Object Verification for ADAS & HAD with Option Driver Assistance
Driver assistance systems and systems for highly automated driving (HAD) acquire information about the vehicle’s environment via a wide variety of sensors such as video, radar, LIDAR, etc. ADAS sensors identify objects in road traffic. The Driver Assistance option allows you to capture the sensor data and conveniently verify it with reality.
The Option Driver Assistance is available in CANape, CANape log and vSignalyzer.
Visualize the sensor data
Capture sensor data
CANape Option DA
CANape log Option DA
vSignalyzer Option DA
Recording ADAS sensors at very high data rates
For the development of driver assistance systems and autonomous driving vehicles, as much sensor data as possible is recorded to use it later in a re-simulation for testing new software versions. The data rates from radar and video sensors are particularly high. The Driver Assistance option provides you with special recorders (DHPR: Distributed High Performance Recorder) for the various ADAS sensors. We will be happy to integrate new sensors for you at any time.
Visualization and validation of ADAS sensors
The detected objects are displayed as graphical symbols (e.g. as rectangles, polygons and point clouds) in various display windows. Both during the measurement and on the basis of measurement data. A video of a reference camera recorded synchronously with the measurement serves as the basis for verification of the sensor data. The sensors provide the coordinates of the objects, which are then displayed at the corresponding positions of the reference image. Further windows for displaying the objects, such as freely configurable scene windows and map windows, are available. This direct comparison between sensor data and reality allows you to verify the quality of your sensor data quickly and reliably.
Reliably acquire LIDAR sensor data (e.g. Velodyne, Ibeo and Quanergy) and visualize it meaningfully as a point cloud
Convenient object-signal mapping and grouping for object display with the GFX editor
Display of sensor data in the video window and in two different views of the scene window. Detected objects are superimposed on the image of the reference camera and additionally displayed in a bird's eye view and a lateral perspective.
Graphic objects are superimposed in GPS and Video window
The flexible configuration covers a wide range of applications in ADAS development:
Complete vehicle logging for verification and simulations
Verification of object recognition algorithms for e.g. ACC (Adaptive Cruise Control), Stop&Go systems as well as parking assistants with the help of object overlaying
Development of lane-keeping systems or adaptive cornering lights by representing the lanes as curves
Support for testing traffic sign recognition systems by integrating bitmaps
Recording ADAS Sensor Data
ADAS sensors deliver their data along different paths. Radar and video sensors are integrated via the VX1000 product family. Sensors that transmit data via CAN FD, for example, or whose data is measured via XCP, are integrated directly into CANape. Other sensor types, such as LIDARs, which transmit data via Ethernet using a manufacturer-specific protocol, require a special connection to CANape.
With the Driver Assistance option, special recorders (DHPR: Distributed High Performance Recorder) are available for the various ADAS sensors. We will be happy to integrate new sensors for you at any time.
The DHPRs are controlled from CANape via TCP/IP. The entire measurement task can be distributed across several measurement computers without any problems and is thus fully scalable.
Creating the Object Verification
Validation and visualization of ADAS sensors
The detected objects are displayed as graphical symbols (e.g. as rectangles and polygons) in various display windows. Both during the measurement and based on measurement data.
Videos from reference cameras recorded synchronously with the measurement serve as a basis for verifying the sensor data. The sensors provide the coordinates of the objects, which are then displayed at the corresponding positions of the reference image. For a better overview, the sensor objects can also be displayed in a three-dimensional, freely configurable scene window.
This direct comparison between sensor data and reality allows you to verify the quality of your sensor data quickly and reliably.
Vector offers many different opportunities for you to build your knowledge of CANape and broadening it. We recommend our CANape Fundamentals Workshop as an entry-level course in CANape. It is best to take this basic course before attending advanced training courses that are also offered. However, you may register for any of the courses independently.