COURSE CATALOGUE 2013-2014
Field: COMPUTER SCIENCE
Programme: Bachelor’s Degree Programme in Computer Science (Informatics) Length of studies: 3 years (6 semesters)
Number of ECTS Credits: 180 +30 for the B.Sc. Thesis
Language of teaching: Romanian (English/French tutoring available for Erasmus students)
Type of courses: Full-time Programme description:
The programme covers the following educational route:
1st YEAR OF STUDY – SEMESTER 1 (14 weeks)
Code Courses Type of course,
tuition
hours/semester
Credits
INFO101 Computer Systems Architecture Compulsory, 56 6
INFO102 Computational Logic Compulsory, 56 6
INFO103 Imperative/Procedural Programming Office Automation
Compulsory, 70 6
INFO104 Analytical and Differential Algebra and Geometry
Compulsory, 42 4
INFO105 Mathematical Analysis Compulsory, 56 6
INFO106 Foreign Language 1 Compulsory, 28 2
INFO107 Physical Education1 Compulsory, 28 1
INFO108 History of Computer Science Optional, 28 2
1st YEAR OF STUDY – SEMESTER 2 (14 weeks)
Code Courses Type of course, tuition
hours/semester
Credits
INFO109 Algorithms and Data Structures Compulsory, 84 6 INFO110 Mathematical Fundamentals of
Computers
Compulsory, 42 6
INFO111 Operating Systems Compulsory, 56 6
INFO112 Graphs Algorithms Compulsory, 56 5
INFO113 Mathematical Statistics and Probability
Compulsory, 42 5
INFO114 Foreign Language 2 Compulsory, 28 2
INFO115 Physical Education 2 Compulsory, 14 1
INFO116 Computational Geometry Optional, 56 4
2nd YEAR OF STUDY – SEMESTER 3 (14 weeks)
Code Courses Type of course,
tuition
hours/semester
Credits
INFO201 Databases Compulsory, 56 5
INFO202 Fundamental Algorithms Compulsory, 56 4
INFO203 Numerical Calculus Compulsory, 56 5
INFO204 Object-Oriented Programming Compulsory, 70 6 INFO205 Differential and Partial Differential
Equations
Compulsory, 56 4 INFO206 Mathematical Software Elective (1 out of 2),
42
6 INFO207 Complex Analysis
INFO208 Computational Algebra Optional, 56 4
2nd YEAR OF STUDY – SEMESTER 4 (14 weeks)
Code Courses Type of course,
tuition
hours/semester
Credits
INFO209 Computer Networks Compulsory, 56 5
INFO210 Formal and Automatic Languages Compulsory, 56 4 INFO211 Mathematical Modeling and Simulation Compulsory, 56 5 INFO212 Database Administration Systems Compulsory, 56 5 INFO213 Advanced Programming Techniques Compulsory, 56 5 INFO214 Optimization Techniques Compulsory, 56 4
INFO215 Practical Work Compulsory, 60 2
INFO216 Fractal and Stochastic Processes Optional, 56 4
3rd YEAR OF STUDY – SEMESTER 5 (14 weeks)
Code Courses Type of course,
tuition
hours/semester
Credits
INFO301 Parallel and Distributed Programming Compulsory, 56 6 INFO302 Geometric Modeling and Computer
Graphics
Compulsory, 56 6 INFO303 Program Analysis and Design Compulsory, 56 6
INFO304 Coding Theory Compulsory, 56 6
INFO305 Artificial Intelligence Compulsory, 56 6
INFO306 Computer Law Optional, 56 4
3rd YEAR OF STUDY – SEMESTER 6 (10 weeks)
Code Courses Type of course,
tuition
hours/semester
Credits
INFO307 Web Technologies Compulsory, 48 4
INFO308 Practical Work for B. Sc. Paper Writing Compulsory, 24 2 INFO309 Instructible Machines and Form
Acknowledgement
Elective (1 out of 2), 48
6 INFO310 Evolutionary Computation
INFO311 Intelligent Computing, biologically inspired models
Elective (1 out of 2), 48
6 INFO312 Neural Networks and Applications
INFO313 Visual Programming Environments Elective (1 out of 2), 48
6 INFO314 Multimedia Techniques and Technologies
INFO315 Advanced Network Techniques Elective (1 out of 2), 48
6 INFO316 Non-Conventional Software Technologies
INFO317 Computer Project Management Optional 2
THE GRADUATES’ COMPETENCES
Holders of a Bachelor’s Degree in Computer Science will have acquired the following competences:
A. General competences:
• Oral and written communication in a professional purpose also in an international language;
• Learn and self-improve, receptivity to news in the field;
• Scientific approach of the specialty area – skills for the analysis, synthesis and interpretation of information in the specialty area;
• Team work abilities; the ability to collaborate with specialists from other fields;
• Pursue further studies - Master’s and Doctoral.
