The international journal of Automotive Innovation provides a source of innovative and reliable engineering and scientific findings for engineers and applied scientists in the automotive field. Covering the principles, methodologies, designs, theoretical background, and cutting-edge technologies in connection with ground vehicles, the main topics include but are not limited to: Energy-saving and green vehicles including engines, transmissions, NVH, lightweight technologies, lightweight materials, and aerodynamics Electric vehicles including motors, fell cells, and battery chemistry Intelligent and connected vehicles including human machine interface (HMI), vehicle communication systems, driver assistance systems, and artificial intelligence technologies Automotive safety technologies Automobile manufacturing technologies etc.
Automotive Innovation
Description
Identifiers
ISSN | 2096-4250 |
e-ISSN | 2522-8765 |
Publisher
Springer Singapore
Additional information
Data set: Springer
Articles
Automotive Innovation > 2019 > 2 > 3 > 231-239
The great diversity of dedicated hybrid transmissions (DHTs) requires a method to identify solutions among all potential concepts involved in each structure. Therefore, a DHT synthesis tool is developed on the basis of general transmission synthesis. In the first synthesis step, transmission structures are generated with only conventional functions such as driving with only the internal combustion...
Automotive Innovation > 2019 > 2 > 3 > 212-222
The performance of electric vehicles is affected by the shift quality of multi-gear transmission. The realization of dual-target tracking control requires the transmission control unit (TCU) to accurately measure and process the input signals of the gear-shifting control system and precisely control the drive motor torque and the position of shift motors. An electric-vehicle-dedicated TCU was designed...
Automotive Innovation > 2019 > 2 > 3 > 157-168
With the development of vehicle-to-vehicle (V2V) communication, it is possible to share information among multiple vehicles. However, the existing research on automated lane changes concentrates only on the single-vehicle lane change with self-detective information. Cooperative lane changes are still a new area with more complicated scenarios and can improve safety and lane-change efficiency. Therefore,...