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Engineering×

University of Genoa, Full Time Masters Degrees in Engineering

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The Master of Science Programme (LM) in Safety Engineering for Transport, Logistics, and Production wants to provide students with a high level of advanced training, to enable them to operate in the areas the most qualified with reference to the various activities related to safety in transport systems, logistics, and related manufacturing. Read more

Aims and Basic Characteristics:

The Master of Science Programme (LM) in Safety Engineering for Transport, Logistics, and Production wants to provide students with a high level of advanced training, to enable them to operate in the areas the most qualified with reference to the various activities related to safety in transport systems, logistics, and related manufacturing.

The degree course aims at training a professional engineer with a thorough knowledge and understanding of the principles of systems engineering of transportation, logistics and production, in which to realize the acquired ability to conceive, plan, design and manage complex, innovative systems and processes, with particular attention to the related safety aspects.
The degree in Safety Engineering for Transport, Logistics, and Production will support the state exam for a license to practice in all the three areas of Engineering: Civil and Environmental, Industrial, and Information.

The typical professional fields for graduates in Safety Engineering for Transport, Logistics, and Production are those of the design and management of safety systems, with particular reference to the transport systems, the development of advanced innovative services, the management of logistics and production, in private and public enterprises, and public administration.

For any information, feel free to write to Prof. Nicola Sacco: safety_at_dime.unige.it

Job opportunities:

• engineering companies and/or large professional firms operating in the field of design, implementation, security management with reference of the transport systems and territorial
• public and private institutions that handle large lines infrastructure (railways, highways, ...)
• government (municipalities, provinces, regions, port authorities, ...)
• freelance
• research structures (universities, research centers, ...)

What Will You Study and Future Prospects:

The main goal is to enable M.Sc. graduates to operate in the various activities related to safety in transport systems, logistics, and production, but also of the territory where they are located.

The course provides notions about:

• the risk assessment of local systems, and in particular the planning, design and management of both safety (protection against accidental events) and security (protection than intentional events);
• the evaluation in terms of cost/benefits of different design alternatives for risk mitigation in transport, logistics, and production systems;
• the planning and management of the mobility of people and goods, through the knowledge of the fundamental elements of transport and logistic systems, as well as the criteria to define the physical characteristics of isolated infrastructures a network of infrastructures, with particular reference to the relevant functions and interdependencies;
• the design and safe management of transport, logistic, and production systems, with reference to either the systems as a whole, and to the relevant single components, such as infrastructures, facilities, vehicles, equipment;
• the development and use of advanced methods to manage and optimize the performance and safety of road, rail, air and sea infrastructure and transport services, as well as their interactions in an intermodal framework, by means of the design and implementation of monitoring, regulation, and control systems via the most advanced technologies related to their specific disciplines;
• the analysis and evaluation of the externalities of transport and logistic systems, with explicit reference to the particular safety aspect and issues characterizing each phase of the mobility of people and goods, even within the production plants connected, and their interaction with surrounding environment.

The course is articulated into two alternative curricula:

1. TRANSPORT AND LOGISTICS: This curriculum concentrates on the problems related to design and manage the complex systems that realize a safe and effective mobility of passengers and freights.

2. INDUSTRIAL LOGISTICS AND PRODUCTION: This curriculum concentrates on the problems related to design and manage the complex systems that realize a safe and effective production plant internal logistics and management.

Entry Requirements:

Admission to the Master of Science in Safety Engineering for Transport, Logistics and Production is subject to the possession of specific curricular requirements and adequacy of personal preparation.

The access requirements are equivalent to those provided by the general educational objectives of all three-year university degree in classes of Civil and Environmental Engineering, Information Engineering, and Industrial Engineering. In fact, one of the following curricular requirements must be fulfilled:

• possession of a Bachelor, or a Master degree, or a five-year degree in classes of Civil and Environmental Engineering, Information Engineering, and Industrial Engineering, awarded by an Italian University, or equivalent qualifications;
• possession of a Bachelor, or a Master degree, or a five-year degree with at least 36 ECTS (“Base Courses”, e.g. Mathematics, Physics, Chemistry, Informatics) and at least 45 ECTS that pertain to the Engineering classes, awarded by an Italian University, or equivalent qualifications;

To access, a knowledge of English is required, at least equivalent at B1 European Level.

