Telecommunication Technologies and Systems (TTS)

TTS Courses

Telecommunication Technologies and Systems (TTS) Courses

The curriculum starts with a 2-year basic education, including courses such as mathematics, physics, programming, electronic measurement, signals, circuits & systems.

It continues with 2 years of specialization in which the general fields of study and subjects that students in this program encounter are basics of data transmission and digital signal processing, communication protocols and standards, computer networks and the internet, network architecture and topologies, routing and switching technologies, wireless and mobile communications, radio communications, antennas and propagation, radio-frequency and microwave circuits, digital modulation techniques, data compression techniques, network security principles, encryption methods, Voice over IP (VoIP) and multimedia communication, optical communication systems, Internet of Things (IoT).

1st Year

Mandatory (DI)

Computer Programming and Programming Languages 1

Course organizer:

Sirbu Adriana

This course introduces students to the structure and operation of computers, to the analysis and design of computer algorithms, essentials of data structures and special programming techniques with emphasis on numerical methods applied in electronic engineering. Upon completion of this course, students will be able to demonstrate a familiarity with major data structures specific for C Language, write complex projects in C language and use the C Standard Library. Contents: structure and operation of a computing system, algorithm design techniques, internal representation of information in computing systems, basic elements of C language programming:

L (lecture) - 2 H

LB (laboratory works) - 2 H

Computer Programming and Programming Languages 2

Course organizer:

Sirbu Adriana

This is a continuation of the CPPL1 discipline and addresses other notions specific to the C programming language: basic operations with user-defined data types; pointer operations, and file operations. Also, numerical methods, specific applications of design engineering, and designs complex projects in C language are included.

L (lecture) - 2 H

LB (laboratory works) - 2 H

Computer-Aided Graphics

Course organizer:

Barabasa Constantiin

The Computer Aided Graphics course aims at introducing the fundamentals of computer aided design tools used in electronic engineering. It discusses aspects related to the use of electronic component symbols, schematic design, printed circuit board manufacturing technologies and basic printed circuit board design techniques with applications based on the Cadence OrCAD design platform.

L (lecture) - 1 H

LB (laboratory works) - 2 H

Foreign Language 1

Course organizer:

Baciu Ioana

The main objective of the discipline is the development of communicative competences and performances with emphasis on the acquisition of specific terminology and of the structures specific to the technical-scientific style, with a view to make research reports and to participate in social and professional interactions

L (lecture) - 1 H

LB (laboratory works) - 0 H

Foreign Language 2

Course organizer:

Baciu Ioana

The main objective of the discipline is the development of communicative competences and performances with emphasis on the acquisition of specific terminology and of the structures specific to the technical-scientific style, with a view to make research reports and to participate in social and professional interactions

L (lecture) - 1 H

LB (laboratory works) - 0 H

Fundamentals of Electrical Engineering 1

Course organizer:

Vatavu Cristina

This is a fundamental course in circuit analysis in such a manner that is clear, interesting, and easier to understand. It introduces the general concepts in electricity, covers the fundamental laws and theorems, and brings out the circuit analysis techniques.

L (lecture) - 2 H

LB (laboratory works) - 1 H

Fundamentals of Electrical Engineering 2

Course organizer:

Vatavu Cristina

This is a continuation of the FEE1 discipline and addresses the following topics: Periodic signals and circuit elements, Analysis methods in permanent sinusoidal regime, Power analysis, The power factor, Circuits with coupling elements, The ideal transformer, Transient analysis of electrical circuits.

L (lecture) - 2 H

LB (laboratory works) - 1 H

Linear Algebra, Analytical and Differential Geometry

Course organizer:

Cretu Georgeta

By completing this course, students will learn the fundamental notions of algebra: Linear Algebra (vector spaces, linear transformations, quadratic forms), Vector Algebra (free vectors, products of free vectors, vector equations) and Analytical and Differential Geometry.

