Post on 08-Oct-2015
description
ADVANCED
COMMUNICATION
SYSTEMS
By
Prof. Dr. Said E. El-Khamy, Life Fellow IEEE
COURSE OUTLINE 1. Evolution of Wireless Communications
2. Digital Transmission Fundamentals, Channel Capacity and Dig Modulation Comparisons
3. Wireless Channel Problems A- Path loss - Free space model- 2-ray multipath model- Scattering and knife edge diffraction.
B Small scale fading- Rayliegh and Rice distributions- Large scale fading- Log-normal distributions.
4. Diversity and Equalizers.
5. Spread Spectrum Techniques:
- General, DS-FH-H, properties of SS, advantages of SS, - CDMA Codes: Barker codes, M-sequences codes, Gold codes, Orthogonal
codes (Walsh, OVSF);
- Performance of CDMA: MAI, Jamming- Performance of FH-MASS.
6. Cellular systems, FDMA, TDMA & CDMA performance.
7. OFDM and OFDMA techniques.
8. Modern Radar Systems: i- Radar types and signals, Doppler and short pulse radar, coherent
and Non-coherent detection, Radar Equation, False Alarm and Detection Probabilities,
ii- Radar Resolution, Ambiguity Function, Linear FM (chirp) radar, Phase coded radar. [may be Omitted]
9. Advanced Techniques: channel estimation, adaptive modulation & coding, MIMO and Smart antennas, advanced Error Correcting Codes.
10. 2G Mobile and Wireless Communication Systems: GSM, IS-95, GPS, WiLan.
11. 3G Mobile and Wireless Communication Systems: UMTS, CDMA2000.
12. 4G Mobile and Wireless Communication Systems: WiMax, LTE, LTEA.
[NOTE: The Systems and techniques ([9]-[12]) will be delivered partially by the students through their presentations.