|Size:||2.58 m x 1.57 m x 1.6 m; Or rather 1.81 m x 1.57 m x 2.25 m (The indication of the length of the vehicle depends on the type of tire / tyre section. The values have been recorded with tires of type 200/60 R 16 79V.)|
|Power supply:||54V – LiFePo4 battery|
|Speed:||65 km/h (40 mph)|
4 x 4kW wheelhub motors; 10 x longstroke-Lineardrive with 5000N 1 x Folding Servo
Hall-effect as well as string potentiometer sensors for angle and length measurement
Stereo-Kameras at the front and at the back
32-Line Lidar for 3D-scans of the environment
6 ToF 3D cameras for near field overview
CAN-Bus RS232 RS485 LAN
|Partner:||H²O e-mobile GmbH, Fraunhofer IFAM|
|Sponsor:||Federal Ministry of Transport, Building and Urban Development|
|Application Field:||Electric Mobility|
Dream-like simulation abilities for automated cars (01.2017- 12.2019)CERMcity
Center for European Research on Mobility Urban Validation Environment (10.2016- 09.2019)SADA
Smart Adaptive Data Aggregation (02.2015- 04.2018)
EO smart connecting car
EO smart connecting car further development in subprojekt ITEM
Machina Arte Robotum SimulansPhobos
An add-on for Blender allowing editing and exporting of robots for the MARS simulationRock
Robot Construction Kit
EOscc2 - An ultra flexible micro-car for mega-citiesMore and more people are drawn into the big cities of the world. Consequently, all of these cities have one challenge to face: Not enough parking space and very congested traffic, especially during rushhours. This becomes even more problematic when big cars are just used by single individuals.
Therefore, small, comfortable and safe cars are required and, in addition to that, the electric drive train provides possibilities to completely rethink what we know about individual transportation.
EO smart connecting car 2 is the result of consequent and ongoing research, development, and optimization of the EO smart connecting car concept.
Like its predecessor, it features
- normal driving
- driving diagonal
- turning on the spot
- even driving sideways
- and shrinking from ca. 2.6 m down to ca. 1.8 m
- while maintaining a comfortable seating position.
Big windows guarantee a good perception of the surrounding environment while an intuitive user interface provides easy access to all drive modes the robotic car has to offer.
Moreover, the car’s computer and its auto-navigation system provides extensive driver assistance functions. Autonomous parking, even within narrow and congested roads, is possible. Later, an autopilot will be able to drive the car without a single passenger intervention creating the driverless car.
Designing a possible future of mobilityA team of nine engineers and a designer as well as several students created the robotic car between Oct. 2011 and Jul. 2014. To prove the feasibility of the technical requirements an integration study as well as a detailed physics simulation model was built. Both utilized the final axial modules and most of the final electronic components but was controlled by a “Rapid Control Prototyping” system.
After successful testing a chassis was constructed and built. At the same time, software development was underway for highly integrated, dedicated, and custom built vehicle control units.
One problematic aspect of electric vehicles is the charging cable. To face this issue, a versatile, foldable docking interface was constructed that fits into the body of the car and also allows for connecting extension modules, like range extenders, passenger modules, or cargo modules.
EO smart connecting car 2: Überblick
EOscc2 Demonstrator Video (Video: Dipl.-Inform. Timo Birnschein, DFKI GmbH)
EO smart connecting car: Social Mobility
Smart connecting cars and social mobility