Master's Program in Software Engineering in Italy

Search Masters Programs in Software Engineering in Italy 2017

Software Engineering

A master's degree is a postgraduate academic degree. One must already have an undergraduate degree to apply for a master's program. Most master's degree program would require students to complete a master's thesis or research paper.

Software engineering refers to applying engineering methods and techniques to computer programming and software creation. Software engineering students often learn about disciplines such as computer science and mathematics to help them create customized software systems for companies or large corporations.

Italy, officially the Italian Republic, is a unitary parliamentary republic within the European Union, located in Southern Europe. To the north, it borders France, Switzerland, Austria, and Slovenia along the Alps.

Top Master Programs in Software Engineering in Italy 2017

Read More

Master in Computer Science

Marconi University
Campus Full time 12 months October 2017 Italy Rome

The Master in Computer Science responds to this need and represents an important opportunity of vocational training on: development/implementation of information systems architecture; development, management and maintenance of business databases; implementation of guidelines for software development; knowledge and implementation of policies for the security and reliability of systems and the web. [+]

Best Masters in Software Engineering in Italy 2017. With the spread of information technologies into contemporary lifestyles and into many different professional contexts, it is evident how important is to meet the growing demand for high-qualified learning programs for the development and project of effective and innovative IT solutions. The Master in Computer Science responds to this need and represents an important opportunity of vocational training on: development/implementation of information systems architecture; development, management and maintenance of business databases; implementation of guidelines for software development; knowledge and implementation of policies for the security and reliability of systems and the web. A student is granted a Master’s degree after successfully defending his or her final thesis in front of a panel of judges. Grading is based on a scale of 0-110; 66 is the passing grade and students who obtain full marks of 110 may also be awarded ‘summa cum laude’ (110 e lode). The final thesis of the Master’s program, intended to assess the technical, scientific and professional preparation and competences of the student, requires the completion, discussion and presentation of a written project work during the dissertation. The MCS degree program consists of four modules: Computer networks (12CFU/ 9 quarter credits), Database (12CFU/ 9 quarter credits), Software engineering (18CFU/ 13.5 quarter credits) and Security (12CFU/ 9 quarter credits). Module 1 – Computer networks – MCS_E_M1 CFU/ECTS 12 – US QC 9 The module allows you to have in depth knowledge of computer and telecommunication networks. A description of the layers will be given: physical, data links and the network and transport of the OSI model. Furthermore, the features of the main systems used in geographical areas will be described such as telephone networks and cell phone systems, as well as metropolitan areas such as WiMax where protocols and structures will be explained. Lastly, the functioning of IPv6 will be considered. Module 2 – Database – MCS_E_M2 CFU/ECTS 12 – US QC 9 The module aims to present the system characteristics, their architecture and the principles that they aspire to, based on database technology and in particular on the relational ones. They deal with the application design point of view and, in addition, the systems for data management, interrogation languages and design methodologies will be studied on the databases themselves. They will deal with automatic information retrieval systems from heterogeneous and distributed sources by giving the skills needed to understand the processes and techniques of information processing which characterize today’s search engines and their applications. Particular emphasis will be given to automatic learning technologies which allow for the rapid development of systems based on the reutilization of data and available knowledge in electronic format within open sources. Module 3 – Software Engineering – MCS_E_M3 CFU/ECTS 18 – US QC 13,5 The module’s objective is to understand the more advanced aspects of object oriented programming by using Java as the language of reference. The software industrial production process will be defined, by highlighting the lifecycle of the software product from the requirements stage to the implementation and integration stage according to the most modern object oriented methodologies. The knowledge for the analysis, design and quality software systems implementation will be given, by focusing on the description of the software development stages. Furthermore, the methodologies developed for complex problem analysis will be described in order to evaluate the complexity of each approach and to identify the structures and strategies to resolve them. Module 4 – Security – MCS_E_M4 CFU/ECTS 18 – US QC 13,5 The module intends to give the know how in order to understand the different aspects in which we articulate the theme of security in computing systems. The technical aspects relating to cryptography, system and network security will be dealt with, as well as the managerial and normative point of view. The capacity of dealing with the digital signals which must be transmitted remotely or stored on a device will be considered, whose purpose is to reduce redundancy and increase the probability of correct information retrieval after the transmission or storage. Learning Objectives The Master enables students to project, develop, create, manage and maintain business information systems and is specifically focused on the physical structure of the information network. Moreover, the Master provides students with the basics in the field of the development of software and the management of business databases, web applications and mobile technology. Outcomes and Professional Profile The Master in Computer Science intends to form high-skilled professionals able to work in public and private organizations worldwide as business information systems managers. [-]

Master in Software and Service Architectures (SSA)

EIT Digital Master School
Campus Full time 2 years September 2017 Italy Trento

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. [+]

