Unit I Introduction to Sdr 9
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LESSON PLAN LP- CU7005 LP Rev. No: 01 Sub Code& Name : CU7005 – COGNITIVE RADIO Date: 01-02-2016
Unit: I Branch: ME-CS Semester: II Page 01 of 06
Unit syllabus:
UNIT I INTRODUCTION TO SDR 9 Definitions and potential benefits, software radio architecture evolution – foundations, technology tradeoffs and architecture implications, Antenna for Cognitive Radio.
Objective: To enable the student to know about software defined radio benefits, architecture evolution and technology tradoffs.
Teaching Method Session Topics to be covered Time Ref No. Introduction to SDR, Block diagram of digital radio, 1. 50m 1,2 PPT Digital Radio Vs SDR 2. Definitions and benefits of SDR, need for SDR 50m 1,2 PPT 3. Software Radio Architecture evolution 50m 1,2,3 PPT Technology tradeoff to be considered in SDR PPT 4. 50m 1,2 Architecture 5. Architecture implications 50m 1,3 PPT Antenna for Cognitive Radio- reconfigurable antenna for 50m 6. cognitive radio, wideband antenna considerations, smart 1 PPT antenna DOC/LP/01/28.02.02
LESSON PLAN LP- CU7005 LP Rev. No: 01 SubCode& Name : CU7005 - COGNITIVE RADIO Date: 01-02-2016 Unit: II Branch: ME-CS Semester: II Page 02 of 06
Unit syllabus: UNIT II SDR ARCHITECTURE 9 Essential functions of the software radio, architecture goals, quantifying degrees of programmability, top level component topology, Computational properties of functional components, interface topologies among plug and play modules, architecture partitions.
Objective: To enable the student to understand the essential functionalities and requirements in designing software defined radios and their usage for cognitive communication.
Session Teaching No. Topics to be covered Time Ref Method
Evolution of SDR, Essential Functions, Architectural 50m 8,1,2 PPT 7. goals Quantifying degrees of programmability, SDR Phase 50m 8,2 PPT 8. Space – illustrating the degree of programmability Top-level component topology interface- topological 50m 8,2 PPT 9. model of dual band handset streams 10. Constraints of interfaces to topological properties 50m 8,2 PPT Computational properties of functional components- 50m 8 PPT 11. models of computation, the primitive recursive functions 12. Total recursive functions 50m 8 PPT CAT - I 90m Interface topologies among plug and play modules- 50m 8 PPT 13. topological spaces, finite interface topologies, function-call parameter topologies Plug and play interface geometry, extensible 50m 8 PPT 14. capabilities Architecture partitions-SPEAKeasy I, hardware 50m 8 PPT 15. specific partition, topology of infrastructure software Radio state machines, channel agents, distributed 50m 8 PPT 16. layered virtual machine reference model DOC/LP/01/28.02.02
LESSON PLAN LP- CU7005
SubCode& Name : CU7005 - COGNITIVE RADIO LP Rev. No: 01 Date: 01-02-2016 Unit: III Branch: ME-CS Semester: II Page 03 of 06 Unit syllabus: UNIT III INTRODUCTION TO COGNITIVE RADIOS 9 Making radio self-aware, the cognition cycle, organization of cognition tasks, structuring knowledge for cognition tasks, Enabling location and environment awareness in cognitive radios – concepts, architecture, design considerations.
Objective: To study various types of block coding techniques for encoding and decoding of digital rate streams.
Session Teaching No. Topics to be covered Time Ref with Method page no 17. Making radio self-aware, cognitive radio frame work 50m 5 PPT The cognition cycle, organization of cognition tasks- 5 PPT 18. The Foundation for Cognition, Core Cognition 50m Capabilities: Natural Language, 19. Planning and Learning 50m 5 PPT 20. Structuring knowledge for cognition tasks 50m 5 PPT Enabling location and environment awareness in 50m 9 PPT 21. cognitive radios – concepts in wireless systems Proposed architecture – sensing interface, location 50m 9 PPT 22. awareness engine 23. Environment awareness engine 50m 9 PPT 24. Design considerations – implementation options 50m 9 PPT 25. Review & discussion 50m 5,9 PPT DOC/LP/01/28.02.02
LESSON PLAN LP- CU 7005 LP Rev. No: 01 SubCode& Name : CU7005 - COGNITIVE RADIO Date: 01-02-2016 Unit: IV Branch: ME-CS Semester: II Page 04 of 06
Unit syllabus:
UNIT IV COGNITIVE RADIO ARCHITECTURE 9 Primary Cognitive Radio functions, Behaviors, Components, A–Priori Knowledge taxonomy, observe – phase data structures, Radio procedure knowledge encapsulation, components of orient, plan, decide, act phases; knowledge representation, design rules.