B. Job-related competences:
• Analysis and design of information systems: the creation, design, elaboration, testing, implementation and maintenance of information systems and software, draw up the related technical documentation;
• Project management for IT&C solutions; ensure the functionality, monitoring and development of the implemented IT&C solutions; staff training for using the implemented IT&C technologies; coordination of teams of experts;
• The design, installation and management of the network infrastructure; keeping a computer network and connection and communication equipment functional;
server management; network connections and access to the world network which is the Internet; the design and application of the network security strategy;
• Write projects for IT&C solutions and services; the design / re-design of IT&C solutions for the most complex system elements; coordination of IT&C projects and teams; monitor the performance of the implemented IT&C solutions; staff training for using IT&C technologies;
• Teach IT&C in primary and secondary schools.
COURSE CATALOGUE 2013-2014
Field: Electronic Engineering and Telecommunications
Programme: Bachelor’s Degree Programme in Electronic Engineering and Telecommunications
Length of studies: 4 years (8 semesters),
Total number of ECTS credits: 230 + 30 for the B.Sc. Thesis
Language of teaching: Romanian (English/French tutoring available for Erasmus students) Type of courses: Full-time
Programme description:
The programme covers the following educational route:
1st YEAR OF STUDY – SEMESTER 1
Code Courses Type of course, tuition
hours/semester
Credits
EA1101 Mathematical Analysis Compulsory, 56 5
EA1102
Linear Algebra, Analytical and Differential Geometry
Compulsory, 56
5
EA1103 Computer Programming Compulsory, 70 5
EA1104 Physics Compulsory, 84 5
EA1105 Fundamentals of Electrical Engineering I Compulsory, 56 5 EA1106
Documents Processing and Internet Services
Compulsory, 14
3
EA1107 English Language Compulsory, 28 2
EA1108 Sport Compulsory, 28 1
EAF01 The Sociology of Enterprise Optional, 28 2 1st YEAR OF STUDY – SEMESTER 2
Code Courses Type of course, tuition
hours/semester
Credits
EA1201
Fundamentals of Electrical Engineering II
Compulsory, 56
5
EA1202 Special Mathematics Compulsory, 56 4
EA1203 Data Structures and Algorithms Compulsory, 42 4 EA1204 Computer-Aided Engineering Graphics Compulsory, 56 4 EA1205
Passive Electronic Components and Circuits
Compulsory, 42
4 EA1206 Mechanic Elements and Mechanisms Compulsory, 28 2 EA1207
Measurements in Electronic Engineering and Telecommunications
Compulsory, 56
5
EA1208 English Language Compulsory, 28 2
EA1209 Sport Compulsory, 14 1
EAF02 Interpersonal Communication Optional, 28 2
2nd YEAR OF STUDY – SEMESTER 3 (14 weeks)
Code Courses Type of course, tuition
hours/semester
Credits
EA2101 Electronic Devices Compulsory, 56 4 EA2102 Object-Orientated Programming Compulsory, 42 3
EA2103 Numerical Methods Compulsory, 56 4
EA2104 Materials for Electronic Engineering Compulsory, 56 4 EA2105
CAD Techniques in Electronic Engineering (Spice/Orcad)
Compulsory, 28
3
EA2106
Electronic Instruments for Measurements
Compulsory, 42
4
EA2107 Chemistry Compulsory, 56 4
EA2108 English Language Compulsory, 28 2
EA2109 Sport Compulsory, 14 1
EA2110 Microeconomics
Elective (1 out of 3): 14 2 EA2111 Macroeconomics
EA2112 Law and Business Legislation Elements
EAF03 Computer Networks Optional, 28 2
2nd YEAR OF STUDY – SEMESTER 4 (14 weeks)
Code Courses Type of course, tuition
hours/semester
Credits EA2201 Information Transmission and Encoding Compulsory, 42 3 EA2202 Fundamental Electronic Circuits Compulsory, 70 5 EA2203
Signals and Measurement Systems – Lab.
