NEVA
Neva represents one of the first worldwide projects aimed towards the developement of an autonomous vehicle having realistic costs, while maintaining the highest safety and systems engineering standards.
The Neva project is a multi level transversal project, that contemplates highly complex engineering and scientific aspects along with social and real live aspects that must be taken into consideration in order to successfully implement autonomous vehicles in society.
Finite Element Modeling
Modeling of structures with beam type elements: performing comparative analysis of their performance and the research of alternative beam models in order to reduce the errors.
Modeling of structures with shell type elements: performing comparative analysis for the determination of the best modeling techniques with the least deviations when modeling complex structures with shell type elements.
Modeling of simplified welded connections in the scope of evaluating their results, feasibility and applicability for wide industrial simulations.
Evaluation of the different techniques for the modeling of bolted connections and the determination of the most feasible modeling technique for the wide industry.
Automotive
In line with the latest technological developments, we are working on active automotive research projects
Autonomous self driving vehicle though active CAN control: we have developed a technological solution that allows us transform any regular modern vehicle into a CAN controlled autonomous car.
Developing a series of CAN sensors for data acquisition of regular vehicles and autonomous vehicles.
Data Analysis
We are developing neuronal networks and statistical recursive functions for various applications:
Neuronal network development and training for self driving car
Neuronal network development, training and combination with other statistic functions for the understanding and prediction of blood sugar levels in type 1 diabetes patients.
Environment
We are taking part in environmental and CO2 projects:
Evaluating the impact and the CO2 contribution of everyday items from their manufacturing moment to their final live stages.
Evaluating the energetic cost of multiple products by defining an alternative scale to the CO2 impact in terms of energy consumption and energy requirements.
