Course Catalog 2011-2012
International

Basic Pori International Postgraduate Open University

|Degrees|     |Study blocks|     |Courses|    

Opinto-opas 2011-2012

Communications Engineering, 30 cr

Type of the study block

Major Studies

Contact

Markku Renfors

Learning outcomes

- The student attains capabilities to understand, analyze and apply the key techniques of the chosen focus area as used in today's and future communication systems, together with related design methodologies and design tools.

Prerequisites

Study block Credit points Mandatory/Advisable Additional information
Information Technology 25 cr Mandatory In Communications Engineering, students should specialize in one of the three focus areas by choosing the corresponding course package. The pre-requisites for different focus areas are as follows: COMMUNICATION NETWORKS AND PROTOCOLS: OHJ-1156 Programming II 5 cr, TLT-2316 Computer Networking I 5 cr, TLT-5206 Communication Theory 5 cr, TLT-6106 Basic Course on Wireless Communications 5 cr. WIRELESS COMMUNICATIONS: SGN-1159 Introduction to Signal Processing 5 cr, TLT-2316 Computer Networking I 5 cr, TLT-5206 Communication Theory 7 cr, TLT-6106 Basic Course on Wireless Communications 5 cr. RF COMMUNICATION CIRCUITS: TLT-5206 Communication Theory 5 cr, TLT-6106 Basic Course on Wireless Communications 5, TLT-8107 Basic Communication Circuits-2 7 cr.

Content

Compulsory courses

Student should specialize in one of the three focus areas by choosing the corresponding course package. Students writing their Master's thesis in Communications Engineering must also complete the courses TST-1306 Communications Engineering Thesis Seminar, 1 cr and TST-1406 Communications Engineering Thesis Seminar Presentation, 0 cr.

Course Credit points Alternativity Class
TLT-2156 Laboratory Exercises in Computer Networking 3 cr 1    
TLT-2336 Computer Networking II 5 cr 1    
TLT-2506 Communication Networks Laboratory Course 5-9 cr 1    
TLT-5406 Digital Transmission 7 cr 2    
TLT-5506 Communication Systems Laboratory Course 5-9 cr 2    
TLT-5706 Multicarrier Techniques 4 cr 2    
TLT-6306 RF Equipment for Wireless Networks 3 cr 2    
TLT-8207 Communication Circuits & Modules - 1 5-8 cr 3    
TLT-8307 RF-ASIC Design - 1 7 cr 3    
TLT-8507 Communication Circuits & Modules - 2 9 cr 3    
TLT-8607 RF-ASIC Design - 2 9 cr 3    
TST-1406 Master's Thesis Seminar Presentation 0 cr   I  
Total 62 cr    

1. Communication Networks and Protocols focus area
2. Wireless Communications focus area
3. RF Communication Circuits focus area

Alternative studies

Course Credit points Alternativity
SGN-2016 Digital Linear Filtering I 5 cr 2  
TLT-2346 Communication Protocol Engineering 8 cr 1  
TLT-2606 Advanced Course on Networking 4 cr 1  
TLT-2616 Ad Hoc Networks 3-5 cr 1  
TLT-2626 Peer-to-Peer Networks 3-5 cr 1  
TLT-2636 Wireless Networking 3-5 cr 1  
TLT-2656 Special Course on Networking 3-6 cr 1  
TLT-2707 Network Simulation Techniques 3-6 cr 1  
TLT-2716 Teletraffic Theory I 3-6 cr 1  
TLT-5606 Spread Spectrum Techniques 5-7 cr 2  
TLT-5656 Signal Processing for Mobile Positioning 5-7 cr 2  
TLT-5806 Receiver Architectures and Signal Processing 5-7 cr 2  
TLT-6206 Radio Propagation in Wireless Networks 3 cr 2  
TLT-6407 Radio Network Planning 6-9 cr 2  
TLT-6507 Advanced Course on Wireless Communications 5 cr 2  
TLT-8107 Basic Communication Circuits - 2 7 cr 2  

1. Communication Networks and Protocols focus area
2. Wireless Communications focus area. The following combinations are recommended: (1) Wireless Systems: TLT-5606, TLT-6206, TLT-6507; (2) Radio Network Planning: TLT-6206, TLT-6406, TLT-6507; (3) RF DSP: SGN-2016, TLT-5806, TLT-8107: (4) Positioning: TLT-6206, TLT-5656

Supplemental courses

A minimum number of 30 credits for the advanced study module shall be completed with studies selected freely from the list below. Also courses from compulsory and elective courses from other focus areas may be included.

Please select courses from the list to complete the study block`s requirement (30)

Course Credit points
ELE-3506 Antenna Basics 2 cr
ELE-6057 Basics of RF Engineering 5 cr
ELE-6156 Basics of RF Engineering II 5 cr
ELE-6256 Active RF Circuits 5 cr
MAT-31096 Matrix Algebra 1 5 cr
MAT-41156 Algebra 1 5 cr
MAT-41176 Theory of Automata 5 cr
MAT-41196 Graph Theory 6 cr
MAT-45806 Mathematics for positioning 3 cr
MAT-51206 Coding Theory 6 cr
MAT-51216 Information Theory 4 cr
MAT-51266 Stochastic Processes 6 cr
MAT-55406 Finite Fields 4 cr
OHJ-1406 Introduction to Object-Oriented Programming 4 cr
OHJ-2016 Utilization of Data Structures 5 cr
OHJ-3066 Software Testing 5 cr
SGN-2106 Multirate Signal Processing 6 cr
SGN-2206 Adaptive Signal Processing 5 cr
SGN-2407 Spectrum Estimation and Array Signal Processing 5 cr
SGN-2607 Statistical Signal Processing 6 cr
TITA-7306 Media Production Systems and Processes 5 cr
TKT-1426 Digital Design for FPGA 6 cr
TKT-2456 Wireless Sensor Networks 5 cr
TKT-2536 Introduction to Satellite Positioning 5 cr
TKT-3516 Signal Processors 5 cr
TLT-2656 Special Course on Networking 3-6 cr
TLT-2727 Teletraffic Theory II 4-6 cr
TLT-2786 Advanced Topics in Teletraffic Theory 3-6 cr
TLT-5906 Advanced Course in Digital Transmission 5-7 cr
TLT-6706 Advanced Topics in Radio Network Planning 3-6 cr
TLT-8357 Communication Technologies in Battery Management 5-8 cr
TST-1206 Demola project work 5-10 cr

Additional information

This advanced study module has a wide scope, encompassing different basic technologies needed in today's broadband wireless communication systems. Broad coverage of basic level courses is recommended, but the advanced studies should be focused in one of the following three areas: 1. Communication Networks and Protocols: Networking aspects of the Internet, especially protocols and mechanisms related to routing, quality of service, and security. 2. Wireless Communications: System level view to signals and signal processing techniques in wireless transmission links: Digital transmission techniques, signal processing in receivers and transmitters, mobile positioning. Wireless system level view: radio resource management, radio network planning. 3. RF Communication Circuits: Analog circuit design for wireless communications equipment; main emphasis on RF ASIC development.

Last modified15.08.2011