Compulsory, 28
3 EA2204 Digital Integrated Circuits Compulsory, 56 4
EA2205 Signals and Systems Compulsory, 42 3
EA2206 The Architecture of Microprocessors Compulsory, 42 3
EA2207 English Language Compulsory, 28 2
EA2208 Sport Compulsory, 14 1
EA2209 Practical Activities – 4 weeks – 30 hours/week
Compulsory, 120
4 EA2210 Databases
Elective (1 out of 2): 42 3 EA2211
Decision and Estimation when Processing the Information
EAF04 Operating Systems Optional, 42 3
3rd YEAR OF STUDY – SEMESTER 5 (14 weeks)
Code Courses Type of course, tuition
hours/semester
Credits EA3101 Circuit Analysis and Synthesis Compulsory, 42 4
EA3102 Microwaves Compulsory, 42 4
EA3103 Analogue Integrated Circuits Compulsory, 56 4
EA3104 Microcontroller Compulsory, 56 4
EA3105
Automatic Testing of the Equipments and Processes
Compulsory, 56
3
EA3106 Power Electronics Compulsory, 42 4
EA3107 Project 1 Compulsory, 28 2
EA3108 Management
Elective (1 out of 2): 38 2 EA3109 Marketing
EA3110 Electromagnetic Compatibility
Elective (1 out of 2): 41 EA3111 3
The Statistic Control of Industrial Processes
EAF05 Software Engineering Optional, 28 3
3rd YEAR OF STUDY – SEMESTER 6 (14 weeks)
Code Courses Type of course, tuition
hours/semester
Credits
EA3201
Fundamentals of Data Acquisition Systems
Compulsory, 70
5
EA3202 Television Compulsory, 56 4
EA3203 Digital Signal Processing Compulsory, 42 4 EA3204 Communication Systems Compulsory, 56 4 EA3205 Industrial Electronic Engineering and IT Compulsory, 56 4
EA3206 Project 2 Compulsory, 28 2
EA3207 Practical Activities – 4 weeks – 30 hours/week
Compulsory, 120
4 EA3208 Internet Programming Technologies
Elective (1 out of 2): 56 3 EA3209
Virtual Instrumentation for Electronic Systems
EAF06 Electronic Interconnection Technology Optional, 28 2 4th YEAR OF STUDY – SEMESTER 7 (14 weeks)
Code Courses Type of course, tuition
hours/semester
Credits EA4101 Programmable Electronic Systems Compulsory, 56 4
EA4102 Opto-Electronic Engineering Compulsory, 42 4
EA4103 Medical Electronic Engineering and IT Compulsory, 56 4
EA4104
Automotive Electronic Engineering and IT
Compulsory, 56
4
EA4105 3D Graphics Compulsory, 56 4
EA4106 Project 3 Compulsory, 14 2
EA4107 Neural Networks and Fuzzy Systems
Elective (1 out of 2): 42 4 EA4108 Artificial Intelligence
EA4109 Advanced Network Techniques
Elective (1 out of 2): 42 4 EA4110 Sensors Systems
EAF07 Organizational Psycho-Sociology Optional, 28 2 4th YEAR OF STUDY – SEMESTER 8 (14 weeks)
Code Courses Type of course, tuition
hours/semester
Credits
EA4201 Fundamentals of Robotics Compulsory, 36 4
EA4202
Automated Adjusting Electronic Systems
Compulsory, 36
3 EA4203 Reconfigurable Hardware Architecture Compulsory, 48 4
EA4204 Quality and Reliability Compulsory, 36 3
EA4205 Practical Activities – 2 weeks – 30 Compulsory, 60 2
hours/week
EA4206 B.Sc. Thesis Compulsory, 72 8
EA4207
Computer-Aided Analysis of Power
Electric Circuits Elective (1 out of 2): 56 3 EA4208 Electronic Converter Modelling
EA4209
Multimedia Techniques and
Technologies Elective (1 out of 2): 42 3 EA4210 Electronic Commerce
EAF08 Medical Imaging Optional, 28 2
Holders of a Bachelor’s Degree in Applied Electronics have acquired the following knowledge and competences:
A. General competences:
• The skill to apply the main methods, theories and concepts in the field and area of speciality, including their proper use in professional communication;
• The ability to explain and interpret certain types of concepts, situations, processes, projects etc., in the field;
• The skill to apply basic methods and principles to solve well-defined, field- specific situations/problems, using qualified assistance;
• Experience in using electronic instruments and basic methods to define and evaluate the performance of electronic systems and circuits;
• The skill to write professional projects using established methods and principles in the field.
B. Professional competences
C1. The skill to use the fundamental elements of electronic devices, circuits, systems, instrumentation and technology;
C2. The ability to apply the basic methods of signal acquisition and processing;
C3. The skill to apply the basic knowledge, concepts and methods concerning the architecture of calculation systems, microprocessors, microcontroller, programming language and techniques;
C4. The skill to design and use hardware and software applications of reduced complexity specific to the field of applied electronics;
C5. The ability to apply the basic knowledge, concepts and methods in power electronics, automatic systems, electrical power segmentation, electromagnetic compatibility;
C6. The skill to solve technological problems in the field of applied electronics.
C Occupational competences
CT1. Systematic analysis of the problems encountered in the work context by identifying the components which have standard solutions, thereby ensuring the fulfilment of the professional tasks;
CT2. Structure the professional activities into stages and distribute them to co-workers according to their hierarchy levels, with a complete explanation of the individual tasks, thereby ensuring an efficient interchange of information and interpersonal
communication;
CT3. Upgrade personal and professional development to the new technologies by
constant training the use of print sources, specialized software and electronic resources in Romanian and at least one worldwide spoken language.