L (lecture) - 2 H

LB (laboratory works) - 0 H

Mathematical Analysis

Course organizer:

Caraman Sânziana

The first part of the course is the presentation of the structure of the real set and the study of numerical sequences (convergence, limits). The second part is about infinite numerical series (tests of convergence, the computation of the sum of series.) The last part is the study of functions. First one makes a revision of the real functions with one variable where the main problems (limits, continuity, differentiability and applications of the derivatives) are presented. The same problems are generalized to real functions of several variables and to vector functions. An important application of differentiability is for optimization problems where the finding of point of extremum of a real multivariable function proves to be very useful.

L (lecture) - 2 H

LB (laboratory works) - 0 H

See course guide

Passive Components and Circuits

Course organizer:

Tigaeru Liviu

The course introduces the fundamental properties of the passive electronic components, as resistor, capacitor and inductor and presents the analysis and design methods of the passive electronic circuits, respectively.

L (lecture) - 2 H

LB (laboratory works) - 2 H

Physics 1

Course organizer:

Rusu Cristina

The goal of this course is to present the fundamental laws of physics and the most important physical phenomena of electronics engineering. Laboratory activity consists in practical experiments, in order to develop students' practical skills. Seminary activity takes into account the development of the students’ skills for exercise solving Contents: Introduction to the study of physics; The fundamental principles of classical Newtonian mechanics; Mechanical oscillations; Mechanical waves; Theory of relativity; Electrostatics; Electrokinetics; Magnetostatics

L (lecture) - 1 H

LB (laboratory works) - 1 H

Physics 2

Course organizer:

Rusu Cristina

The general objective of the discipline is the acquisition of the notions, principles, theories and methods specific to physics, with an emphasis on applications in the field of engineering sciences, on interdisciplinarity as well as on the development of experimental skills and technical creativity. Contens: Electrodynamics; Elements of non-relativistic quantum mechanics; Elements of solid physics

L (lecture) - 2 H

LB (laboratory works) - 1 H

Special Mathematics 1

Course organizer:

Fetcu Dorel

This course contains the study of integrals, differential equations, concepts of limit, continuity and differentiability, Euler equations, systems of linear differential equations, the theory of functions of complex variables, Laplace transform, Fourier transform, Fourier series and half-range representations.

L (lecture) - 3 H

LB (laboratory works) - 0 H

See course guide

Sports1

Course organizer:

Ursanu Adela-Ioana

Sports complete the curriculum of this engineering profile, by contributing to a more judicious organization of the leisure time, to the creation of premises for using professional skills in good health and with will to work. It represents a mobilizing factor, mostly for teamwork. Physical education and sport contributes to both physical and intellectual development of students, to their aesthetic, ethical, technical and professional education.

L (lecture) - 0 H

LB (laboratory works) - 1 H

See course guide

Sports2

Course organizer:

Ursanu Adela-Ioana

Sports complete the curriculum of this engineering profile, by contributing to a more judicious organization of the leisure time, to the creation of premises for using professional skills in good health and with will to work. It represents a mobilizing factor, mostly for teamwork. Physical education and sport contributes to both physical and intellectual development of students, to their aesthetic, ethical, technical and professional education.

L (lecture) - 0 H

LB (laboratory works) - 1 H

See course guide

1st Year

Elective (DO)

Applied Informatics 1

Course organizer:

Matasaru Daniel

Within this course students get acquainted with basic Internet terminology (browsers, SEO, email, social media, and Internet applications). Students acquire basic knowledge and skills for designing web pages (HTML, CSS, Javascript and XML). Students become aware of advantages new web technologies bring, improve their technical background and build a successful career in engineering and IT.

L (lecture) - 2 H

LB (laboratory works) - 1 H

Applied Informatics 2

Course organizer:

Aghion Cristian

This course provides basic notions on microcontroller programming, a field which is currently expanding due to the accessibility, the versatile exploitation and the relatively low costs of microcontrollers. The lectures present general theoretic information on reprogrammable electronic circuits, such as microcontrollers, microprocessors, FPGAs and GALs.

L (lecture) - 1 H

LB (laboratory works) - 2 H

2nd Year

Mandatory (DI)

Computer-Aided Analysis of Electronic Circuits

Course organizer:

Burdia Danut

The course introduces numerical algorithms and computer-aided techniques for the simulation of electronic circuits. Theoretical and practical aspects of important analyses are presented: device modeling, circuit formulation methods, DC, frequency and time-domain analyses. The students are instructed, also, to use the PSpice circuit simulator, one of the most used in the electronic industry.