Objective: To enable the student to understand the evolving paradigm of cognitive radio communication and the enabling technologies for its implementation.
Session Teaching No. Topics to be covered Time Ref Method Primary functions of cognitive radio, Behaviors – 50m 5,1,3 PPT 26. waking, sleeping & prayer behaviors, cognitive radio components A–Priori Knowledge taxonomy, observe – phase 50m 5,1,3 PPT 27. data structures CAT - 11 90m
28. Radio procedure knowledge encapsulation 50m 5,1,3 PPT Components of orient phase, plan, decide , act 50m 5,1,3 PPT 29. phases 30. Knowledge representation 50m 5,1,3 PPT 31. Design rules for cognitive radio 50m 5,1,3 PPT 32. Review & discussion 50m 5 PPT DOC/LP/01/28.02.02
LESSON PLAN LP- CU7005 LP Rev. No: 01 SubCode& Name : CU7005 - COGNITIVE RADIO Date: 01-02-2016 Unit: V Branch: ME-CS Semester: II Page 05 of 06
Unit syllabus:
UNIT V NEXT GENERATION WIRELESS NETWORKS 9 The XG Network architecture, spectrum sensing, spectrum management, spectrum mobility, spectrum sharing, upper layer issues, cross – layer design. Objective: To expose the student to the evolving next generation wireless networks and their associated challenges.
Teaching Session Topics to be covered Time Ref Method No. Review on wireless networks & standards, Introduction 50m 33. 7 PPT to Next Generation Wireless Networks 34. XG Network Communication facilities & Architecture 50m 7 PPT Spectrum Sensing – different types and their merits & 50m 7 35. PPT demerits Spectrum Management – spectrum analysis, spectrum 50m 7 36. PPT decision, spectrum management challenges. Spectrum Mobility – spectrum Handoff, spectrum 50m 7 PPT 37. mobility challenges in XG Networks Spectrum Sharing – Techniques – centralized & 50m 7 PPT 38. distributed 39. Cooperative & non-cooperative, overlay & underlay 50m 7 PPT Upper layer issues – Routing Challenges, transport Layer 50m PPT 40. 7 Challenges Cross – Layer Design – Challenges in spectrum 50m PPT 41 7 management, spectrum handoff, spectrum sharing 42 Review & discussion 50m 7 PPT CAT III 90m
LESSON PLAN LP- CU7005 DOC/LP/01/28.02.02
SubCode& Name : CU7005 - COGNITIVE RADIO LP Rev. No: 01 Date: 01-02-2016 Unit: I-V Branch: ME-CS Semester: II Page 06 of 06
REFERENCES 1. Alexander M. Wyglinski, Maziar Nekovee, and Y. Thomas Hou, “Cognitive Radio Communications And Networks - Principles And Practice”, Elsevier Inc., 2010. 2. E. Biglieri, A.J. Goldsmith., L.J. Greenstein, N.B. Mandayam, H.V. Poor, “Principles of Cognitive Radio”, Cambridge University Press, 2013. 3. Kwang-Cheng Chen and Ramjee Prasad, “Cognitive Radio Networks”, John Wiley & Sons Ltd., 2009. 4. Khattab, Ahmed, Perkins, Dmitri, Bayoumi, Magdy, “Cognitive Radio Networks - From Theory to Practice”, Springer Series: Analog Circuits and Signal Processing, 2009. 5. J. Mitola, “Cognitive Radio: An Integrated Agent Architecture for software defined radio”, Doctor of Technology thesis, Royal Inst. Technology, Sweden 2000. 6. Simon Haykin, “Cognitive Radio: Brain –empowered wireless communications”, IEEE Journal on selected areas in communications, Feb 2005. 7. Ian F. Akyildiz, Won – Yeol Lee, Mehmet C. Vuran, Shantidev Mohanty, “NeXt generation /dynamic spectrum access / cognitive radio wireless networks: A Survey” Elsevier Computer Networks, May 2006. 8. Joseph Mitola, “Software Radio Architecture: A Mathematical Perspective” IEEE Journal on Selected Areas in Communication, Vol. 17, No. 4, April 1999. 9. Hasari Celebi ,Huseyin Arslan, “Enabling location and environment awareness in cognitive radios”, Elsevier Computer Communications, January 2008.
NOTE: The lesson plan is prepared by the Faculty member concerned and approved by the HOD-ECE.