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University of Pisa
7th
position in QS 2021 ranking in Italy
10th
position in Times Higher Education 2020 ranking in Italy
20
Departments
13
Museums
17
Libraries
The University of Pisa is a public institution with twenty departments, and high level research centres in the agriculture, astrophysics, computer science, engineering, medicine and veterinary medicine sectors. Furthermore the University has close relations with the Pisan Institutes of the National Board of Research, with many cultural institutions of national and international importance, and with industries, especially those based in information technology, which went through a phase of rapid expansion in Pisa during the nineteen sixties and seventies.
The University of Pisa was officially established in 1343, although a number of scholars claim its origin dates back to the 11th century.
The earliest evidence of a Pisan "Studium" dates back to 1338, when the renowned jurist Ranieri Arsendi transferred to Pisa from Bologna. He along with Bartolo Da Sassoferrato, a lecturer in Civil Law, were paid by the Municipality to teach public lessons.
The papal bull 'In supremae dignitatis', granted by Pope Clement VI on 3 September 1343, recognized the 'Studium' of Pisa as a 'Studium Generale'; an institution of further education founded or confirmed by a universal authority, the Papacy or Empire. Pisa was one of the first European universities that received this papal attestation, which guaranteed the universal, legal value of its educational qualifications.
The subjects taught first were: Theology, Civil Law, Canon Law and Medicine. In 1355 Francesco Da Buti, the well-known commentator of Dante's Divine Comedy, began teaching at the "Studium".
Pisa and its "Studium" underwent a period of crisis around the turn of the 15th century: the Florentines' conquering of the town ruined its economic and social life. However, there is a lack of documented evidence on the University's regular functioning for decades.
In 1473, thanks to Lorenzo dei Medici, the Pisan Studium resumed its systematic development and the construction of a building for holding lessons was built in 1486. The building - later known as Palazzo della Sapienza (The Building of Knowledge) - was located in the fourteenth-century Piazza del Grano. The image of a cherub was placed Above the Gate 'Dell'Abbondanza' (the Gate of Abundance), leading to the Piazza, which is still today the symbol of the University.
Following the rebellion against Florence in 1494 and the war following, the Pisan Studium suffered a period of decline, and was transferred to Pistoia, Prato and Florence. The ceremonial re-opening of the University, on 1 November 1543, occurred under the rule of Duke Cosimo I dei Medici, who was considered as a second inauguration. The statute of 1545 improved the quality of the University and the Pisan Athenaeum became one of the most notorious in Europe for teaching and research. Luca Ghini held the chair of "Semplici" (Botany), and was the founder of the world's first Botanical Gardens, succeeded by Andrea Cesalpino, who pioneered the first scientific methodology for the classification of plants and is considered a forerunner in the discovery of blood circulation. Gabriele Fallopio and Marcello Malpighi lectured in Anatomy and Medicine.
The University of Pisa has taken a key role in promoting European mobility since the first years of the Erasmus Programme, when it was a member of the ECTS Pilot Project. As a prestigious international university, whose role is that of promoting and enhancing the elaboration and transfer of knowledge at a level of excellence in an international framework, the University of Pisa has supported and participated not only in Erasmus mobility programmes since 1989, but also in Erasmus centralised actions and projects including Intensive Programmes, Curriculum Development programmes, Thematic and Academic Networks.
The University of Pisa is deeply committed to continuing this strategy and developing it further in the future phases of Erasmus. It salutes the opening of Erasmus to the wider world as an opportunity to coordinate and develop mobility between Europe and the world's other macro-regions, and to improve the tools that ensure the quality of that mobility. It has been since 2000 one of the promoters of the Tuning Process, in Europe, Latin America, Russia, Georgia and it is represented on the Tuning Management. At present it coordinates, from a scientific and academic point of view, the large-scale TuCAHEA Tempus Structural Measures project, which aims to create a Central Asian Higher Education Area aligned with the EHEA.
Select level of study to filter the courses:
The program has been established and is specifically intended to train specialized professionals able to effectively carry out the design and management of complex aerospace systems, as well as to prepare students for further studies in the aerospace engineering field. These objectives are pursued by providing a thorough education in the foundations of the aerospace engineering sciences, with emphasis on research and the experimental methods.
Entering students should have a sound background in undergraduate mathematics, physics, and engineering science. The theoretical and scientific aspects of aerospace engineering are treated in detail, with the aim of developing the capabilities necessary for the effective design and management of aerospace vehicles and systems.
Key Learning Outcomes:
Occupational Profile/s of Graduates:
The aerospace engineering program opens the way to further academic work as well as to professional activities in aerospace industry, in public and private research institutions in the aerospace field, in the Air Force, and in industrial companies for the production of machinery and equipment where the application of aerospace-derived technologies is especially relevant. Finally, as a consequence of the multidisciplinary nature of the educational program, the aerospace engineering graduates will also easily find employment in the mechanical industry, with specific reference to structural and fluid mechanic design work.