L (lecture) - 2 H

LB (laboratory works) - 2 H

Digital Integrated Circuits

Course organizer:

Cracan Arcadie

The discipline aims to provide fundamental knowledge on structure and function of basic logic circuits (logic gates, latches, flip-flops, MUX, DEMUX, codecs, shifters, comparators, adders, finite state machines, counters, registers).

L (lecture) - 3 H

LB (laboratory works) - 2 H

Electronic and Telecommunications Measurements

Course organizer:

Zet Cristian

This course is dedicated to studying and practice of measurement of the main electric quantities. The balance between the necessary background knowledge about the physical quantities and the measurement methods is realized, based on dedicated measurement instruments and systems, also between the electric, electronic and computer based techniques.

L (lecture) - 2 H

LB (laboratory works) - 1 H

Electronic Devices

Course organizer:

Bonteanu Gabriel

The course main target is to study the theoretical, methodological and practical aspects for the construction, operation and application of the main semiconductor devices. The physical structures, operation and parameters that characterize the semiconductor devices and some analysis and design techniques of their basic applications using models are revealed following this course.

L (lecture) - 4 H

LB (laboratory works) - 2 H

Fundamental Electronic Circuits

Course organizer:

Bonteanu Gabriel

This course explains the main classes of analog circuits, both from a two-port and a detailed circuit perspective. Main topics includes the analog switching regime of the electronic devices and the MOS basic logic gates, the electronic amplifier, computation of bandwidth of electronic amplifiers using the time constants, the negative feedback, compensation of electronic amplifiers with negative feedback, linear and switching voltage regulators and harmonic oscillators.

L (lecture) - 3 H

LB (laboratory works) - 2 H

Information Theory

Course organizer:

Cleju Nicolae

The course presents the fundamentals of information theory and its applications for efficient and robust communication. Topics include the definition and properties of information, noisy communication channels, algorithms for lossless compression of data and algorithms for correcting data errors.

L (lecture) - 3 H

LB (laboratory works) - 2 H

Object-Oriented Programming

Course organizer:

Alecsandrescu Iolanda

The course introduces the basic concepts of object-oriented design, like as classes and methods, operator overloading, plymorphism, inheritance, reusability, multiple Inheritance. Also, applying object oriented principles using C++ language is included.:

L (lecture) - 2 H

LB (laboratory works) - 2 H

Signals and Systems

Course organizer:

Ciocoiu Iulian-Aurelian

The course main target is introduction of basic principles of analog modulation methods and linear systems stability. Main topics: amplitude, frequency and phase modulation techniques; stability criteria for linear systems; stability criteria for linear feedback systems; state-space description of analog linear systems; introduction to analog filter design methods.

L (lecture) - 3 H

LB (laboratory works) - 3 H

Signals, Circuits and Systems

Course organizer:

Goras Liviu

The general objective of the discipline is to present basic concepts related to signal, circuit and system theory used in electronic and telecommunication engineering and their applications in analog and discrete modeling and analysis. Main topics: elementary signals; calculation of circuits and systems response; steady-state and transient response of analog systems in the frequency domain; characterisation of analog systems in the time domain; convolution product; operational amplifier models; system and circuits elements: linear, nonlinear and time variable elements of resistive, inductive and resistive type, controlled sources; Bode diagrams, relationship between time and frequency response; time-frequency duality formulas; samplig theorem; discrete signal characterization in time and frequency domain. discrete convolution; development of discrete signal in elementary signal bases; Z and discrete Fourier transforms; steady state and transient response of discrete systems

L (lecture) - 4 H

LB (laboratory works) - 3 H

Special Mathematics 2

Course organizer:

Roman Marcel

The course main target is acquirement of knowledge of integral calculus on multidimensional
domains, solving of partial differential equations of order II and acquirementof knowledge about the theory of probabilities which are fundamental for understanding of other disciplines.

