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Fundamentals of Telecommunications and Networking for IT

Fundamentals of Telecommunications and Networking for IT

Author(s): RIKI MORIKAWA

Edition: 1

Copyright: 2018

Pages: 400

Edition: 1

Copyright: 2018

Pages: 402. LSI page count does not change

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Fundamentals of Telecommunications & Networking for IT is specifically designed for those involved in the IT field as either a student or a working professional. It presents basic communications theories in a manner that intentionally avoids the lengthy mathematical derivations found in similar texts designed for the electrical engineering student while providing easily understood equations and concepts necessary for the understanding of telecommunications concepts.

The first part of this textbook covers basic theories in electricity, electromagnetism, signal power, and analog and digital modulation. This is followed by chapters describing how these basic concepts are applied to today’s modern digital networks (e.g., WAN, MEN, LAN, etc.), wireless networks (e.g., 1G to 5G cellular, WLAN, WPAN), fiber optics, and satellite communications. The fundamental concepts discussed in this textbook give a reader the ability to better understand the potential, as well as the limitations, of modern IT systems.

Chapter 1 Fundamental Principles of Communications
Introduction
Introduction to the OSI Reference Model
Introduction to Networks
Electrical Signals 
Electromagnetic Wave Theory 
Optical Signal Basics 
Basic Metric Used in Communication
Key Terms
Chapter Problems
Chapter 2 Analog Communications
Introduction 
Analog Communications 
Frequency Division Multiplexing
Key Terms
Chapter Problems
Chapter 3 Introduction to Digital Communications
Introduction
Data Encoding 
Digital Data Modulation of an Analog Carrier 
Line Coding 
Digital Representation of Analog Information 
Digital Compression 
Error Control 
Network Timing Basics
Time Division Multiplexing (TDM)
Key Terms
Chapter Problems
Chapter 4 Transmission System Fundamentals
Introduction 
Noise in Communication Systems 
Digital Communications Capacity 
Guided Medium 
Unguided Medium
Key Terms
Chapter Problems
Chapter 5 RF Wireless Communications 
Introduction 
Antenna Basics 
Link Analysis 
Data Rate Capacity 
Multipath and MIMO
Spread Spectrum 
Orthogonal Frequency Division Multiplexing (OFDM)
Key Terms
Chapter Problems
Chapter 6 Local and Personal Area Networks 
Introduction 
Local Area Network Architecture 
IEEE 802.3 Ethernet LAN 
IEEE 802.11 Wireless LAN 
IEEE 802.15 Personal Area Network (WPAN)
Key Terms
Chapter Problems
Chapter 7 Public Switched Telephone Network (PSTN) and Wide Area Networks (WANs)
Introduction 
Public Switched Telephone Network (PSTN) 
Public Data Network (PDN) 
Use of Fiber Optic Cables for Telecommunications
Voice Technology Systems for Businesses and Organizations
Key Terms
Chapter Problems
Chapter 8 Broadband Access
Introduction 
Digital Subscriber Line (DSL) 
Cable Television, Cable Antenna Television (CATV) 
Passive Optical Networks (PONS) 
Wireless Local Loop (WLL)
Key Terms
Chapter Problems
Chapter 9 The Internet
Introduction and Brief History 
Internet Architecture 
Internet Protocol (IP) 
Transport Layer 4 (TCP and UDP) 
Multiprotocol Label Switching (MPLS)
Key Terms
Chapter Problems
Chapter 10 Cellular Networks
Introduction 
Regulation and Standardization
The Cellular Concept
Cellular Architecture
Cellular Generations
Key Terms
Chapter Problems
 

Bibliography
Index

RIKI MORIKAWA
Dr. Riki Morikawa teaches courses in telecommunications, wireless networking, and satellite communications at the George Mason University, Volgenau School of Engineering. He has over thirtyfive years of experience as an electrical engineer working in the federal government, and has gained expertise in the development of highly complex strategic and tactical secure communication systems. During his tenure working within the intelligence community, he has received numerous awards and recognitions for his technical contributions toward mission including the Career Intelligence Medal. As a former executive-level manager for the Central Intelligence Agency, his philosophy for sustained technical excellence centers around an engineer’s ability to dissect complex systems and to analyze these parts by applying sound fundamental math and physics theories by which all systems are governed. After his retirement from the federal service, he became a full-time faculty member at GMU and has brought this same philosophy into the classroom, ensuring that students learn how to dissect and analyze the many aspects that together, comprise today’s modern IT offerings. Prior to entering government service as a civilian employee, Dr. Morikawa served eight years in the military as a Naval Flight Officer onboard U.S. Navy P3-C Anti-Submarine Warfare aircraft. He earned a B.S. in Electrical Engineering from the University of Colorado (Boulder), an M.B.A. from George Washington University in D.C., and a Ph.D. in Information Technology from George Mason University.