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Please click here to view website www.itim.unige.it/mipet. Read more
Please click here to view website http://www.itim.unige.it/mipet

MIPET (Master in Industrial Plant Engineering and Technologies) is a One-year Degree Program organized in Genoa University and focusing on preparing new generations of top quality technical experts for Process Engineering, Industrial Plant Main Contractors, Power & Energy Industry, Iron & Steel Sector, Plant Equipment Suppliers as well as Construction Companies.

MIPET main aim it is to satisfy the expectation from Leading Industries in term of high technical skills and excellence capabilities in Industrial Plants and Engineering. The Master Program is directed by Polytechnic School - Faculty of Engineering in strong cooperation with leading industries and major companies operating in these industrial sectors; this approach guarantees the relevance and effectiveness of the initiative in the international scenario.

In fact this project is part of a large initiative devoted to develop excellence in Industrial Plant Engineering through the synergy between the expertise of Genoa University Engineering Faculty and Top Level Companies with long traditions that are leading this Area Nationally and Internationally in term of turnovers, size, processes and products complexity as well as know how and technical background and skills.
MIPET is devoted to create System and Process Engineers, Technical Coordinators operating effectively in Project Teams in Global Engineering and Construction. This Master provides deep technical skills in Industrial Plants as well as the capability to get the whole overview on the project and its technical aspects along the whole project phases: Offering, Engineering, Purchasing, Construction and Erection and Commissioning.

At the completion of the Master Program students develop transversal capabilities in all the critical areas (mechanics, high power, electronics , automation, computation, management, security and safety, materials, processes and components) combined with their specialization expertise in specific Plant Sectors (i.e. Power Equipment, Iron & Steel) as well as with the Company Internship Experiences.

More details can be found here: http://www.itim.unige.it/mipet

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The Master of Science course in Energy Engineering is aimed at students trained as general engineers with skills on the new technologies relevant to the energy conversion and its rational use. Read more
The Master of Science course in Energy Engineering is aimed at students trained as general engineers with skills on the new technologies relevant to the energy conversion and its rational use. Candidates will be required to plan, design and manage energy systems blending creative solutions with up-to-date technologies relative to energy conversion and efficiency enhancement.

At the end of the course, engineers will be good at operating in the current technological/industrial environment - i.e. a dynamic and competitive one - and sensitive to the main industry, environment and security issues and standards.

The main aim of the course is to offer an in-depth theoretical and practical understanding of the most advanced energy conversion technologies, including renewable energy generation and energy storage.

Please visit http://www.en2.unige.it for any further information.

The Course is held at Savona Campus, in the city of Savona.

WHAT WILL YOU STUDY AND FUTURE PROSPECTS

The course consists of modules that include thermo-fluid dynamics and thermo-chemical dynamics, as well as fluid machinery and energy conversion systems (co-generation, fuel cells, power plants from renewable energy sources and smart grids), traditional energy and civil engineering plants, electric networks, economics, available and emerging technologies for reducing greenhouse gas emissions and environmental monitoring.

A rising interest in and increased urge for 20/20/20 policies in Europe has resulted in a growing industrial demand for highly qualified Energy Engineers with a sound knowledge and specific skills to analyze, design and develop effective solutions in a broad range of contexts. Furthermore, in the last few years both emerging industrial countries and developing ones have increased their awareness of environmental issues and energy production and started implementing large energy engineering projects thus boosting the job opportunities worldwide. The course is aimed at students seeking high qualification in the following main fields:

Energy conversion processes from chemical, bio-chemical, thermal sources into mechanical and electrical ones

Sustainable & Distributed Energy: renewable energy (solar, geothermal, wind, hydro), fuel cells, bio-fuels, smart power grids, low emission power plants Sustainable Development: C02 sequestration, LCA analysis, biomass exploitation, Energy Audit in buildings, energy from waste, recycling, modeling and experimental techniques devoted to optimum energy management.

The MSc course work in partnership with industries and research institutes in Liguria, in Italy and abroad.

WHAT DOES THE MASTER IN ENERGY ENGINEERING OFFER TO ITS STUDENTS

In the last years both industrialization and population growth have brought to a higher demand for sustainable energy, smart energy management with reduced environmental impact. As a result the MSc Energy Engineering was born out of the need to better cope with Sustainable Development issues and progress in energy conversion technologies, in including renewable energy generation and energy storage, NZE buildings, with an increasing attention devoted to greenhouse gas emissions reduction through a multidisciplinary approach.