L (lecture) - 3 H

LB (laboratory works) - 0 H

See course guide

Sports3

Course organizer:

Ursanu Adela-Ioana

Sports complete the curriculum of this engineering profile, by contributing to a more judicious organization of the leisure time, to the creation of premises for using professional skills in good health and with will to work. It represents a mobilizing factor, mostly for teamwork. Physical education and sport contributes to both physical and intellectual development of students, to their aesthetic, ethical, technical and professional education.

L (lecture) - 0 H

LB (laboratory works) - 1 H

See course guide

2nd Year

Category (DL)

Ethics and Integrity

Course organizer:

Casian-Botez Irinel

The objective of this course is to understand the principles and norms of ethics and to apply the norms of professional, academic, and research ethics. Main topics: introduction to ethics (importance, management of ethical discussion, main virtues, moral responsibility, etc.); plagiarism; intellectual property; quality assurance in higher education

L (lecture) - 2 H

LB (laboratory works) - 0 H

Foreign Language 4

Course organizer:

Baciu Ioana

The main objective of the discipline is the development of communicative competences and performances with emphasis on the acquisition of specific terminology and of the structures specific to the technical-scientific style, with a view to make research reports and to participate in social and professional interactions

L (lecture) - 0 H

LB (laboratory works) - 0 H

Introduction to Python Programming

Course organizer:

Tigaeru Liviu

This course familiarize students with the syntax and basic constructs of Python, such as indentation, data types (e.g., integers, strings, lists, dictionaries), and how to write and execute Python scripts.

L (lecture) - 2 H

LB (laboratory works) - 2 H

Programmable Smart Circuits

Course organizer:

Aghion Cristian

The main objective of this discipline is acquiring the necessary skills to approach the design and implementation of the technologies used in electronics for the command and control of various electronic applications.

L (lecture) - 2 H

LB (laboratory works) - 2 H

Romanian Language 4

Course organizer:

Dirtu Evagrina

The purpose of this course is acquiring communication competences, developing written and oral communication skills in Romanian, developing skills of comprehending oral and written messages, acquiring information pertaining to the Romanian cultural heritage

L (lecture) - 0 H

LB (laboratory works) - 0 H

3rd Year

Mandatory (DI)

Analog Integrated Circuits

Course organizer:

Cojan Nicolae

This course teaches the design and analysis of transistor integrated circuits including amplifiers, operational amplifiers, comparators, integrator and derivation circuits, oscillators and voltage references, and including frequency response, feedback, and stability.

L (lecture) - 3 H

LB (laboratory works) - 2 H

Communication Systems

Course organizer:

Diaconu Felix

The main objective of the course is to know the theoretical, methodological and practical developments specific to the transmission techniques used in modern telecommunications systems (coding, prediction and modulation techniques, OFDM systems, implementation structures)

L (lecture) - 3 H

LB (laboratory works) - 2 H

Computer – Aided Design of Analog and Digital Systems

Course organizer:

Burdia Danut

This course provides students with in-depth knowledge of computer-aided analysis and design of analogue, mixed signal and digital circuits. Advanced methods for circuit formulation and time-domain analysis are presented. Also, the course covers the aspects of modeling, simulation and synthesis of digital circuits and systems using modern hardware description languages like VHDL.

L (lecture) - 2 H

LB (laboratory works) - 2 H

Computer Networks and Operating Systems

Course organizer:

Scripcariu Luminita

This course presents the basics of local area networks, including network models (OSI, TCP/IP, client-server, P2P), network architecture (physical and logical topologies, media access control, physical media), LAN standards (Ethernet standard family, Token-Ring, IEEE 802.11a/b/g/n/ac), TCP/IP communication protocols), IP addressing system and communication equipments (hub, switch, bridge, router).

L (lecture) - 3 H

LB (laboratory works) - 2 H

Decision and Estimation in Data Processing

Course organizer:

Cleju Nicolae

The course offers an introduction to signal detection theory and statistical parameter estimation. The topics include definition and characterization of random variables and random processes, decision rules for signal detection, and the basics or parameter estimation of signals in noisy conditions.

