Wireless Communications
For acquiring detailed information about the requirements of research project reports to be prepared during Fall semester, please click here.
For acquiring detailed information about the requirements of research project reports to be prepared during Fall semester, please click here.
Lecture # 4: Wireless Propagation Characteristics: (Multipath Narrow-Band Model)
Lecture # 4: Wireless Propagation Characteristics: (Multipath Narrow-Band Model)
Lecture # 5: Wireless Propagation Characteristics: (Multipath Wide-Band Model, Time-varing Impulse Response & Delay-Doppler Model)
Lecture # 5: Wireless Propagation Characteristics: (Multipath Wide-Band Model, Time-varing Impulse Response & Delay-Doppler Model)
Lecture # 6: Wireless Propagation Characteristics: Power delay profile and Doppler power spectrum
Lecture # 6: Wireless Propagation Characteristics: Power delay profile and Doppler power spectrum
Lecture # 10: Effect of Fading, Doppler and Delay Spread on Average Outage Probability
Lecture # 10: Effect of Fading, Doppler and Delay Spread on Average Outage Probability
Lecture # 12: Adaptive Modulation in wireless communication: concept and approaches
Lecture # 12: Adaptive Modulation in wireless communication: concept and approaches
Lecture # 14: Techniques for Overcoming Interference in Wireless Systems: OFDM, WCDMA, Equalization, Multiuser Networks (multiple access and random access)
Lecture # 14: Techniques for Overcoming Interference in Wireless Systems: OFDM, WCDMA, Equalization, Multiuser Networks (multiple access and random access)