Formerly known as: Service, Design and Engineering SDE) Why study the EIT Digital Software and Service Architectures programme? The EIT Digital SSA programme offers: Innovative and well grounded education for the next generation of service designers and software architects. Studies at two of Europe´s foremost technical universities leading to a double degree. A good integration with tailored courses in Innovation and Entrepreneurship. A thesis work connected to interesting industrial challenges. Access to the competence of eight EIT Digital innovation action lines (link) not least through a summer school between the two years. Access to the co-location centres and innovation ecosystems of the nine EIT Digital nodes. What is the programme all about? 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 SSA programme is an interdisciplinary programme that offers courses to enable graduates to take on the following challenges: What software-based businesses should be developed (user centric needs and business focused opportunities) How should software be developed (modern and agile software engineering methodologies integrated with design thinking and User Centric/Service Design methods) How can software be used to generate and improve business benefits (Service Oriented Architectures, Internet of Things, etc.) SSA students will learn to work in teams to guide the software development process of complex information systems. What are the career opportunities for graduates from the programme? The SSA programme approach is multidisciplinary covering a wide range of topics from user studies, user centered development and business process modelling to software engineering, data analysis, software security and highly distributed software system. Graduates from the SSA master’s programme will qualify for jobs in international and local companies involved in digitalized business, in software and service design companies and in software consultancies with a service focus: Graduates will also be able to contribute to and start totally new businesses. Typical job descriptions or titles are; Software and services designer; Software architect; Information System architect; Systems designer / engineer; Business developer; Product manager; Consultant. How is the programme structured? The programme is a double degree programme with studies at a university in one country the first year (entry) and studies at a university in another country the second year (exit). The programme has an integrated technical content (Technical major) and business content (Innovation & Entrepreneurship – I&E minor). The I&E minor is shared between all EIT Master's programmes (link). An integral part of the second year is a Final Degree Project (30 ECTS, including Master's Thesis).The structure and content of the technical major is given below. Where can I study If I choose Software and Service Architectures? Entry - 1st year UNITN - Trento Aalto - Helsinki ELTE - Budapest Exit - 2nd year, specialisation Software and Services for Social systems (UNITN - Trento) Software and Services for Smart Spaces (Aalto - Helsinki) Scalable Systems (ELTE - Budapest) Business Process and Information Management (TU/Eindhoven) Software and Services in the Cloud (UPM - Madrid) Specific Admission Requirements A B.Sc. degree primarily in computer science, software engineering, information systems, telecom or digital media is required. In special cases bachelor degrees from areas like engineering, economics, or industrial arts and design with some potential complementary computer science studies etc. mathematics and programming can be considered. [-]

Master Sensor System Engineering (SSE)

Hanze University of Applied Sciences - Groningen, the Netherlands
Campus Full time 1 year

This master prepares you for a bright future in the fascinating world of advanced sensor applications. A domain that is rapidly growing, providing all kinds of interesting prospects for you, ambitious engineers. Within the globally important domain of health, sensor applications will provide totally new ways to monitor, heal, treat and care for people. [+]

Best Masters in Software Engineering in Italy 2017. Sensor System Engineering: www.hanzegroningen.eu/msse Passionate about technology and engineering? ​​ Are you open minded, do you like to stretch boundaries to find out what is out there? Can you apply yourself, developing new ways to move the technology ahead, specifically in the health domain? Then take a moment to consider the opportunity to join us for one year to complete the Sensor System Engineering (SSE) honours master's programme.​​​ Programme overview General knowledge about sensor applications needed for any type of specialisation Specialised knowledge involving sensors in the health domain Honours content Master's thesis project (30 ECTS) General knowledge about sensor applications needed for any type of specialisation Linear algebra (4 ECTS): mathematics required for the next modules. Advanced data analysis (4 ECTS): integrating data coming from multiple complex sensors and to interpret this data correctly Modelling & simulation (4 ECTS): theory and tools required to model complex systems and to analyse and represent simulated data. Data centric architectures (4 ECTS): the architectural design of sensor systems at the level of of system architectures for big data applications and at the level of digital signal processing (DSP). Specialised knowledge involving sensors in the health domain Products and services in Health (4 ECTS): using real cases to learn the full design process of a health related sensor system. Sensor applications in Health (3 ECTS): exploration of sensor applications in biology, technology, diagnostics and application in health environments like hospital and home care. Honours content Professional skills (3 ECTS): learning to excel in the professional fi eld by developing essential professional, non-technical skills. Research & ethics (5 ECTS): learning necessary research skills as well as the ability to reflect on ethical issues. Community contribution (1 ECTS): forming a network for the students to help them solve particular problems in a multidisciplinary setting. Master's thesis project (30 ECTS) A six month research project in the domain of sensor technology and health in industry, a research institute or university department, resulting in a master's thesis. [-]

Master in Computer Science

University of Göttingen
Campus Full time 4 semesters

The programme contents include the development of modern experimental and product oriented information processing systems. Computer science can be divided into the areas of theoretical computer science, practical computer science, technical computer science as well as applied computer science. [+]

Master in Computer Science (M.Sc.)

 

Computer science is the science of systematic and automated processing of information. It deals with the structures, characteristics and possibilities to describe information and information processing as well as the setup, working method and construction principles of computer systems. General procedural methods of information processing and general methods of their application are researched. The programme contents include the development of modern experimental and product oriented information processing systems. Computer science can be divided into the areas of theoretical computer science, practical computer science, technical computer science as well as applied computer science.Students will deal with the possibilities of structuring, formalisation and mathematization of application areas in the form of special models and simulations. They will acquire knowledge in engineering development of software systems for different areas of application with special consideration of high adaptability and the man-computer interaction of such systems.The programme aims to convey extensive knowledge in the subject of computer science in theory and practice as well as with reference to an application subject. This comprises methods to solve application problems and their realization in an appropriate computer form.In Göttingen, particular importance is placed on the close connection with the application subject. In addition, the practical orientation can be further developed through project work and external internships. These internships are undertaken in an industrial company or a research institute.Those selecting computer science as their subject of study should be interested in a mathematically formal as well as an application-oriented practical way of working. The capability of working in a team is an important requirement for later daily work. Knowledge of the English language is required. Specialised knowledge, especially in programming, is not required.... [-]