ELT-44007 Radio Architectures and Signal Processing, 6 cr

Additional information

Advanced course, mainly intended for doctoral studies but can certainly be studied also in the MSc phase. The course is lectured every second year, next time during fall 2016.

Course www-page: https://www.cs.tut.fi/kurssit/TLT-5806
Suitable for postgraduate studies.

Person responsible

Mikko Valkama, Markku Renfors

Lessons

Implementation Period Person responsible Requirements
ELT-44007 2016-01 1 - 2 Markku Renfors
Mikko Valkama
Exam about generic core contents of the course. Mandatory exercises or small projects about advanced topics.Grading is based on the exam and quility of the exercise and project returns.

Learning Outcomes

This course gives an overview of modern radio receiver and radio transmitter architectures and critical issues in analog and digital processing in the receiver/transmitter front-ends, used in all wireless communications devices. Strong emphasis is on flexible radio type of techniques, where the idea is to increase the role of DSP in the transceiver front-end processing to achieve flexible solutions, e.g., for multi-standard systems. After completing the course, students have good understanding of the key RF-functionalities and related performance issues when designing the analog and digital signal processing blocks for digital communications receivers and transmitters. She/he can also explain the possibilities and challenges of increased use of digital signal processing algorithms for implementing or enhancing the RF functionalities.

Content

Content Core content Complementary knowledge Specialist knowledge
1. RECEIVER ARCHITECTURES: - Basic architectures of communications receivers: superheterodyne, direct-conversion, low-IF; - Effects of non-idealities in practical analog implementations: I/Q imbalance, nonlinearities, noise, phase noise, spurious responses; - System calculation principles; - The significance of RF specifications of mobile communication systems on the specs of the signal processing blocks; - Flexible multistandard receiver structures and flexible spectrum use, software defined radio and cognitive radio concepts.     
2. TRANSMITTERS: - Basic transmitter structures; - Co-existence of transmitters and receivers, impact of duplexing methods; - Effects of power amplifier nonlinearities and linearization principles. - Digital predistortion     
3. FREQUENCY SYNTHESIS: - The principles and analysis of key performance characteristics of main frequency synthesis methods; - Direct digital synthesis.      
4. MULTIRATE DSP: - Principles of multirate signal processing and extensions to bandpass and complex (I/Q) cases; - Review of efficient realization structures: polyphase structure, CIC filters; - Continuous-time, discrete-time, and multirate signal processing in case of complex (I/Q) and bandpass signals; - Sampling of bandpass signals and I/Q signals, sampling and ADC requirements regarding resolution and sampling jitter; - Delta-sigma A/D-conversion principle; - Efficient DSP algorithms for communications receivers.     
5. SYNCHRONIZATION: - Requirements and methods for carrier and symbol synchronization; - Maximum Likelihood estimation theory in synchronization; - All-digital synchronization principles; - Principle of polynomial interpolation and its applications in communications signal processing.  - Efficient all-digital synchronization algorithms; - Cramer-Rao bound on the performance of synchronization algorithms; - Realizations structures and design methods for polynomial interpolation.   
6. DSP ENHANCED RADIO: - Use of statistical DSP for compensation of certain non-idealities of the analog parts (I/Q imbalance, nonlinearities, phase noise); - Power amplifier modeling and linarization methods.  - More extensive analysis of the used statistical DSP methods and detailed signal models.   
7. SOFTWARE DEFINED RADIO PLATFORMS - Introduction to LabVIEW/USRP environment;   - More extensive project with LabVIEW/USRP for additional credits.   

Instructions for students on how to achieve the learning outcomes

The assessment is based on the exam and/or personal project works, which are targeted to measuring the knowledge gained in the core contents. Also the quality of the project works and homework returns have impact on grading.

Assessment scale:

Numerical evaluation scale (0-5)

Partial passing:

Completion parts must belong to the same implementation

Study material

Type Name Author ISBN URL Additional information Examination material
Lecture slides     Markku Renfors et al.       Lecture notes will be available under the course www-page   Yes   

Prerequisites

Course Mandatory/Advisable Description
ELT-41307 Communication Theory Mandatory    
ELT-43007 Digital Communication Advisable    
ELT-43106 Multicarrier and Multiantenna Techniques Advisable    



Correspondence of content

Course Corresponds course  Description 
ELT-44007 Radio Architectures and Signal Processing, 6 cr ELT-44006 Receiver Architectures and Signal Processing, 5-7 cr  

Updated by: Laine Katja, 13.04.2016