Access to further study:
The Laurea Magistrale degree in AEROSPACE ENGINEERING allows the graduate to compete for entry into a Third Cycle programme/doctoral school.
Pisa Campus
Language: English
The program has been established and is specifically intended to train specialized professionals able to effectively carry out the design and management of complex aerospace systems, as well as to prepare students for further studies in the aerospace engineering field. These objectives are pursued by providing a thorough education in the foundations of the aerospace engineering sciences, with emphasis on research and the experimental methods.
Entering students should have a sound background in undergraduate mathematics, physics, and engineering science. The theoretical and scientific aspects of aerospace engineering are treated in detail, with the aim of developing the capabilities necessary for the effective design and management of aerospace vehicles and systems.
Key Learning Outcomes:
Occupational Profile/s of Graduates:
The aerospace engineering program opens the way to further academic work as well as to professional activities in aerospace industry, in public and private research institutions in the aerospace field, in the Air Force, and in industrial companies for the production of machinery and equipment where the application of aerospace-derived technologies is especially relevant. Finally, as a consequence of the multidisciplinary nature of the educational program, the aerospace engineering graduates will also easily find employment in the mechanical industry, with specific reference to structural and fluid mechanic design work.
Access to further study:
The Laurea Magistrale degree in AEROSPACE ENGINEERING allows the graduate to compete for entry into a Third Cycle programme/doctoral school.
Pisa Campus
Language: English
The MSc program in Exploration and Applied Geophysics has the objective of preparing student with a solid background on classical physics and mathematics the limitations of the geophysical methods of investigation. They will be able to use the existing physical, mathematical, and computational methodologies that together the related geosciences and engineering methods, allow for an effective exploration of the Earth, at various spatial and temporal scales, for either scientific or application purposes.
Key Learning Outcomes:
Graduates of MSc in Exploration and Applied Geophysics will acquire:
Occupational Profile/s of Graduates:
The graduates of the Master of Science in Applied Geophysics Exploration and may exercise exploration geophysics, analytical and numerical treatment of the data geophysical, mathematical and numerical modelling of geophysical phenomena, while developing a strong interaction with other disciplines of geosciences and engineering. The acquired skills will support the integration of graduates in the areas of oil companies and the exploration and production of renewable energy, service companies and geophysical consulting freelance, public research institutions, and government institutions for monitoring and environmental protection.
Access to further study:
The Laurea Magistrale degree in EXPLORATION AND APPLIED GEOPHYSICS allows the graduate to compete for entry into a Third Cycle programme/doctoral school.
Pisa Campus
Language: English
The Master programme in Artificial Intelligence and Data Engineering provides a solid in-depth education that enables the graduates to design and implement, on one side, systems for efficiently managing large amount of data and extracting useful knowledge from this data, and, on the other, intelligent systems by exploiting artificial intelligence techniques. The MSc advances the student knowledge portfolio in both computer infrastructures for intensive data management, and methods for data analytics and artificial intelligence. These competences allow graduates to interact with professionals (even non-engineering ones) in different domains and contexts where data processing is required, as well as to complete their mastering of computer engineering.
The course is structured to admit not only students with already a strong background in computer engineering, but also students coming from different disciplines with at least a proper knowledge of programming languages. Graduates in computer engineering will have the opportunity for going in-depth into engineering and methodological disciplines; the graduates in other disciplines will complete their knowledge of base methodologies of computer engineering, including operating systems, computer networks, databases, algorithms and advanced programming.
Compulsory activities are in English. Elective activities are in English or Italian. The total of ECTS given in English is sufficient to complete the programme and take the degree, hence knowledge of the Italian language is not a prerequisite. However, learning activities covering basic subjects in computer engineering, meant for admitted students not having a strong background in this field of study, are only taught in Italian.
Key Learning Outcomes:
Graduates will be allowed to develop a knowledge of related disciplines in the fields of optimization, statistics, business management and law, as well as complementary disciplines such as bioengineering and robotics.
Occupational Profile/s of Graduates:
Access to further study: The Laurea Magistrale degree in ARTIFICIAL INTELLIGENCE AND DATA ENGINEERING allows the graduate to compete for entry into a Third Cycle programme/doctoral school.
