View Full Version : Vehicle systems, connected and automated driving, VTT Technical Research Centre of Finland Ltd, Otaniemi, Espoo, Finland
Airicist
30th May 2017, 19:37
Developer - VTT Technical Research Centre of Finland Ltd (https://pr.ai/showthread.php?16799)
vttresearch.com/services/sustainable-and-smart-city/transport/vehicle-systems (https://www.vttresearch.com/services/sustainable-and-smart-city/transport/vehicle-systems)
vtt.fi/sites/urbanautotest/test-vehicles (https://www.vtt.fi/sites/urbanautotest/test-vehicles)
Airicist
30th May 2017, 19:41
https://youtu.be/z9aUnBIl1M4
Published on Feb 26, 2017
Airicist
30th May 2017, 19:42
https://youtu.be/qcGpzS6foC0
VTT Marilyn the robotcar
Published on May 18, 2017
VTT Marilyn automated vehicle, first time on the public roads in Finland -captured from drone's perspective!
Airicist
17th August 2017, 11:43
https://youtu.be/n97nGtgB7kY
Connected and Automated Driving by #VTTMarilyn and Martti
Published on Aug 17, 2017
The video shows how the robot car couple of VTT (Marilyn and Martti) are able to interact when approching intersection for avoiding collisions. The cars are equiped with ITS G5 (IEEE 802.11p) devices and latest on-board sensor technology.
Airicist
14th December 2017, 10:10
https://youtu.be/C3GgJoVTHSU
RobotCar Martti - first automated car driving in snowy Aurora E8 road conditions
Published on Dec 14, 2017
The RobotCar Martti is driving in snowy conditions. The speed is 40 km/h which might be the world record in real roads and heavy snow without lane markings available. The car is using accurate positioning and inertia unit and also cameras and laser scanners for obstacle detection.
Airicist
9th July 2018, 09:48
https://youtu.be/O6zhJglz_Eg
Automated Driving in fog with 1550 nm LiDAR
Published on Jul 8, 2018
VTT’s robot car Marilyn is driving through to fog wall with using 1550 nm LiDAR technology. The car drives fully automated mode through to narrow tent full of fog and avoids accident with a pedestrian. The car first try to drive with 905 nm laser scanner but recognises the fog wall to be an obstacle. Then 1550 nm LiDAR is activated for seeing in dense fog.