L (lecture) - 2 H

LB (laboratory works) - 1 H

Digital Signal Processing

Course organizer:

Cleju Nicolae

The course presents the essentials of linear filtering of digital signals and its applications. Topics include analog-to-digital conversion of signals, time-domain, Z-domain and frequency-domain analysis of digital signals and linear time-invariant systems, basic design and implementation methods for filters.

L (lecture) - 3 H

LB (laboratory works) - 2 H

Electronic Equipments for Measuring and Control

Course organizer:

Aghion Cristian

The course main target is forming the abilities needed in order to approach the design and implementation of the technologies used in electronics for the command and control of various electronic applications. Topics: introduction in electronic measuring and control devices; transducers; A/D and D/A converters; instrumental amplifiers; isolation amplifiers; logarithmic amplifiers; protection amplifiers; analog converters; sample/hold circuits; multiplex circuits; aquisition systems.

L (lecture) - 3 H

LB (laboratory works) - 1 H

Introduction to Communications

Course organizer:

Scripcariu Luminita

This course provides a complete description of communication systems, including data coding techniques (compression, encryption, error-correction), analog and digital modulations, spread-spectrum techniques, synchronization circuits and equalizers. It also presents types, characteristics and specific perturbations of wired and wireless communication channels, and finally an overall analysis of transmission performances.

L (lecture) - 3 H

LB (laboratory works) - 1 H

Microcontrollers

Course organizer:

Dobrea Monica-Claudia

The materials presented in classes and laboratories within this discipline are designed to give students basic training in the microcontrollers' field; this knowledge is necessary to understand the organisation and use of microcontrollers in the development, implementation and control of various applications, mainly in the IoT emerging field.

L (lecture) - 2 H

LB (laboratory works) - 2 H

Power Electronics

Course organizer:

Neacsu Dorin

This discipline deals with theoretical and experimental aspects of electronic processing of energy before supplying various loads at required voltage or current levels, the basics of power switching converters, the usage of specific power semiconductor devices, the architecture of power systems and the principles of power management, within communication systems.

L (lecture) - 2 H

LB (laboratory works) - 1 H

Television

Course organizer:

Barabasa Constantiin

The course aims at introducing the fundamental theoretical and practical aspects involved in both analog and digital television systems. Key topics include colorimetry, image exploration, complex video signal analysis, analog and digital encoding techniques and modulations, capture and playback hardware, video signal processing hardware and audio-video transmission standards and commonly used interfaces.

L (lecture) - 3 H

LB (laboratory works) - 1 H

3rd Year

Elective (DO)

Antennas and Propagation

Course organizer:

Bogdan Ion

The course allows for a deep understanding of radio waves’ radiation and their propagation through the air, the main parameters that characterize antennas and arrays of antennas, the techniques used for their design, optimization, and practical measurements.

L (lecture) - 2 H

LB (laboratory works) - 1 H

Fundamentals of Radiocommunications

Course organizer:

Bozomitu Radu-Gabriel

The course is intended to offer theoretical, methodological and practical knowledge specific of radiocommunication systems analysis and design. Main topics: Introduction to radiocommunication systems; Passive components used in radiofrequency; Narrowband matching networks; Radiofrequency power amplifiers; Noise in RF amplifiers; Oscillation sources in radio-communications; Signals and modulations used in radiocommunications; Phase locked loops (PLL); Principle of radio-receiving; Low noise RF amplifiers (LNA); Spectral analysis and power in RF; Emission and receiving antennas.

L (lecture) - 2 H

LB (laboratory works) - 1 H

4th Year

Mandatory (DI)

Communication Skills

Course organizer:

Matasaru Daniel

Students develop effective communication skills, improving their interpersonal and presentation abilities in a clear, concise and efficient manner. Students learn to plan and create effective presentations and how to assess the expectations of audience and engage with it effectively, to overcome nervousness and become more confident when speaking in public.

L (lecture) - 1 H

LB (laboratory works) - 0 H

Digital Communications

Course organizer:

Comsa Ciprian-Romeo

The aim of this course is to provide students with a thorough understanding of how information theory relates to the design of digital communications systems and to provide the knowledge and skills to perform design calculations on these systems. The course covers topics such integration of probability and random processes into the digital communications context, design optimum receivers and analyze the error performance of baseband and digital modulation techniques.

