A masters degree in Engineering design helps one to focus on the production market with the designing of products the main agenda of the program. Formation of products is the goal of the program and graduates are expected to gain the relevant skills to be able to compete favorably in the product markets. This masters program aims at providing the graduate of the program with the skills and the ability to understand the market and to design products that can compete favorably with other products in the market.
Graduates get to gain an understanding of how the shaping and the aesthetic design functions together for the product brand. The students also get to experience the strict demands for tolerance and the functionality of the product. A masters program in engineering design imparts organizational and technical skills in the product environment, designing of complex products as well as innovative ones, and engineering. Important skills in the program that every student is expected to gain by the end of the course include: calculation skills, and the application of science. These skills come in handy for the student during problem solving. A masters degree in engineering design requires the students to undergo: project participation exercises, do modeling, simulation, redesigning, measuring up and making of prototypes. The employment opportunities available for graduates of this masters program include careers in manufacturing, construction field, consultancy in car production, oil branch and space technology, boat constructions, and house building detailing. Due to the high level of specialization of the program, graduates of this program are highly marketable and easily find themselves attractive jobs.
The MA/MSc Computational Design opens up for the possibilities of computer programming within a research lead context for the creative industries. [+]
The HBR (Historic Building Rehabilitation) international curriculum of the Masters in Engineering of Building Processes and Systems was built to meet the needs of new professionals, able to integrate the functions traditionally found within the process, by focusing on the critical analysis of the historical heritage, the diagnosis of conservation conditions, the definition of procedures and techniques for consolidation and rehabilitation of the artefacts, by applying effective methods and solutions, compatible with the protection of the heritage characters. More information here: http://corsi.unibo.it/2cycle/HistoricBuildings/Pages/default.aspx [+]
The programme in Software and Service Architectures is an enhanced version of the previous programme on Service Design and Engineering and aims to educate the next generation of service designers and software architects capable of designing and engineering novel software systems to: (i) Drive digitalization of businesses, (ii) Create new businesses based on software intensive services, (iii) Be responsible for the elicitation and definition of what software products and services IT companies should create in order to be successful; (iv) Be responsible for the processes and methods for the effective development of modern software systems. [+]
The purpose of the programme is to develop an engineer with advanced abilities in applying fundamental structural engineering sciences, design and synthesis to specific structural engineering problems in society at large. One of the main objectives is to develop an advanced capability to do fundamental structural engineering research independently and, in so doing, promote lifelong learning. [+]
Program description: Advanced Computational Mechanics (ACM) is addressed for students who want to increase their knowledge in mechanics and computer application in design of structures (CAD, FEM), material design (CAMD), material selection (CAMS), manufacturing (CAM) and monitoring of machines. Program of studies: Regular: Advanced mathematics (4 ECTS), Engineering mathematics II (2 ECTS), Solid state physics (2 ECTS), Continuum mechanics (2 ECTS), Analytical mechanics (2 ECTS), Numerical methods II (2 ECTS), Objectoriented programming (1 ECTS), Material science II (4 ECTS), Modern structural materials (2 ECTS), Advanced modeling of materials and structures (5 ECTS), Modeling in machine design (4 ECTS), Integrated processing systems (3 ECTS), Advanced FEM modeling (4 ECTS), Advanced strength of materials (2 ECTS), Dynamics of mechanical systems (2 ECTS), Experimental mechanics of solids (2 ECTS), Individual project (5 ECTS), Seminar (3 ECTS), Final project (20 ECTS) Total: 675 h [+]
The Master in Visual and Web Design provides overall competence in both Visual Design and Web Design. [+]
-- One year Master's course
-- Starting date: October 20th 2014
-- Academic training + internship
The Master in Visual and Web Design provides overall competence in both Visual Design and Web Design.
It is intended for students who are interested in two masters of the same area, to provide them with the possibility to attend a Master course with a double specialization.
This kind of course foresees a higher number of lessons per week and a strong commitment during project works, but it’s also an interesting chance to specialize in two different subjects.
The Visual and Web Design Master's course lasts for one year (from October to December, with a summer break in August).There will be a minimum of 30 hours of lessons per week. Attendance is compulsory and full time.... [-]
IAAD department of “Car Body Architecture” first in Italy opened in Turin in 1978. Since 2008 it is entitled in memory of Andrea Pininfarina. [+]
The Master of Engineering (ME) program in the Department of Civil and Environmental Engineering focuses on engineering practice and design. It can be completed within one calendar year and consists of up to 24 credits of graduate-approved coursework, (up to 18 in the major subject area and six in a minor area), and up to seven credits from a design project. [+]
The Graduate Smart Grid (Smart Grid) (PXEI) created with the aim of training professionals who can meet the demands of the energy sector in the coming years, which necessarily dominate the technologies involved in the Smart Grid (smart grid ). [+]
Mechatronics is a synergistic and integrated process of several sciences and skills (among which control and computer sciences, electronics, mechanics) which allows to conceive and to design products and systems with augmented or improved functionality and which requires to consider the conception of the product or system in its overall lifecycle in a cooperative interdisciplinary approach. [+]
The MA in Interaction Design programme focuses on human-centered design. The ongoing evolution of smart consumer technology has increased the need for well-designed intuitive user interfaces and experiences. [+]
In the courses, great importance is placed on a continuous interaction between theoretical and scientific knowledge and practical application. [+]
In the Master’s study programme students firm and fill knowledge and skills acquired during bachelor study. Furthermore, they gain further knowledge and skills to be able to understand the depth and breadth of engineering materials in interrelationships. [+]
Studying this Masters, you will cover a wide range of topics not traditionally covered in undergraduate degrees; the programme includes specialist modules in structural dynamics, bridge engineering, structural design and professional engineering. [+]
The Master in Transportation Design offered by the Istituto Europeo di Design sets itself up as an incubator for tomorrow's professionals and, thanks to an ongoing relationship with Companies closely involved in this sector, it intends to contribute to the creation of very sought after and highly specialised professionals. Over the course of two years on a full-time basis, the Master expects to hone and develop the student's competence in terms of his/her critical approach, analytical and methodological skills, providing the tools to start creating his/her own innovative concepts; in other words the aim is to train these professionals who will have the sensibility, courage and competence to imagine and design the vehicles of tomorrow. [+]