On the road with automated shuttles on public roads – RIAMO Project
The RIAMO project is about implementing an efficient automated on-demand shuttle service. The focus here is on rural regions, where there are often poor public transport connections and therefore residents usually rely on their cars.
Digitrans eVAN – automated test vehicle level 4
The vehicle is equipped with the latest technology and is already able to drive most of its journey independently. It can be used both as a passenger and goods transporter.
Autonomous driving – what exactly is it and what is the current legal situation?
It describes the movement of a vehicle without a driver. The highly developed systems take over the thoughts and actions of a human driver.
Five reasons why we built an outdoor rain plant for testing autonomous driving functions
Testing autonomous driving functions and their sensors under adverse weather conditions is an important safety criterion for the introduction of automated vehicles in Europe. Learn why it is becoming increasingly important to test these systems systematically and reproducibly.
Outdoor rain plant for AD and ADAS testing – Site Visit at Digitrans Testcenter for automated Driving
With the outdoor rain plant in St. Valentin, we are delivering the first system that allows the performance and limits of sensors and algorithms to be tested reproducibly at different rain intensities in a realistic outdoor environment. And that at the touch of a button!
Measurement campaign to record the ambient conditions in the outdoor rain plant at the Digitrans test center.
As part of the pioneering EUREKA project “EUREKA Test.EPS”, an extensive measurement campaign was carried out that focused on recording environmental conditions.
Tests were carried out in the Digitrans outdoor rain plant at different rain intensities and speeds.
Automated driving in wet and rainy conditions – how well are lane markings detected?
Especially in the field of autonomous driving, it is important that the vehicle recognizes lane markings optimally. SWARCO Road Marking Systems, together with researchers from the Johannes Keppler University Linz, has tested the machine recognizability of lane markings under different conditions at the Digitrans test center in St. Valentin.
Project RIAMO – rural communities enabled for integrated automated mobility
It involves the implementation of an efficient, automated on-demand shuttle service as part of a grant project. Accordingly, it is intended to provide residents of rural areas with better access to the higher-ranking public transport network.
Five reasons why we built an outdoor rain plant for testing autonomous driving functions
Testing autonomous driving functions and their sensors under adverse weather conditions is an important safety criterion for the introduction of automated vehicles in Europe. Learn why it is becoming increasingly important to test these systems systematically and reproducibly.
AWARD H2020 – Project Update: Green Light for Test Operation in Gunskirchen, Upper Austria
AWARD H2020 project update: Test operation under real conditions on partly public roads in Gunskirchen, Upper Austria has started. On the approximately 600m long road section between the two companies BRP-Rotax and the freight forwarder DB Schenker Austria, an automated electric truck with test approval will be tested in real-life operation from June 12, 2023.
Road marking systems and autonomous driving – Digitrans expert interview with SWARCO Road Marking Systems
SWARCO Road Marking Systems has been a cooperation partner of Digitrans in the field of road marking systems since July 2021.
Since then, SWARCO’s road marking experts have been testing the readability of road markings for the sensors of modern vehicles in the Digitrans Test Center for Autonomous Driving under a wide range of external conditions.
Rain tests for automated driving – Digitrans launches Outdoor Rain Plant
On November 16, 2022, the specially developed outdoor rain plant for rain tests of automated vehicles and their sensors was put into operation. The system makes it possible to generate realistic rain at the push of a button, thus significantly simplifying the testing of sensors for environment detection in rain.