This MSc course is taught in English and students are supported in achieving higher English language skills. The University of Genoa set its modern campus in Savona and in the last few years, public and private funds have been invested to improve its infrastructures, sport facilities, hall of residence, library and an auditorium.

The University of Genoa and Siemens jointly developed a smart polygeneration microgrid in Savona Campus – officially commissioned on February 2014.

Since then the campus has largely generated enough power to satisfy its own needs with the help of several networked energy producers, i.e. total capacity 250Kw of electricity and 300kW of heating.

The grid includes microgasturbines, absorption chillers, a photovoltaic plant, a solar power station and electrochemical and thermal storage systems.

This huge facility together with a series of laboratories located at the Campus (e.g. Combustion Lab, Energy Hub Lab) offer the students a unique opportunity for hands-on activities, e.g. to measure and investigate the performance of real scale innovative energy systems.

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The M.Sc. in Engineering for Natural Risk Management aims to train professionals capable of working in all sectors of safety and civil protection, both public and private, at national and international level. Read more

The M.Sc. in Engineering for Natural Risk Management aims to train professionals capable of working in all sectors of safety and civil protection, both public and private, at national and international level. Thanks to its multidisciplinary nature, the program will provide the skills to coordinate the activities of a complex system such as civil protection.

The student of the M.Sc. in Engineering for Natural Risk Management at the end of his studies will have the following knowledge and understanding capabilities:

a) Knowledge of physical phenomena that generate disasters

b) Capacity of understanding of the mechanisms of interaction between natural events and industrial activities that can generate technological risk

c) Ability to understand and evaluate the legal implications related to the management of emergency situations.

The acquired knowledge may be applied for the:

a) Use the most advanced technologies in order to assess risk exposure and vulnerability, predict the occurrence of catastrophic events and post disasters impact assessment.

b) Assessment of environmental impact of natural disasters

c) Definition of emergency plans for the integrated risk management and decisions support in emergency situations

The courses are fully taught in English. The fourth semester is mainly devoted to internships and thesis work to facilitate international exchanges and contacts with the labour market.

The program has the support of CIMA Foundation, expert center of the national civil protection, which is based in the University Campus of Savona. CIMA has the University of Genoa, the Department of Civil Protection, the Liguria Region and the Province of Savona as founding members. CIMA will provide laboratories, researchers and administrative staff to support the teaching activities.

Students are offered the opportunity to carry out internships/periods of study at Italian and foreign institutions and universities.

Graduates in Engineering for Natural Risk Management may find career opportunities in:

1. public organizations and administrations;

2. international organizations that deal with emergencies and disasters;

3. international development cooperation;

4. humanitarian organizations;

5. private sector, insurances;

6. professional services;

7. research facilities;

8. operational centers for forecasting natural disasters and decision support.

Typical career opportunities for graduates in Engineering for Natural Risk Management are:

a. responsible for managing emergencies in public institutions/government (civil protection);

b. responsible in entities involved in the management of emergency conditions (eg. the fire-fighters, Forestry Police);

c. expert in risk monitoring in public bodies and international organizations;

d. responsible for planning the phases of management of emergencies in public bodies;

e. risk expert in insurance companies;

f. expert in operational management of emergencies in international governmental organizations, non-governmental and development cooperation;

g. expert in mapping of hazardous conditions with reference to security from natural and industrial risks working for professional offices, public/private institutions, public administration.



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The Master Program in Internet and Multimedia Engineering provides advanced education on signal, image, and video processing, networking and telematics, mobile and fixed communications systems, and applied electromagnetics. Read more

The Program in a Nutshell

The Master Program in Internet and Multimedia Engineering provides advanced education on signal, image, and video processing, networking and telematics, mobile and fixed communications systems, and applied electromagnetics.

We build high-level ICT professionals in Internet, Multimedia, and Telecommunication Engineering, with vision and knowledge on the current technology evolution, and ready to face the challenges of the Internet-of-Things, Big Data, Smart Systems and Machine Learning era.

Our program has a strong characterization toward Internet engineering on one side, and toward signal processing and multimedia systems, either networked or stand-alone, on the other side.
Students learn how to address the design, management, and operation of distributed communication and processing architectures and multimedia applications, in mobility and over heterogeneous networks, with diverse levels of smartness and interactivity.

