Course No.: ECE 801 T
Instructor: Shahid M Shah
Credits: 4-0
Location: AB-IV
Pre-requisites: Probability theory (UG level), Communication systems (UG Level)
Syllabus:
UNIT I
Introduction to Wireless Communication Systems, Evolution of mobile radio communication, Second generation
(2G) cellular networks Third generation (3G), wireless networks, WLL, WLAN, Bluetooth & PANS.
UNIT II
Introduction to the cellular concepts-system design fundamentals, Frequency Reuse, channel assignment strategies,
Hand-off strategies, Interference & system capacity, Improving covering & capacity in cellular systems (Cell-
Splitting and Sectoring).
UNIT-III
Spread Spectrum Systems-PN Sequence and its generation, Direct Sequence SS, Frequency Hopping Spread
spectrum (FHSS), Time Hopping Spread Spectrum (THSS), Hybrid Spread Spectrum
UNIT-IV
Introduction to radio-wave propagation, Large-scale path loss, small-scale fading & its types , Multipath Fading.
FDMA, TDMA & CDMA Systems, Orthogonal Frequency Division Multiplexing.
UNIT V
Equalization, Equalizers in communication receivers : Linear and Non-Linear Equalizers, Brief idea of Algorithms
for Adaptive Equalization, Diversity Techniques, Rake Receiver, Interleaving and Introduction to Coding,
Introduction to Second Generation(GSM, IS–95) and Third Generation Wireless Networks and Standards
Course Objectives (CO):
Books:
Main book is
Homeworks
Lecture Outline:
Lecture 1: Revision of Probability theory
Lecture 2: Revision of Probability theory
Lecture 3: Revision of Probability theory
Lecture 4: Introduction to wireless communication
Lecture 5:
Lecture 6:
Lecture 7:
Lecture 8:
Instructor: Shahid M Shah
Credits: 4-0
Location: AB-IV
Pre-requisites: Probability theory (UG level), Communication systems (UG Level)
Syllabus:
UNIT I
Introduction to Wireless Communication Systems, Evolution of mobile radio communication, Second generation
(2G) cellular networks Third generation (3G), wireless networks, WLL, WLAN, Bluetooth & PANS.
UNIT II
Introduction to the cellular concepts-system design fundamentals, Frequency Reuse, channel assignment strategies,
Hand-off strategies, Interference & system capacity, Improving covering & capacity in cellular systems (Cell-
Splitting and Sectoring).
UNIT-III
Spread Spectrum Systems-PN Sequence and its generation, Direct Sequence SS, Frequency Hopping Spread
spectrum (FHSS), Time Hopping Spread Spectrum (THSS), Hybrid Spread Spectrum
UNIT-IV
Introduction to radio-wave propagation, Large-scale path loss, small-scale fading & its types , Multipath Fading.
FDMA, TDMA & CDMA Systems, Orthogonal Frequency Division Multiplexing.
UNIT V
Equalization, Equalizers in communication receivers : Linear and Non-Linear Equalizers, Brief idea of Algorithms
for Adaptive Equalization, Diversity Techniques, Rake Receiver, Interleaving and Introduction to Coding,
Introduction to Second Generation(GSM, IS–95) and Third Generation Wireless Networks and Standards
Course Objectives (CO):
Books:
Main book is
- Wireless Communications: Principles and practices by Theodore S. Rappaport (Link to e-book)
- Wireless Communication by David Tse and Pramod Vishwinathan
- Wireless Communication by Andrea Goldsmith
Homeworks
Lecture Outline:
Lecture 1: Revision of Probability theory
Lecture 2: Revision of Probability theory
Lecture 3: Revision of Probability theory
Lecture 4: Introduction to wireless communication
Lecture 5:
Lecture 6:
Lecture 7:
Lecture 8: