IPGTraffic (1)
Highly capable traffic module creates complex traffic scenarios by mouse click
| IPGTraffic (Part 1) | IPGTraffic (Part 2) | IPGTraffic (Part 3) |
The IPGTraffic module is perfectly suited for the development of functionalities for sophisticated driver assistance systems such as adaptive cruise control (ACC), emergency braking systems, lane keeping assistant (LKA), parking assistant, collision avoidance systems and traffic jam assistant. Even predictive energy management strategies can be subjected to comprehensive testing tasks.
IPGTraffic Masters Complex Scenarios
IPGTraffic assists users in quickly and easily configuring individual test scenarios with mobile objects such as traffic, pedestrians and vehicles as well as immobile objects like parked vehicles, traffic signs, traffic lights, construction sites and buildings. In addition, even complex traffic scenarios such as event tree analyses and corresponding real-world use cases can be easily reconstructed and varied, with or without driver intervention. This means that the highly capable driver model IPGDriver can be integrated into the virtual drive test in a realistic interaction with the driver assistance system. In addition, IPGTraffic offers a high degree of reusability of previously existing data. Another advantage: no model adaptations are necessary for the configuration.
Convenient Test Set-up through Intuitive and Compact User Concept
- IPGTraffic GUI
The highly capable user concept is well structured. All relevant parameters (longitudinal and lateral dynamics, distance and positions) can be specified in the course of the maneuver irrespective of the vehicle and varied during the runtime. The number of objects plus the starting position on the single- or multi-lane roads is freely selectable. IPGTraffic masters a practically unlimited number of traffic objects and mini-maneuvers. The maneuvers can be easily allocated to the various traffic objects, subjected to event-based control during the test and executed with millisecond precision.
- Well-arranged structure with easy to understand GUI
- All objects are generated using input fields, reproduced as needed or imported by existing test databases, simply by mouse click
- Easy selection of mobile or immobile objects
- Easy allocation of individual properties
- Easy reproduction of object groups to generate high traffic volume
- Easy allocation of the maneuver tasks in longitudinal and lateral dynamics
- Manageable selection of condition parameters plus formulation of start and end conditions of maneuvers
- High reusability due to easy importation of entire traffic scenarios from libraries
