First cycle
degree courses
Second cycle
degree courses
Single cycle
degree courses
School of Engineering
ICT FOR INTERNET AND MULTIMEDIA
Course unit
TELECOMMUNICATION PRINCIPLES (I.C.)
INP9086624, A.A. 2019/20

Information concerning the students who enrolled in A.Y. 2019/20

Information on the course unit
Degree course Second cycle degree in
ICT FOR INTERNET AND MULTIMEDIA (Ord. 2019)
IN2371, Degree course structure A.Y. 2019/20, A.Y. 2019/20
N0
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Degree course track INTERNATIONAL MOBILITY [005PD]
Number of ECTS credits allocated
Type of assessment Mark
Course unit English denomination TELECOMMUNICATION PRINCIPLES (I.C.)
Department of reference Department of Information Engineering
Mandatory attendance No
Language of instruction English
Branch PADOVA
Single Course unit The Course unit can be attended under the option Single Course unit attendance
Optional Course unit The Course unit can be chosen as Optional Course unit

Lecturers
Teacher in charge MICHELE ROSSI ING-INF/03

Modules of the integrated course unit
Course unit code Course unit name Teacher in charge
INP9086625 PROGRAMMING FOR TELECOMMUNICATIONS (MOD. B) MICHELE POLESE
INP9086626 WIRELESS COMMUNICATIONS (MOD. A) MICHELE ROSSI

Course unit organization
Period  
Year  
Teaching method frontal

Calendar
Start of activities 30/09/2019
End of activities 18/01/2020
Show course schedule 2019/20 Reg.2019 course timetable

Examination board
Examination board not defined

Syllabus
Prerequisites: MODULO A
The student should have a good knowledge of basic probability theory, including random processes, random variables, their expectation, the concept of conditional probability the main probability density functions, etc. Note that no previous courses are deemed mandatory, as the instructor will go through the needed preliminary theory and/or the description of the related networking mechanisms prior to the presentation of each new topic.

Nevertheless, some basic knowledge on computer networks, including their basic tools for performance analysis (queueing theory) and some knowledge on networking protocols (in particular link layer and transport) is beneficial. Hence, the prospective student may want to attend:

INM0017601 TELECOMUNICAZIONI
INP9086741 INTERNET

MODULO B
Previous exposure to Matlab, Java, C or to scripting languages such as Linux bash, HTML, CSS, etc., is helpful but not required.
Target skills and knowledge: MODULO A
1. Provide some advanced knowledge on protocol stacks for wireless communications, including the analysis of distributed wireless networks, state of the art wireless technologies and current trends.
2. The student will become knowledgeable about modern centralized and distributed wireless systems, with focus on IEEE 802.11 (a/g/n/h/ac).
3. The student will become knowledgeable about protocol stacks for wireless communications, including: 3.1) physical layer (PHY) designs, 3.2) link layer protocols (ARQ and hybrid ARQ), 3.3) routing algorithms (NET) and 3.4) TCP based flow control.
4. The student will acquire the ability to analyze wireless communication scenarios, and characterize the performance of selected network protocols for a correct system design. Also, she/he will be able to analyze a wireless networking solution through simulation and modify the protocol rules so as to enhance the system performance.

MODULO B
1. Solid knowledge about data structures, syntax, flow control statements and basic libraries of C and C++ programming languages
2. Solid knowledge of C++ object oriented programming
3. Knowledge of advanced programming concepts, such as, multi-trading, concurrent programming, smart-pointers, TCP socket programming, and compiling tools
4. Ability to Implement communication systems based on the TCP/IP technology

MODULO A + MODULO B
The knowledge acquired from the two MODULES A and B will allow the student to 1) write network simulators targeting complex network scenarios. Likewise, she/he will gain a system-level view of communication systems, developing the sensibility needed to modify channel access, routing and transport protocols, towards improving their performance. 2) In addition, the student will be able to implement communication solutions based on the TCP/IP protocol suite.
Examination methods: The overall exam will entail two main steps: 1) a written examination dealing with dimensioning a communication system and providing answers to theoretical questions (MODULO A), 2) the development of a practical project, entailing the implementation of a selected communication solution in the C++ language (MODULO B).

MODULO A
The assessment for "MODULO A" will be based on a written exam, consisting of two parts:

Part 1: the first part contains one exercise about dimensioning a wireless networking system, involving the transmission of some data flow through a network of terminals, where some of the links are wireless.
Part 2: the second part contains some theoretical questions, that cover some of the derivations (formulas, proofs, etc.) that are presented during the course.

MODULO B
The assessment for module B will be based on a written exam (with short open questions on the theoretical aspects of the course) and on a computer-based exam, where the students will have to complete the development of some parts of a C++ codebase.
Assessment criteria: MODULO A
The written exam will be formulated so as to assess the following abilities:

For Part 1:
1. Ability of understanding a communication network from a system level perspective, breaking the technical scenario down into smaller pieces, solving each one according to the technical and methematical dependencies among them, and merging the obtained results to obtain global performance estimates.
2. Competence and coherence in the discussion of the performance so obtained.
3. Correctness of approach and of the numerical results.

For Part 2:
1. Knowledge of the wireless systems presented in the course.
2. Knowing how to derive the key equations and proofs regarding the physical, link and networking layers studied in the course.
3. Capacity and competence in the explanation of the performance tradeoffs of the presented systems.

MODULO B
Part 1: knowledge of the topics of the course, correctness and coherence of the answers.
Part 2: correctness of the implementation, quality of the developed code.

Innovative teaching methods: Teaching and learning strategies
  • Lecturing
  • Laboratory
  • Problem based learning
  • Case study
  • Working in group
  • Questioning
  • Problem solving
  • Loading of files and pages (web pages, Moodle, ...)

Innovative teaching methods: Software or applications used
  • Latex
  • Mathematica
  • Matlab
  • C/C++, gcc/g++, Linux OS

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