The System for support and automation of Advanced Driver Assistance Systems Testing

EDscene is a collection of tools used to efficiently carry out the verfication of various driver assistance systems in the automotive sector. It is an internal EDAG development and is characterised by a high degree of measuring accuracy and reproducible results. This enables us to support our customers in the validation of new assistance functions so that they facilitate to offer the maximum of measuring accuracy and functional safety.

The System for support and automation of Advanced Driver Assistance Systems Testing

EDscene is a collection of tools used to efficiently carry out the verfication of various driver assistance systems in the automotive sector. It is an internal EDAG development and is characterised by a high degree of measuring accuracy and reproducible results. This enables us to support our customers in the validation of new assistance functions so that they facilitate to offer the maximum of measuring accuracy and functional safety.

Concept:

  • Development of hardware- and softwaretools
  • Support and automatization during the execution of multiple test cases

Already supported test cases:

  • Field of View
  • Detection of critical obstacles
  • Echo- and ground reflection test
  • Collision mitigation braking

Area of operation:

  • Functional insurance of advanced driver assistance systems
  • Test validation under heat and cold conditions
    (-40°C to +50° C)

Benefit:

  • Increased accuracy
  • Reproducibility
  • Time efficiency
  • Reliability
  • Easy transport and installation
  • Relief for the examiner

Concept:

  • Development of hardware- and softwaretools
  • Support and automatization during the execution of multiple test cases

Already supported test cases:

  • Field of View
  • Detection of critical obstacles
  • Echo- and ground reflection test
  • Collision mitigation braking

Area of operation:

  • Functional insurance of advanced driver assistance systems
  • Test validation under heat and cold conditions
    (-40°C to +50° C)

Benefit:

  • Increased accuracy
  • Reproducibility
  • Time efficiency
  • Reliability
  • Easy transport and installation
  • Relief for the examiner

Concept:

  • Self-driving system to simulate the environment of a vehicle
  • Reproducible imitation of various, defined scenarios

Applications:

  • Sensor hardware
  • Algorithm
  • Object classification
  • ECU software
  • Sensor system
  • Overall vehicle
  • Sensor data fusion

Features:

  • Large simulation range
    (10 m x 20 m)
  • High precision
    (at least 5 mm)
  • Autonomous, free positioning of targets

Flexibility:

  • Individual definition of simulation scenarios
  • Variable limits of positioning precision
  • Expandable simulation range