These are the expected learning outcomes in term of the syllabus of the curricular unit: • Project design and management in the scope of the master's topics • Writing, communicating and presenting scientific documents to specialists, within the scope of the contents of the Master Degree (electric power systems, hybrid and electrical vehicles and renewable energies). • Knowledge of the main multidisciplinary scientific journals and publications within the scope of the Master topics, as well as the main research, development and innovation centres. • Understanding the fundamental characteristics, as well as advantages and drawbacks of electrical and hybrid traction systems compared to combustion engines. • Acquire the knowledge of power electronics needed to analyze and design electrical and hybrid traction systems. • Ability to understand the importance and particular issues of the control and monitoring systems used in electrical and hybrid traction systems. • Ability to understand the necessity for systems and strategies of energy storage and recovery in electrical and hybrid vehicles. • Ability of understanding the concepts, strategies and power transmission systems involved in the design of the electrical and hybrid vehicle. • Understanding of the mechanical background necessary to integrate the electrical and mechanical power subsystems in a hybrid/electrical vehicle.

-http://www.mathworks.es/help/toolbox/simulink/ -http://www.ti.com - N. Mohan, T. M. Undeland, andW. P. Robbins, "Power Electronics, Converters, Applications and Design." New York: Wiley, 1995 - « Feedback Control of Dynamics Systems », Franklin, Powell, Amami-Naeini, Addison-Wessley Pub Co Specific bibliography depends on the final project.