Press Release

AVL Adds Rohde & Schwarz GNSS Stimulation to Vehicle Test Environment

Press Release

GNSS signals (for example GPS signals) are of major importance for positioning and tracking, orientation and safety-related information, such as congestion, in road traffic.

AVL DRIVING CUBE[2]

GNSS signals (for example GPS signals) are of major importance for positioning and tracking, orientation and safety-related information, such as congestion, in road traffic. A collaboration between AVL and Rohde & Schwarz, two of the world’s leading providers of measuring and automotive testing systems, now permits the reproduction of realistic GNSS reception conditions for testbed vehicle testing. As a result, users can reliably test all aspects of GNSS-based vehicle positioning – a core functionality of autonomous vehicles.

 

AVL DRIVINGCUBE™ enables the reproducible testing of driver assistance systems and driving features for self-driving vehicles using a real vehicle within a virtual environment in a variety of different traffic situations. For that purpose, test drives are performed with a real, ready-to-drive vehicle on a chassis dynamometer or powertrain testbed. With the help of realistic virtual driving scenarios it is possible to test peripheral sensors, control systems and actuators inside the vehicle in a fully reproducible and reliable manner. Automated vehicle functions are thus sufficiently validated during development and even before testing on the proving ground.

The range of environment simulations carried out with AVL DRIVINGCUBE™ can now be extended to include GNSS signals, bringing simulation closer to reality than ever before. The vehicle’s GNSS receiver (e.g. GPS) is stimulated realistically using GNSS signals generated on the testbed. This way, technical engineers can identify exactly how sensors, automated driving features and other actuators respond inside the vehicle. The now possible GNSS-based vehicle positioning feature is a core functionality of automated driving, and the approach ensures that it is reliably tested.

For generating GNSS signals, Rohde & Schwarz GNSS stimulators are used (R&S®SMBV100B or R&S®SMW200A), which allow the generation of signals for all of the available satellite navigation systems (GPS, Glonass, Galileo, BeiDou, QZSS, SBAS) across all frequency bandwidths (L1, L2, L5). This also makes them suitable for testing multi-frequency receivers, which are playing an increasingly important role in automated driving.

Solution with added value

​​​​“In Rohde & Schwarz, we now have a strong and reliable partner for GNSS stimulation. By generating consistent GNSS signals in connection with environment simulation, AVL DRIVINGCUBE™ now provides a test system that allows users to validate GNSS-based driver assistance systems and autonomous driving features,” explains Dr.-Ing. Tobias Düser, Head of Advanced Solution Lab at AVL Deutschland GmbH. Christoph Pointner, Head of Signal Generators at Rohde & Schwarz, adds: “We are very pleased to bring our expertise in the field of signal generation to this collaboration with AVL and contribute to such an important innovation and trendsetting solution for testing automatized driving features.”

The additional GNSS stimulation makes testbed testing not only more realistic, it is above all a further step in moving testing from the road to the rig. This leads to a much sharper reduction of test drives than was the case previously and major savings in the kilometers driven.

A flexible system easily integrated

​​​​​Rohde & Schwarz GNSS stimulators form a flexible, modular system that can be adapted to your requirements and is easily integrated in the AVL DRIVINGCUBE™ environment. The stimulator is controlled automatically from the simulation platform. GNSS extensions for AVL DRIVINGCUBE™ are available with immediate effect.

About Rohde & Schwarz

Rohde & Schwarz is a leading supplier of solutions in the fields of test and measurement, broadcast and media, aerospace | defense | security and networks and cybersecurity. The technology group’s innovative communications, information and security products help industry and government customers ensure a safer and connected world. On June 30, 2019, Rohde & Schwarz had 12,100 employees. The independent group achieved a net revenue of EUR 2.14 billion in the 2018/2019 fiscal year (July to June). The company is headquartered in Munich, Germany, and has subsidiaries in more than 70 countries, with regional hubs in Asia and America.

Contact

Christian Mokry

PR-Manager Rohde & Schwarz

Mobile: +49 89 4129 13052

E-Mail: press@rohde-schwarz.com

AVL is a world-leading technology company specialising in development, simulation and testing in the automotive industry and other sectors such as rail, marine and energy. Through extensive research, AVL delivers concepts, technology solutions, methodologies and development tools for sustainable, safe and advanced mobility and beyond.

AVL supports international partners and customers in sustainable and digital transformation, with a focus on electrification, software, AI and automation. AVL also supports companies in energy-intensive sectors on their way to green and efficient energy generation and supply.

For more information: www.avl.com

 

Piezo_PR
Press Release
AVL sells Piezocryst to Spectris PLC
AVL List GmbH announces the sale of its subsidiary Piezocryst Advanced Sensorics GmbH, a leading provider of highly specialised Piezo-sensor solutions, to the listed company Spectris PLC.
Motorsport Team Germany
Press Release
AVL Deutschland GmbH and
AVL RACETECH are partners of Motorsport Team Germany
Teamwork for success
AVL Partnership with Elcogen
Press Release
Elcogen Partners with AVL to Develop Cutting-Edge Megawatt Scale Solid Oxide Electrolyser Stack Modules
Pioneering hydrogen production with solid-oxide electrolysis
Stefan Bruhnke
Press Release
Stefan Bruhnke becomes Executive Vice President at AVL
AVL List GmbH appoints Stefan Bruhnke to the Management Board as Executive Vice President for Global Business Development, Sales and International Operations in the Engineering division.