Analog and Digital Communication Systems Lecture Notes
Analog and Digital Communication Systems Lecture Notes
Analog and Digital Communication Systems Lecture Notes
This note
explains the fundamental principles underlying the analysis, design and
optimization of analog and digital communication systems. Topics covered
includes: Modern communication systems, Signal processing, Energy and power
spectral density, modulation methods, AM modulation, Sampling, reconstruction,
and pulse modulation, Pulse code modulation and quantization, PCM and the Bell
System, Line coding, Digital modulation methods, Error protection.
This
note covers general overview, Logarithmic Units and Link Budge, Review of
fundamental parameters of physical layer, Other merit figures, Quality of
Service, A or D Converter, Circuit Commutation vs Packet Commutation, Network
Topologies, Functional Block Diagram of Analog Communications link, Functional
Block Diagram of a Digital Communications Link, Block description, Digital
Modulations, Multiplexing and Multiple Access.
This note
explains the fundamental principles underlying the analysis, design and
optimization of analog and digital communication systems. Topics covered
includes: Modern communication systems, Signal processing, Energy and power
spectral density, modulation methods, AM modulation, Sampling, reconstruction,
and pulse modulation, Pulse code modulation and quantization, PCM and the Bell
System, Line coding, Digital modulation methods, Error protection.
This note covers the following
topics: Communication Channel , Noise in Communications , Growth of Mobile Communications, Wi-Fi , Satellite or Space
Communication, Effects of noise on analog communications, Noise performance of
DSB, SSB, FM and AM, Digital communications, Digital modulation, Noncoherent
demodulation, Information theory, Block codes and Cyclic codes.
This PDF book covers the following topics
related to Communications Systems : A Block Diagram, Channel Types, Electromagnetic-wave (EM-wave) propagation, Mobile Radio
Channel, Guided EM-wave propagation, Magnetic recording channel, Optical
channel, Digital Communications.
This lecture note explores the design
and analysis of radio frequency circuits, systems and the corresponding
measurement techniques. It also explains Receiver system performance, mixers,
voltage controlled oscillators, and phase locked loops.
This lecture note covers the
following topics: Probability and random processes, Effects of noise on analog
communications, Noise performance of DSB, Noise performance of FM, Noise
performance of SSB and AM, Digital communications, Digital representation of
signals, Digital modulation, Information theory, Entropy and source coding ,
Channel capacity, Block codes, Cyclic codes.