Pisa Campus
Language: English
The master’s degree programme in BIONIC ENGINEERING provides students with a multidisciplinary preparation on the fundamental principles of biomedical engineering, bio robotics and neural engineering. Students of the aforementioned master's degree will be equipped with the educational tools useful to address multidisciplinary research issues thanks to a fruitful collaboration with various research fields, such as medicine, biology, neuroscience, medical rehabilitation and surgery. The Master's Degree Programme in Bionic Engineering is divided into two curricula, one called Neural Engineering and the other one Bio robotics. This allows the student to choose a study plan mainly focused on the disciplines related to: 1) The design, development and operating systems of neural prostheses and of innovative sense systems, to the development of new methods for the acquisition and treatment of neural signals, the development and management of robotic systems capable of interacting and communicating with human beings and rules related to their specific role. 2) The development of human and animal robotic models, the development of robotic platforms and devices for surgery and targeted therapies, for robotic rehabilitation, for the replacement or functional assistance of upper and lower limbs, and on computational biomechanics.
Key Learning Outcomes:
Master Graduate students in BIONICS ENGINEERING will be able to demonstrate the following skills:
Occupational Profile/s of Graduates:
The Master’s Graduate student in BIONICS ENGINEERING has an interdisciplinary preparation in two important areas of BIONICS ENGINEERING: Neural Engineering and Biorobotics.
The first profile forms master graduate students who are able to obtain job positions with high responsibility in the design, development and management of new neuroprosthesis and innovative sensory systems, in the development of new methods for the acquisition and treatment of neural signals, in the development and management of robotic systems able to interact and communicate with human beings following social behaviours and rules related to their specific role, as well as in the development of new lines of research in these fields.
The second profile forms master graduate students who are able to obtain job positions with high responsibility in the design, development and management of new biorobotic systems for health and / or biomimetics, of telerobotic systems, of advanced prosthetic and orthotic devices for assistance to the movement and rehabilitation of people with disabilities, of surgical robots and of micro / nano-therapeutic systems and regenerative medicine, as well as in the development of new lines of research in these fields.
Access to further study
The Master’s degree in BIONICS ENGINEERING allows the graduate to compete for entry into a Third Cycle programme/doctoral school.
Pisa Campus
Language: English
The master’s degree programme in BIONIC ENGINEERING provides students with a multidisciplinary preparation on the fundamental principles of biomedical engineering, bio robotics and neural engineering. Students of the aforementioned master's degree will be equipped with the educational tools useful to address multidisciplinary research issues thanks to a fruitful collaboration with various research fields, such as medicine, biology, neuroscience, medical rehabilitation and surgery. The Master's Degree Programme in Bionic Engineering is divided into two curricula, one called Neural Engineering and the other one Bio robotics. This allows the student to choose a study plan mainly focused on the disciplines related to: 1) The design, development and operating systems of neural prostheses and of innovative sense systems, to the development of new methods for the acquisition and treatment of neural signals, the development and management of robotic systems capable of interacting and communicating with human beings and rules related to their specific role. 2) The development of human and animal robotic models, the development of robotic platforms and devices for surgery and targeted therapies, for robotic rehabilitation, for the replacement or functional assistance of upper and lower limbs, and on computational biomechanics.
Key Learning Outcomes:
Master Graduate students in BIONICS ENGINEERING will be able to demonstrate the following skills:
Occupational Profile/s of Graduates:
The Master’s Graduate student in BIONICS ENGINEERING has an interdisciplinary preparation in two important areas of BIONICS ENGINEERING: Neural Engineering and Biorobotics.
The first profile forms master graduate students who are able to obtain job positions with high responsibility in the design, development and management of new neuroprosthesis and innovative sensory systems, in the development of new methods for the acquisition and treatment of neural signals, in the development and management of robotic systems able to interact and communicate with human beings following social behaviours and rules related to their specific role, as well as in the development of new lines of research in these fields.
The second profile forms master graduate students who are able to obtain job positions with high responsibility in the design, development and management of new biorobotic systems for health and / or biomimetics, of telerobotic systems, of advanced prosthetic and orthotic devices for assistance to the movement and rehabilitation of people with disabilities, of surgical robots and of micro / nano-therapeutic systems and regenerative medicine, as well as in the development of new lines of research in these fields.
Access to further study
The Master’s degree in BIONICS ENGINEERING allows the graduate to compete for entry into a Third Cycle programme/doctoral school.
Pisa Campus
Language: English
The Master programme in Computer Engineering provides its students with a solid and in-depth education, in line with the needs of innovation in the field of computer engineering. The course further advances the students’ knowledge portfolio in both the fundamental sciences and the engineering disciplines. This allows graduates to interact with engineering professionals from all backgrounds, as well as to complete their mastering of computer engineering.
The course includes a common set of learning activities, which go in-depth into methodological and engineering disciplines and completes the expertise in computer engineering. Students can then choose among three tracks, namely: Computer Systems and Networks, Cyber-physical systems, and Cybersecurity. The first one advances further on large-scale computing and networking infrastructures, the second one provides students with expertise on embedded systems and the internet of things and, finally, the last one focuses on the design of secure systems and applications.
Key Learning Outcomes:
Graduates of the Master programme in Computer Engineering will be able to demonstrate advanced knowledge in the following disciplines:
Occupational Profile/s of Graduates:
Access to further study:
The Master programme in COMPUTER ENGINEERING allows the graduate to compete for entry into a Third Cycle programme/doctoral school.