L (lecture) - 3 H

LB (laboratory works) - 1 H

Economics and marketing

Course organizer:

Ciobanu Claudia Ioana

The discipline ensures the acquisition of theoretical and practical skills in microeconomics and marketing: understanding the importance of the correct positioning of the company on the market, understanding the importance of ensuring consumer satisfaction, knowing the ways of strategic planning of the company to be able to face the competition, the knowledge necessary to develop a marketing plan, knowledge of marketing information systems in order to carry out a valuable marketing research

L (lecture) - 2 H

LB (laboratory works) - 1 H

Electronic Technology

Course organizer:

Derevlean Daniela

The aim of this course is to provide to students the theoretical and practical knowledge on manufacturing technologies for printed circuit boards (PCB), PCB design tools, compatibility rules, new structures and technologies specific for the modern packaging (lead-free design, system-on-a-chip, system-on-a-package) and test methodology for the multi-layer PCB.

L (lecture) - 2 H

LB (laboratory works) - 0 H

Management

Course organizer:

Istrate Cristiana

This course introduces students to the roles and functions of managers. It aims to build a basic understanding of the concept of "management" and to provide a clear and complete description of managerial concepts. The content describes the four functions of management: planning, organizing, leading, and controlling. The main objective of this course is to become familiar with both the theories and practical applications of the managerial process by using a "learning by doing" type of teaching.

L (lecture) - 2 H

LB (laboratory works) - 1 H

Microwave Devices and Circuits for Radiocommunications

Course organizer:

Damian Radu-Florin

In this course the students will learn to analyze and design circuits which have dimensions comparable to or larger than the wavelength (electrically large). In electronics this happens usually in very high frequency range, usually denoted as microwave frequencies. Modern high speed communications need the increased bandwidth offered by a high frequency carrier.

L (lecture) - 2 H

LB (laboratory works) - 1 H

Microwaves

Course organizer:

Lucanu Nicolae

This discipline offers knowledge of understanding of the free space wave propagation and guided propagation of microwaves, the ability to analyze and design passive and active microwave devices. Upon completion of this course, students get used to computer aided design tools for microwave circuits.

L (lecture) - 3 H

LB (laboratory works) - 2 H

Mobile Communications

Course organizer:

Bogdan Ion

The course allows for a detailed knowledge of cellular communication concepts, the main parameters of the mobile communication standards (GSM, UMTS, LTE), radio resource management techniques, positioning techniques and other specific services for mobile terminals.

L (lecture) - 3 H

LB (laboratory works) - 1 H

Radiocommunications

Course organizer:

Bozomitu Radu-Gabriel

The course is intended to offer knowledge in developing, analyzing and designing of radiocommunications circuits and systems. The course also focuses on radiocommunication theory application, providing a detailed description of radiocommunications equipment’s structure, RF power amplifiers, exciters (including frequency synthesizers) analog and digital modulation and modulators. The course provides students the necessary skills to use a computer simulation program for designing electronic circuits used in radio-transmitters and radio-receivers’ implementation.

L (lecture) - 3 H

LB (laboratory works) - 1 H

4th Year

Category (DL)

Entrepreneurial Education – Digital Business 1

Course organizer:

Comsa Ciprian-Romeo

The purpose of the course is to provide students with the knowledge, skills, and mindset necessary to understand, explore, and potentially pursue entrepreneurial endeavors. This course aims to foster entrepreneurial thinking and prepare students for the challenges and opportunities associated with starting and managing businesses.

L (lecture) - 1 H

LB (laboratory works) - 2 H

Entrepreneurial Education – Digital Business 2

Course organizer:

Comsa Ciprian-Romeo

The purpose of the course is to provide students with the knowledge, skills, and mindset necessary to understand, explore, and potentially pursue entrepreneurial endeavors. This course aims to foster entrepreneurial thinking and prepare students for the challenges and opportunities associated with starting and managing businesses.

