Software Defined Radio detailed syllabus scheme for Electronics & Telecommunication Engineering (ET), 2017 onwards has been taken from the DBATU official website and presented for the Bachelor of Technology students. For Subject Code, Course Title, Lecutres, Tutorials, Practice, Credits, and other information, do visit full semester subjects post given below.
For 8th Sem Scheme of Electronics & Telecommunication Engineering (ET), 2017 Onwards, do visit ET 8th Sem Scheme, 2017 Onwards. For the Elective-XII scheme of 8th Sem 2017 onwards, refer to ET 8th Sem Elective-XII Scheme 2017 Onwards. The detail syllabus for software defined radio is as follows.
Software Defined Radio Syllabus for Electronics & Telecommunication Engineering (ET) 4th Year 8th Sem 2017 DBATU
Course Objectives:
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Course Outcomes:
After successfully completing the course students will be able to
- Compare SDR with traditional Hardware Radio HDR
- Implement modern wireless system based on OFDM, MIMO and Smart Antenna
- Build experiment with real wireless waveform and applications, accessing both PHY and MAC, Compare SDR versus MATLAB and Hardware Radio
- Work on open projects and explore their capability to build their own communication system.
Unit 1
Software Defined Radio fundamentals
Introduction to SDR, Need of SDR, Principles of SDR, Basic Principle and difference in Analog radio and SDR, SDR characteristics, required hardware specifications, Software/Hardware platform, GNU radio -What is GNU radio, GNU Radio Architecture, Hardware Block of GNU,GNU software, MATLAB in SDR, Radio Frequency Implementation issues, Purpose of RF front End, Dynamic Range, RF receiver Front End topologies, Flexibility of RF chain with software radio, Duplexer, Diplexer, RF filter ,LNA ,Image reject filters , IF filters , RF Mixers Local Oscillator , AGC, Transmitter Architecture and their issues, Sampling theorem in ADC, Noise and distortion in RF chain, Pre-distortion Case study : AM/FM/BPSK/QPSK/OFDM Simulation in Matlab.
Unit 2
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Unit 3
Multi Rate Signal Processing
Sample timing algorithms, Frequency offset estimation and correction, Channel Estimation, Basics of Multi Rate, Multi Rate DSP, Multi Rate Algorithm, DSP techniques in SDR, OFDM in SDR.
Unit 4
Smart/MIMO Antennas using Software Radio
Smart Antenna Architecture, Vector Channel Modeling, Benefits of Smart Antenna Phased Antenna Array Theory, Adaptive Arrays, DOA Arrays, Applying Software Radio Principles to Antenna Systems, Beam forming for systems-Multiple Fixed Beam Antenna Array, Fully Adaptive Array , Relative Benefits and Trade-offs OF Switched Beam and Adaptive Array, Smart Antenna Algorithms , Hardware Implementation of Smart Antennas, MIMO -frequency, time, sample Synchronization, Space time block coding-Space Time Filtering, Space Time Trellis Coding, Case Study: Principles of MIMO-OFDM.
Unit 5
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Unit 6
Applications of SDR
Application of SDR in Advance Communication System-Case Study, Challenges and Issues, Implementation, Parameter Estimation -Environment, Location, other factors, Vertical Handoff, Network Interoperability. Case Study: 1) CR for Public Safety -PSCR, Modes of PSCR, Architecture of PSCR 2) Beagle board based SDR 3) Embedded PCSR using GNU radio.
Reference/Text Book:
- Jeffrey H. Reed, Software Radio: A Modern Approach to Radio Engineering, Pearson, LPE.
- Markus Dillinger, Kambiz Madani, Nancy Alonistioti, Software Defined Radio: Architectures, Systems and Functions, Wiley.
- Tony. J. Rouphael, RF and DSP for SDR, Elsevier Newness Press, 2008.
- Dr. Taj Struman, Evaluation of SDR -Main Document.
- SDR -Handbook, 8th Edition, PENTEK.
- Bruce a . Fette, Cognitive Radio Technology, Newness, Elsevier.
For detail syllabus of all subjects of Electronics & Telecommunication Engineering (ET) 8th Sem 2017 onwards, visit ET 8th Sem Subjects of 2017 Onwards.