Pisa Campus
Language: English
Course Structure:
Year 1
Group Gruppo A - Choice of from:
Year 2
Group Attività a scelta libera - Choice from:
Pisa Campus
Language: English
Full time master degree offered in the field of materials and nanotechnology.
Pisa Campus
Language: English
Course structure:
Year 1
Group Free choice - Choice from:
Year 2
Group Free choice - Choice from:
Pisa Campus
Language: English
Course Structure:
Year 1
Group Gruppo A - Choice of from:
Year 2
Group Attività a scelta libera - Choice from:
Pisa Campus
Language: English
Peace studies: conflict transformation and development cooperation
Pisa Campus
Language: Italian & English
The master Degree in Computer Science aims at educating specialists with solid foundations in computer science and high qualification in information technologies. It provides a high level of scientific preparation and specialization in the design of innovative software systems and evolving information and communication technologies.
The scientific and methodological approach of the master will allow graduated students to manage the complexity of modern information systems and to contribute to the progress of computer science both in its basic foundations and in its different applicative areas.
This integration between technology and scientific foundations is a distinctive feature of the Degree in Computer Science.
The programme of studies is organized into for currculum:
Each curriculum has characterizing and elective courses and, at the end of the studies, grants a supplement diploma that states the specialization reached by the student in one of the four curriculum.
Key Learning Outcomes:
Occupational Profile/s of Graduates:
The main professional skills of the student graduated in Computer Science are the design, development and management of information systems. In particular, the degree in Computer Science prepares students for different professions:
Pisa Campus
Language: English
The Degree Programme in Computer Science and Networking has the objective of meeting the growing demand for an emerging kind of professionals with expertise in computational and communication technologies in an integrated and interdisciplinary way.
The aim is to have graduates able to design and to develop innovative hardware-software distributed infrastructures, and distributed service-based applications in several areas of industry, e-business, research, social and citizen services, public administration.
Key Learning Outcomes
Occupational Profile/s of Graduates:
Pisa Campus
Language: Italian & English
The Degree Programme in Computer Science and Networking has the objective of meeting the growing demand for an emerging kind of professionals with expertise in computational and communication technologies in an integrated and interdisciplinary way.
The aim is to have graduates able to design and to develop innovative hardware-software distributed infrastructures, and distributed service-based applications in several areas of industry, e-business, research, social and citizen services, public administration.
Key Learning Outcomes
Occupational Profile/s of Graduates:
Pisa Campus
Language: Italian & English
Course structure diagram w/credits
Track Data Science and Business Informatics
Year 1
Group GR2 - Choice from:
Group GR3 - Choice from:
Year 2
Group GR1 - Choice from:
Pisa Campus
Language: English
Course structure
Track CURRICULUM NEUROSCIENCE
Year 1
Group Attività a scelta - Choice from:
Year 2
Group Master degree Thesis - Choice from:
Pisa Campus
Language: English
The Laurea Magistrale in Economics (jointly held by the University of Pisa and Sant'Anna School of Advanced Studies) aims at providing students with an advanced training in economics supported by the complementary quantitative and statistical tools. The central aim of the program is to enhance the abilities of students of analyzing economic phenomena at different levels: firm, industry, national and international. This range of skills represents the ideal foundation for the development of professionals able to interpret the fast-changing economic environments of the 21st century.
This two-year degree is designed for students aiming at knowledge intensive careers in dynamic firms and corporations, consultancies and public organizations. It offers a solid foundation for those willing to pursue an academic career in the field of economics or other professional activities characterized by a strong research content.
Key Learning Outcomes:
Occupational Profile/s of Graduates:
Graduates from the LM in Economics will have the typical occupational profile of an economist, technical and quantitative analyst of economic and financial processes capable of suggesting and supporting decisions in economic fields. The acquired skills will enable them to act in roles of high responsibility at supporting and/or coordinating lines of research in research centers of public and private organizations: public and private banks (both domestic and international), insurance companies, pension funds and in the field of financial intermediation, trade unions and professional institutions. They may operate at support in decision making bodies for intervention in the working of the economy (Authorities, Ministries, economic organizations at local, national and international level) or in institutions to help market participants (Consulting bodies, research and marketing departments in private enterprises). The skills acquired will enable them to carry out operational and managerial functions in the world of education and information. Finally they can also enter, with proper training, the activity of academic research (PhD).
Access to further study:
The Laurea Magistrale degree in ECONOMICS allows the graduate to compete for entry into a Third Cycle programme/doctoral school.
Pisa Campus
Language: English
Course structure
Track CURRICULUM 1
Year 1
Group LINGUE - Choice from:
Year 2
Year 3
Pisa Campus
Language: English
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