L (lecture) - 2 H

LB (laboratory works) - 0 H

4th Year

Elective (DO)

Electromagnetic Compatibility

Course organizer:

Derevlean Daniela

In this course the students will cumulate theoretical and practical knowledge about the electromagnetic compatibility problems of the electronic circuits. Topics include capacitive and inductive coupling generating perturbations, parasitic signals generated by ground coupling, parasitic signals from common supply sources, electromagnetic shielding of single and multiple circuits and techniques for electromagnetic compatibility measurements.

L (lecture) - 2 H

LB (laboratory works) - 1 H

Internet-of-Things

Course organizer:

Matasaru Daniel

The purpose of this course is providing knowledge of the theoretical and practical developments in IoT fundamentals. One first aspect is getting students acquainted to Internet of Things essentials (browsers, applications, protocols) . The second aspect is student awareness for advantages of new web technologies and developing skills for Internet of Things applications and services in order to build a strong successful professional career in the field of telecom engineering.

L (lecture) - 2 H

LB (laboratory works) - 2 H

Optical Communications

Course organizer:

Derevlean Daniela

In this course parasitic couplings intra and inter-systems are studied: capacitive parasitic coupling, reducing methods and shielding; inductive coupling generating perturbations; parasitic signals generated by ground coupling of one and more circuits; parasitic signals from supply sources common for more circuits; electromagnetic shielding of single and multiple circuits

L (lecture) - 2 H

LB (laboratory works) - 1 H

Statistical Data Processing

Course organizer:

Tarniceriu Daniela

The objective of Statistical Signal Processing curricular unit is to provide a broad and coherent treatment of statistical signal processing concepts, techniques and algorithms, namely for discrete-time signal modeling, optimum estimation and filtering, and power spectrum estimation. These tools are general for applications dealing with information extraction in scenarios governed by random processes and probabilistic models.

L (lecture) - 3 H

LB (laboratory works) - 2 H

Telephone Systems

Course organizer:

Rotopanescu Ana-Mirela

This course presents the operation of electronic telephone terminals, high-capacity electronic telephone exchanges, the interface with the external environment consisting of individual subscriber circuits and analog and digital junction circuits, the spatial and temporal switching network, the signaling unit, the unit of command and control and of the digital network with integrated services

L (lecture) - 2 H

LB (laboratory works) - 2 H

Structure of the Academic Year 2023– 2024

Bachelor and Master Studies, Full Time Studies

DATE

PERIOD

ACTIVITY

25.09.2023–01.10.2023

7 days

Accommodation of students

02.10.2023

The Official Opening of the Academic Year

1st SEMESTER

02.10.2023-22.12.2023

12 Weeks

Didactic Activity

23.12.2023-07.01.2024

2 Weeks

Christmas Holiday

08.01.2024- 21.01.2024

2 Weeks

Didactic Activity

22.01.2024-11.02.2024

3 Weeks

Examination Period

12.02.2024-18.02.2024

1 Week

Winter Holiday

2nd SEMESTER

19.02.2024-02.05.2024

11 Weeks

Didactic Activity

03.05.2024-12.05.2024

1 Week

Easter Holiday

07.05.2024

Free Day For Students (to be recovered on Saturday 25.05.2024)

13.05.2024-02.06.2024

3 Weeks

Didactic Activity

03.06.2024-23.06.2024

3 Weeks

Examination Period

02.09.2024-15.09.2024

2 Weeks

Reexamination Period

17 and 18.09.2024

2 Days

Re examinations

2nd SEMESTER for the final year of study (bachelor + master)

19.02.2024-02.06.2024

14 + 1 Weeks

Re Didactic Activity and Easter Holiday According To The Previous Calendar

03.06.2024-16.06.2024

2 Weeks

Examination period

17.06.2024-20.06.2024

4 days

Reexamination period

27.06.2024-07.07.2024

11 days

Period for preparing the final thesis

Legal and Religious Holidays:
30.11.2023, 01.12.2023, 25.12.2023 , 26.12.2023, 01.01.2024. 02.01.2024, 24.01.2024 01.05.2024, 03.05.2024, 06.05.2024, 01.06.2024, 24.06.2024, 15.08 2024.

Practical Activities (3 -6 Weeks)
will be scheduled either during the entire academic Year