Pandian Saraswathi Yadav Engineering College,

Madurai-Sivagangai Highway, Arasanoor – 630561

COURSE PLAN

Department: ECE / M.E. (COMMUNICATION SYSTEMS)

Subject code & Subject: CU9221 / WIRELESS MOBILE COMMUNICATION

Semester: II

Name of the faculty member: K.KARTHIK

Text and Reference Books

S.No. Title of the book Author(s) Publications

R1 Wireless Communications Andrea Goldsmith Cambridge University Press, 2005

R2 Fundamentals of

Wireless Communication

David Tse and

Pramod Viswanath Cambridge University Press, 2005

R3 Mobile Communication

Engineering W.C.Y.Lee Mc Graw Hill, 2000

R4 Introduction to Space-Time

Wireless Communication

A.Paulraj,

R.Nabar, D.Gore Cambridge University Press, 2003

R5 Wireless Communications T.S. Rappaport Pearson Education, 2003

Lecture

No.

Unit

No. Topic to be taught

Page No. of

Text or

Reference book

THE WIRELESS CHANNEL

1. I Overview of wireless systems R2(2-5)

2. I

Physical modeling for wireless channels -

Free space, fixed transmit and receive antennas,

Free space, moving antenna,

Reflecting wall, fixed antenna

R2(10-15)

3. I

Physical modeling for wireless channels -

Reflecting wall, moving antenna,

Reflection from a ground plane,

Power decay with distance and shadowing,

Moving antenna, multiple reflectors

R2(16-20)

4. I Time and Frequency coherence R2(30-34)

5. I Statistical channel models R2(34-38)

6. I Capacity of wireless Channel -

Capacity in AWGN R1(91-93)

7. I Capacity of Flat Fading Channel -

Channel Distribution Information known,

Channel Side Information at Receiver R1(93-97)

8. I Channel Side Information at Transmitter

and Receiver - Shannon Capacity R1(98-101)

9. I

Channel Side Information at Transmitter

and Receiver - Zero-Outage Capacity

and Channel Inversion, Outage Capacity

and Truncated Channel Inversion

Capacity with Receiver diversity

R1(102-104)

10. I Capacity comparisons R1(104-106)

11. I Capacity of Frequency Selective Fading channels R1(106-110)

12. I Review of unit - I

PERFORMANCE OF DIGITAL MODULATION

OVER WIRELESS CHANNELS

13. II Fading, Outage Probability R1(168-170)

14. II Average Probability of Error - BPSK R5(340-342)

R1(170-171)

15. II Average Probability of Error - BFSK,DPSK R5(340-342)

R1(170-171)

16. II Combined Outage and Average Error Probability,

Doppler Spread R1(176-179)

17. II Intersymbol Interference R1(179-181)

18. II Review of unit - II

DIVERSITY

19. III Realization of Independent Fading Paths R1(190-191)

R5(385-390)

20. III Receiver Diversity -

System model, Selection Combining R1(191-195)

21. III Threshold Combining,

Maximal Ratio Combining R1(196-200)

22. III Equal - Gain Combining R1(200-202)

23. III Transmitter Diversity – Channel known at

Transmitter, Channel unknown at Transmitter

-The Alamouti Scheme

R1(202-204)

R2(73-77)

24. III Review of unit - III

MULTICARRIER MODULATION

25. IV Data Transmission using Multiple Carriers R1(350-353)

26. IV Multicarrier Modulation with

Overlapping Sub channels R1(353-355)

27. IV Mitigation of Subcarrier Fading R1(355-357)

28. IV Discrete Implementation of Multicarrier

Modulation - The DFT and its Properties,

The Cyclic Prefix R1(358-360)

29. IV Discrete Implementation of Multicarrier

Modulation - OFDM, Matrix Representation

and Vector Coding

R1(360-364)

30. IV Discrete Implementation of

Multicarrier Modulation - Vector coding R1(364-367)

31. IV Peak to average Power Ratio,

Frequency and Timing offset R1(367-370)

32. IV Case study - IEEE 802.11a. R1(370-371)

33. IV Review of unit - IV

SPREAD SPECTRUM

34. V Spread Spectrum - Principles,

Generation of spreading codes R1(378-379)

R5(329-331)

35. V Spread Spectrum - Implementation types R1(380-383)

36. V Direct Sequence Spread Spectrum

- System model R1(383-387)

R5(331-333)

37. V Spreading Codes - Random,

Pseudorandom and m-sequences R1(387-390)

38. V Synchronization R1(390-392)

39. V RAKE receivers R1(392-393)

R2(91-95)

40. V Frequency Hopping Spread Spectrum -

System model R1(393-395)

R5(334-335)

41. V Multiuser DSSS Systems - Spreading codes R1(395-399)

42. V Multiuser DSSS Systems - Downlink channels R1(399-403)

43. V Multiuser DSSS Systems - Uplink channels R1(404-407)

44. V Multiuser DSSS Systems - Multiuser Detection,

Multicarrier CDMA, Multiuser FHSS Systems R1(408-412)

45. V Review of unit - V

Signature of faculty member Signature of HOD Signature of Principal

CU9221 - WIRELESS MOBILE COMMUNICATION

L T P C

3 0 0 3

UNIT I - THE WIRELESS CHANNEL 9

Overview of wireless systems – Physical modeling for wireless channels – Time and

Frequency coherence – Statistical channel models – Capacity of wireless Channel -

Capacity of Flat Fading Channel –– Channel Distribution Information known – Channel

Side Information at Receiver – Channel Side Information at Transmitter and Receiver –

Capacity with Receiver diversity – Capacity comparisons – Capacity of Frequency

Selective Fading channels

UNIT II - PERFORMANCE OF DIGITAL MODULATION OVER WIRELESS

CHANNELS 8

Fading– Outage Probability– Average Probability of Error –– Combined Outage and

Average Error Probability – Doppler Spread – Intersymbol Interference.

UNIT III - DIVERSITY 9

Realization of Independent Fading Paths – Receiver Diversity – Selection Combining

– Threshold Combining – Maximal-Ratio Combining – Equal - Gain Combining –

Transmitter Diversity – Channel known at Transmitter – Channel unknown at

Transmitter– The Alamouti Scheme.

UNIT IV - MULTICARRIER MODULATION 10

Data Transmission using Multiple Carriers – Multicarrier Modulation with Overlapping

Subchannels – Mitigation of Subcarrier Fading – Discrete Implementation of Multicarrier

Modulation – Peak to average Power Ratio- Frequency and Timing offset – Case study

IEEE 802.11a.

UNIT V - SPREAD SPECTRUM 9

Spread Spectrum Principles – Direct Sequence Spread Spectrum – Spreading Codes-

Synchronization- RAKE receivers- Frequency Hopping Spread Spectrum – Multiuser

DSSS Systems – Multiuser FHSS Systems.

TOTAL: 45 PERIODS

REFERENCES:

1. Andrea Goldsmith, Wireless Communications, Cambridge University Press, 2005.

2. David Tse and Pramod Viswanath, Fundamentals of Wireless Communication,

Cambridge University Press, 2005.

3. W.C.Y.Lee, Mobile Communication Engineering, Mc Graw Hill, 2000.

4. A.Paulraj, R.Nabar, D.Gore, Introduction to Space-Time Wireless Communication,

Cambridge University Press, 2003.

5. T.S. Rappaport, Wireless Communications, Pearson Education, 2003.