Learning objectives
The main goal of the course is to provide students with the ability to understand the principles of informatics and programming:
* Data representation
* Computation, languages and abstract machines
* Architecture of computer systems
* Object oriented programming paradigm
* Introduction to software engineering
The ability to apply the listed knowledge elements regards the development of so-called "computational thinking":
* Decomposition of complex problems
* Solution of problems through recursion
* Composition of objects into complex systems
* Modelling with various levels of abstraction
Prerequisites
None. However, the student is supposed to know the basic computer and Internet operations - the equivalent of modules 1, 2, 3 and 7 of ECDL (European Computer Driving Licence) Syllabus.
Course unit content
2. Introduction to computer science
2.1. Data representation
2.2. Concept of computation
2.3. Computing systems
2.4. Software development
Full programme
2. Introduction to computer science (24 hours, in classroom)
2.1. Data representation
2.1.1. Two’s complement and floating point notations, boolean algebra
2.1.2. Text representation, ASCII and Unicode encoding
2.1.3. Structured documents and HTML
2.1.4. Image and sound representation
2.2. Concept of computation
2.2.1. Finite state automata
2.2.2. Regular expressions
2.2.3. Touring machine, von Neuman architecture
2.2.4. Programming languages and paradigms
2.2.5. Computational complexity, searching and sorting algorithms
2.3. Computing systems
2.3.1. Computer architecture
2.3.2. Operating systems
2.3.3. Information systems and databases
2.3.4. Computer networks and World Wide Web
2.4. Software development
2.4.1. Development methodologies and software quality
2.4.2. Contracts
2.4.3. Testing
2.4.4. Versioning
Bibliography
* P. Wentworth, J. Elkner, A.B. Downey, C. Meyers. How to Think Like a Computer Scientist. http://openbookproject.net/thinkcs/
* B. Stroustrup. Programming: Principles and Practice Using C++. Addison-Wesley (2009). 978-0321543721
* B. Eckel. Thinking in C++. Prentice-Hall (2000)
* D. Mandrioli, S. Ceri et al. Informatica arte e mestiere. McGraw-Hill (2008)
Teaching methods
Lessons in classroom, presenting slides which are provided in advance to students. Guided solution of exercises in classroom. Programming exercises in laboratory.
The laboratory exercitations are central for the course. The proposed exercises deal with the same general matters of classroom lessons. Their objective is introducing the principles of object-orientd programming, leading the student to the solution of problems with a growing level of complexity.
Assessment methods and criteria
The examination consists of a test about the basics of computer science (brief exercizes and quizzes to answer in about half an hour), a programming test (an object-oriented program to develop in lab, in about 3 hours) and a talk. A constant and particularly effective participation to exercitations could exonerate from the final programming test.
Other information
Alternative textbooks
* J.C. Lusth. The Art and Craft of Programming. http://beastie.cs.ua.edu/cs150/book/
* A. Koenig, B.E. Moo. Accelerated C++: Practical Programming by Example. Addison-Wesley (2000)
* E. Clementini. Fondamenti di Informatica – Programmazione strutturata in C++. Carocci (2006)
* H. Schildt. C++: A Beginner's Guide. McGraw-Hill (2003)
* S. Prata. C++ Primer Plus. Addison-Wesley (2011)
* L.J. Aguilar. Fondamenti di programmazione in C++. McGraw-Hill (2008)
* B. Eckel. Thinking in C++, vol. 2. Prentice-Hall (2003). 978-0131225527
* M. Dawson. Beginning C++ Through Game Programming. Course Technology (3rd ed., 2010). 978-1435457423
* M. Dawson. Python Programming for the Absolute Beginner. Course Technology (3rd ed., 2010). 978-1435455009
* J. Blanchette, M. Summerfield. C++ GUI Programming with Qt 4. Prentice Hall (2nd ed., 2008). 978-0132354165
* A. Lorenzi, V. Moriggia. Programmazione ad oggetti e linguaggio C++. Atlas (2004). 978-8826811956. (Testo per le scuole medie superiori)
* J.G. Brookshear. Informatica. Una panoramica generale. Pearson (2012)
* U. Avalle, L. Console, M. Ribaudo. Introduzione all'informatica. UTET (2010)
2030 agenda goals for sustainable development
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