: E/E architecture design and developement

(Re-) Deploy

O2: Level 4 developement

Operational Use

O3: Safe and secure operation

Evaluate & Analyze

O4: Paradigm shift
O5: International cooperation

Methodology

  • Iterative development
    2 main cycles each consisting of 4 stages
  • - 1st cycle:
    early prototyping and testing
  • - 2nd cycle:
    builds on learnings from the first cycle to extend individual functionalities
  • Key success factor:
    Impact and management activities interface with technical developments

Project Details

Duration in Months
Partners
Involved Countries
Budget in M
Use Cases
Impact Results