In order to successfully obtain a Masters qualification, you will need to obtain a number of credits by passing individual modules. Most taught Masters will have a number of core modules which you must take and pass in order to obtain the qualification. The assessment of research Masters is almost always entirely by a single dissertation module or project.
Spain (Spanish: España) is a diverse country sharing the Iberian Peninsula with Portugal at the western end of the Mediterranean Sea. Spain is considered an exotic country in Europe due to its friendly inhabitants and relaxed lifestyle. The normal duration for University courses in Spain is 4 years, except Medicine and the double degrees, which are 6. Madrid and Barcelona are well known cities around world for its cuisine, vibrant nightlife, and world-famous folklore and festivities.
Top Master Programs in Artificial Intelligence in Spain 2018
This master's degree aims to provide students with professional training in computer engineering, telematic engineering and related ambits that specialise in Computer Security and Artificial Intelligence. [+]
This master's degree aims to provide students with professional training in computer engineering, telematic engineering and related ambits that specialise in Computer Security and Artificial Intelligence. Specifically, the master's degree:provides students with the skills to use advanced ICT for designing and implementing safe intelligent systems. provides students with the skills to use advanced ICT to ensure the safety of information in applications, services and ICT systems and the privacy of their users. provides students with the skills to lead, manage and carry out ICT systems projects based on Artificial Intelligence. provides students with the skills to innovate and conduct research in the field of Computer Security and Artificial Intelligence. Career opportunities ... [-]
The training provided by the master is framed in the field of intelligent systems involving processes of perception, learning and automatic decision, robotic manipulation, intelligent robotics and service, storage and processing of data, contextual information, big data, intelligent analysis information, knowledge engineering, visualization and interactive environments. [+]
The training provided by the master is framed in the field of intelligent systems involving processes of perception, learning and automatic decision, robotic manipulation, intelligent robotics and service, storage and processing of data, contextual information, big data, intelligent analysis information, knowledge engineering, visualization and interactive environments. Studies structured knowledge and disciplines that define a professional profile with two possible pathways: service robotics or advanced interaction and knowledge management.Coordination: Begoña Martínez Salvador. Department of Engineering and Computer Science. UJI. Number of credits: 60 ECTS credits Duration: one academic year (October 2017 / September 2018). Mode: (October 2017 / July 2018) Language of teaching: Spanish Price: pending publication (2016: € 46.20 / credit) [-]
Smart City is defined as a holistic system that interacts with human and social capital using ICT-based solutions. Its objective is to achieve sustainable development and quality of life in the city efficiently, based on cooperation between different agents articulated by the municipality. In this context, the Intelligent Cities are presented as a solution to achieve a more sustainable urban development while increasing the quality of life of its citizens through the use of new technologies (Neirotti, 2013). [+]
The enormous growth of the urban population that has occurred in the last decades and that is expected in the future, forces the cities to face new challenges. In this context, and with the appearance of new technological solutions, the concept of Smart City has emerged as an alternative that seeks to address the problems of the city with a comprehensive and connected vision. Currently, more than half of the population lives in urban areas, a figure which is expected to rise to 70 per cent by 2050. In addition, to date, 70% of global wealth is generated in cities.
It is for this reason that the budgetary policies and efforts of central governments in cities are increasing significantly in a large number of countries, as these are considered the basic engines of economic growth. If we focus on the European Union, currently more than 60% of the population lives in cities, generating 85% of the wealth according to the Green Paper on Urban Mobility (EC, 2007).... [-]
Center: IUSistemas Intelligent and Numerical Applications. Qualification: Master in Intelligent Systems and Numerical Applications in Engineering. Type: Master. Branch: Engineering and Architecture. ECTS Credit Hours: 25 [+]
Master in Intelligent Systems and Numerical Applications in Engineering
Center: IUSistemas Intelligent and Numerical Applications
Qualification: Master in Intelligent Systems and Numerical Applications in Engineering
Branch: Engineering and Architecture
ECTS Credit Hours: 25
Degree of presence: 40%
Total credits: 60
CurriculumINTRODUCTION TO ADVANCED TECHNIQUES IN ENGINEERING Compulsory Mandatory SMART COMPUTING PARADIGMS DISCRETE EVENT SIMULATION, OPTIMIZATION AND RELIABILITY OF COMPLEX SYSTEMS Compulsory Methodological aspects of R & D ENGINEERING AND DESIGN OF EXPERIMENTS Compulsory PRINCIPLES AND TOOLS OF DOCUMENTARY PRODUCTION Compulsory SCIENTIFIC AND TECHNICAL INTRODUCTION TO LANGUAGES FOR NUMERICAL SIMULATION AND MODELING SYSTEMS IN ENGINEERING Optional CREATING AND EDITING DIGITAL VIDEO Optional FINITE ELEMENT METHOD ADAPTABLE AND APPLICATIONS IN ENGINEERING Optional GENERATION AND OPTIMIZATION TECHNIQUES FOR LOOP Optional SOLVING LARGE SYSTEMS OF EQUATIONS Optional PREDICTIVE ANALYSIS OF TIME SERIES Optional ENVIRONMENTAL MODELING AND SIMULATION Optional MODELING AND RELIABILITY OF COMPLEX SYSTEMS ENGINEERING: Optional INTRINSIC ORDER MODEL MODELING AND SIMULATION OF POLLUTANTS IN THE MARINE ENVIRONMENT SPILLS Optional METHOD BOUNDARY ELEMENTS Optional MODELING OF DYNAMIC PROBLEMS BY THE MEC Optional Optional MODELLING MARINE WAVES Optional MODELING SPREAD OF NOISE Optional elastic solids MECHANICS DATA MINING Optional BIOMETRIC COMPUTER Optional Pattern Recognition and Elective COMPUTER VISION Optional ENVIRONMENTAL INTELLIGENCE AND AUTOMATION Optional MOBILE SERVICES ROBOTICS Optional LEARNING AND ADAPTATION USER INTERFACES Optional PERCEPTUAL AUTONOMOUS NAVIGATION SYSTEMS Optional FUZZY LOGIC APPLICATIONS IN ENGINEERING Optional SOFTWARE ENGINEERING SYSTEMS Optional perceptual-Effector OPTIMUM DESIGN APPLICATIONS IN ENGINEERING BY EVOLUTIONARY ALGORITHMS MULTIOBJECTIVE Optional INTRODUCTION TO PARALLEL COMPUTING Optional COMPUTER ARCHITECTURE IN ENGINEERING Optional Optional... [-]