The program has 2-year duration, includes 120 ECTS, and finishes with the defense of a master thesis. Classes start in the second half of September.

The University of Genoa offers scholarships and accommodation to its students through the ALFA Liguria regional authority. Dedicated grants for the students of this program may be provided in each academic year.
Visit our website to learn more about the scholarships and the services that the University of Genoa can provide: http://www.ime.politecnica.unige.it

For Your Job and Career

Graduates’ professional opportunities include all companies needing ICT expertise for development, deployment, production, and management. The high-level scientific and technological background we offer also allows graduates to be strong candidates in Ph.D. and 2nd-level master applications.

Owing to the extensive research activity of the faculty people involved in the program, the courses are always up to date with the latest scientific and technological achievements. Professors and Research Staff are strongly involved in research projects funded by the European Commission, the European Space Agency, the Italian Space Agency, universities around the world, and many other institutions and private companies.

How to apply?

If you have a Bachelor (or equivalent) degree in ICT and wish to pursue your studies, you are very welcome.

For all foreign students: you are strongly advised to upload your curriculum, titles, and qualifications to the program website (http://www.ime.politecnica.unige.it) for a pre-evaluation, and contact the program coordinator, , asap.
Visas are generally required for non-EU students. No visa is necessary for EU students.

For students coming from outside EU: you MUST also pre-enroll to this program at the Italian embassy/consulate in your country. This step is MANDATORY for non-EU students.
DEADLINE FOR PRE-ENROLLMENT IS JULY 20, 2017.
Consular and visa procedures may be time-consuming, and acting ahead is strongly advisable.

Learn more on

http://www.ime.politecnica.unige.it

Contacts

Prof. Franco Davoli, , Master Program Coordinator
Management Office:
Admin Foreign Students Office of the University of Genoa:

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EMARO+ is an integrated Masters course conducted by. Ecole Centrale de Nantes (France), Warsaw University of Technology (Poland), the University of Genoa (Italy), and Jaume I University (Spain). Read more
EMARO+ is an integrated Masters course conducted by: Ecole Centrale de Nantes (France), Warsaw University of Technology (Poland), the University of Genoa (Italy), and Jaume I University (Spain).

It has been designed and accepted in the framework of the European Union ERASMUS-MUNDUS programme (ERASMUS+ H2020).

It has 7 associated partners: two Asian Institutions (KEIO University - Japan, SJTU - China) and five industrial partners (IRT Jules Verne - France, Airbus Group Innovations - France), BA Systemes - France, Robotnik - Spain, and SIIT - Italy).

The programme of study lasts two academic years (120 ECTS) split into four equally loaded semesters. The student has to spend the first two semesters in one European institution and the second two semesters in another European institution. Another mobility during the fourth semester to an Asian partner or to an industrial partner is possible.

The language of instruction is English, but local language and culture courses of the hosting countries are included in the programme of study. The aim of the first two semesters is to provide the students with a solid interdisciplinary background across the main areas of robotics (Cognition, Action, Perception). During the third semester, depending on the host institution, the student will deal with one or more of the following sectors: industrial robot systems, service robots (domestic, health, rehabilitation, leisure), intelligent vehicules and security robots. The fourth semester is dedicated to the Masters Thesis. The student carries out his/her research work under the joint supervision of two advisors from two different consortium institutions.

Students that graduate from the EMARO masters course obtain two masters degrees from the European institutions where they studied. The obtained degrees are officially recognised and give full access to PhD study programmes.

The Consortium delivers a Diploma supplement describing the nature, level, context, content and status of the studies that were pursued and successfully completed by the student.

The Masters is designed to promote a high-quality educational offer in the area of advanced and intelligent robotics. After graduation the students will have mastered the different areas of robotics (Mathematical modeling, Control Engineering, Computer Engineering, Mechanical design) in order to be able to deal with Robotics systems as a whole rather than just to concentrate on one particular area.

Although the EMARO+ programme is applied primarily within the context of robotic systems, the concepts covered can be applied to a much wider range of other engineering and economical systems. The career prospects for EMARO+ graduates are therefore excellent. They can be employed in many industrial and economical companies, as the courses are relevant to today’s high technology society.

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