Partner
Basque Country University
Date
2023
Area
Institutional Agreements
Mobility Lab and the UPV/EHU have signed a collaboration agreement for the creation of Mobility Lab Campus, a strategic alliance for training, research, innovation and knowledge transfer in the field of mobility and logistics, through the implementation of the “Sustainable Green Territory” macro-project consisting of 18 research projects. The 18 research projects are as follows:
1.- Study of mobility improvements based on public transport. TUVISA
2.- Prediction of accident points and traffic jams by means of Computational Intelligence techniques (Artificial Intelligence).
3.- Traffic and congestion query AP.
4.- Study of mobility profiles (vehicles and people) based on telemetry for modelling by means of Computational Intelligence techniques.
5.- Optimisation of the supply chain of the city of Vitoria-Gasteiz (FlexSim).
6.- Development of Deep Learning algorithms for industrial image processing for the development of intelligent obstacle detection systems and navigation algorithms. Application of deep neural network techniques for traffic management and fleet and trajectory management.
7.- Design and implementation of a vehicle and goods traceability system using wireless communication. A low-cost wireless device will be designed and implemented, which will be placed in the vehicles and will allow their traceability. The processing and analysis of the data will be carried out using artificial intelligence techniques.
8.- Generation of maps using drones and Artificial Intelligence.
9.- Use of drones in the mobility of goods, etc.
10.- Visualisation and interactive consultation tool for commercial services in the city of Vitoria-Gasteiz.
11.- Dynamic optimisation of traffic lights by means of Computational Intelligence techniques (Artificial Intelligence).
12.- Generation of Automated Inventory of Signalling by means of drones and Computational Intelligence.
13.- Optimisation of cooling systems (natural and/or forced) of electric vehicle batteries by means of techniques based on fluid dynamic simulation (CFD- Computational Fluid Dynamics).
14.- Control of flow batteries
15.- Control and management of electric energy storage based on batteries.
16.- Design and implementation of advanced control algorithms to improve the performance of the electric motors used in the traction systems of electric vehicles.
17.- Preliminary project for the implementation of laboratories for the conversion of combustion vehicles to electric vehicles for environmental purposes for experimental use.
18.- Development of electronics for hydrogen-based sustainable mobility applications and green hydrogen generation.