Wireless Communication
Wireless Communication. Instructor: Prof. Ranjan Bose, Department of Electrical Engineering, IIT Delhi. The course covers lessons in types of wireless communication, electromagnetic spectrum, timeline of wireless communication development, its multimedia requirements, radio propagation mechanisms, fading distributions, modulation techniques, channel coding techniques,
wireless networks, GSM and CDMA architecture. (from nptel.ac.in)
| Wireless Communication Systems |
| Lecture 01 - Motivation and Introduction |
| Lecture 02 - Types of Wireless Communication |
| Lecture 03 - Modern Wireless Communication Systems |
| Lecture 04 - The Cellular Concept: System Design Issues |
| Lecture 05 - Cell Capacity and Reuse, Traffic Theory |
| Lecture 06 - Interference and System Capacity |
| Lecture 07 - Improving Coverage and System Capacity |
| Mobile Radio Propagation |
| Lecture 08 - Propagation Basics, Properties of Radio Waves, Antenna Basics |
| Lecture 09 - Radio Propagation Mechanisms: Reflection, Diffraction, Scattering |
| Lecture 10 - Propagation Models: Free Space, Small-and Large-Scale, Log-Distance Path Loss |
| Lecture 11 - Log-Normal Shadowing, Outage Probability, Percentage of Coverage Area |
| Lecture 12 - Outdoor and Indoor Propagation Models |
| Lecture 13 - Small-Scale Fading: Multipath and Fading, Doppler Shift, Delay Spread, Intersymbol Interference |
| Lecture 14 - Multipath Channel Model: Impulse Response Model of a Multipath Channel |
| Lecture 15 - Multipath Channel (cont.), Power Delay Profile, Bandwidth and Received Power |
| Lecture 16 - Small-Scale Multipath Measurements: Channel Sounding Techniques |
| Lecture 17 - Channel Measurements: Ultra-Wideband (UWB) Communications |
| Lecture 18 - Parameters of Mobile Multipath Channels, Time Dispersion Parameters, Coherence Bandwidth |
| Lecture 19 - Frequency Flat and Frequency Selective Fading, Fast Fading, Rayleigh Fading |
| Lecture 20 - Rayleigh Fading (cont.), Ricean Fading, Level Crossing Rate, Average Fade Duration |
| Lecture 21 |
| Modulation Techniques for Mobile Communication |
| Lecture 22 - Amplitude Modulation and Demodulation |
| Lecture 23 - Frequency Modulation and Demodulation |
| Lecture 24 - Digital Modulation: Power and Bandwidth Efficiencies, Line Coding, Intersymbol Interference |
| Lecture 25 - Linear Digital Modulation Techniques: BPSK, DPSK, QPSK |
| Lecture 26 - Constant Envelope Modulation Techniques: BFSK, MSK, GMSK, M-ary PSK |
| Lecture 27 - M-ary Quadrature Amplitude Modulation (QAM), Spread Spectrum Techniques |
| Lecture 28 - Performance of Digital Modulation Techniques |
| Equalization and Diversity Techniques |
| Lecture 29 - Equalization, Diversity and Coding; Fundamentals of Equalization; Adaptive Equalization |
| Lecture 30 - Linear Equalizers, Nonlinear Equalizers, Algorithms for Adaptive Equalization |
| Lecture 31 - Diversity Techniques: Space Diversity |
| Lecture 32 - Diversity Techniques: Space/Polarization/Frequency/Time Diversity |
| Coding Techniques for Mobile Communications |
| Lecture 33 - Coding Techniques: Linear Block Codes, Galois Field, Cyclic Codes |
| Lecture 34 - Coding Techniques: Galois Field, Cyclic Codes, BCH Codes |
| Lecture 35 - Coding Techniques: Primitive Polynomial, Minimal Polynomial, BCH Codes, RS Codes |
| Lecture 36 - Convolutional Codes, Trellis Codes, Viterbi Decoding, Trellis Coded Modulation |
| Wireless Networks |
| Lecture 37 - Wireless Networks |
| Lecture 38 - GSM and CDMA |
| Lecture 39 - GSM and CDMA (cont.) |
| References |
Wireless Communication
Instructor: Prof. Ranjan Bose, Department of Electrical Engineering, IIT Delhi. The course covers lessons in types of wireless communication, electromagnetic spectrum, ...
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