Fundamentals of Telecommunications & Networking for IT is specifically designed for those involved in the IT field as either a student or a working professional. It presents basic communications theories in a manner that intentionally avoids the lengthy mathematical derivations found in similar texts designed for the electrical engineering student while providing easily understood equations and concepts necessary for the understanding of telecommunications concepts.

The first part of this textbook covers basic theories in electricity, electromagnetism, signal power, and analog and digital modulation. This is followed by chapters describing how these basic concepts are applied to today’s modern digital networks (e.g., WAN, MEN, LAN, etc.), wireless networks (e.g., 1G to 5G cellular, WLAN, WPAN), fiber optics, and satellite communications. The fundamental concepts discussed in this textbook give a reader the ability to better understand the potential, as well as the limitations, of modern IT systems.

Chapter 1 Fundamental Principles of Communications
Introduction
Introduction to the OSI Reference Model
Introduction to Networks
Electrical Signals 
Electromagnetic Wave Theory 
Optical Signal Basics 
Basic Metric Used in Communication
Key Terms
Chapter Problems
Chapter 2 Analog Communications
Introduction 
Analog Communications 
Frequency Division Multiplexing
Key Terms
Chapter Problems
Chapter 3 Introduction to Digital Communications
Introduction
Data Encoding 
Digital Data Modulation of an Analog Carrier 
Line Coding 
Digital Representation of Analog Information 
Digital Compression 
Error Control 
Network Timing Basics
Time Division Multiplexing (TDM)
Key Terms
Chapter Problems
Chapter 4 Transmission System Fundamentals
Introduction 
Noise in Communication Systems 
Digital Communications Capacity 
Guided Medium 
Unguided Medium
Key Terms
Chapter Problems
Chapter 5 RF Wireless Communications 
Introduction 
Antenna Basics 
Link Analysis 
Data Rate Capacity 
Multipath and MIMO
Spread Spectrum 
Orthogonal Frequency Division Multiplexing (OFDM)
Key Terms
Chapter Problems
Chapter 6 Local and Personal Area Networks 
Introduction 
Local Area Network Architecture 
IEEE 802.3 Ethernet LAN 
IEEE 802.11 Wireless LAN 
IEEE 802.15 Personal Area Network (WPAN)
Key Terms
Chapter Problems
Chapter 7 Public Switched Telephone Network (PSTN) and Wide Area Networks (WANs)
Introduction 
Public Switched Telephone Network (PSTN) 
Public Data Network (PDN) 
Use of Fiber Optic Cables for Telecommunications
Voice Technology Systems for Businesses and Organizations
Key Terms
Chapter Problems
Chapter 8 Broadband Access
Introduction 
Digital Subscriber Line (DSL) 
Cable Television, Cable Antenna Television (CATV) 
Passive Optical Networks (PONS) 
Wireless Local Loop (WLL)
Key Terms
Chapter Problems
Chapter 9 The Internet
Introduction and Brief History 
Internet Architecture 
Internet Protocol (IP) 
Transport Layer 4 (TCP and UDP) 
Multiprotocol Label Switching (MPLS)
Key Terms
Chapter Problems
Chapter 10 Cellular Networks
Introduction 
Regulation and Standardization
The Cellular Concept
Cellular Architecture
Cellular Generations
Key Terms
Chapter Problems
 

Bibliography
Index

RIKI MORIKAWA
RIKI MORIKAWA
Dr. Riki Morikawa teaches courses in telecommunications, wireless networking, and satellite communications at the George Mason University, Volgenau School of Engineering. He has over thirtyfive years of experience as an electrical engineer working in the federal government, and has gained expertise in the development of highly complex strategic and tactical secure communication systems. During his tenure working within the intelligence community, he has received numerous awards and recognitions for his technical contributions toward mission including the Career Intelligence Medal. As a former executive-level manager for the Central Intelligence Agency, his philosophy for sustained technical excellence centers around an engineer’s ability to dissect complex systems and to analyze these parts by applying sound fundamental math and physics theories by which all systems are governed. After his retirement from the federal service, he became a full-time faculty member at GMU and has brought this same philosophy into the classroom, ensuring that students learn how to dissect and analyze the many aspects that together, comprise today’s modern IT offerings. Prior to entering government service as a civilian employee, Dr. Morikawa served eight years in the military as a Naval Flight Officer onboard U.S. Navy P3-C Anti-Submarine Warfare aircraft. He earned a B.S. in Electrical Engineering from the University of Colorado (Boulder), an M.B.A. from George Washington University in D.C., and a Ph.D. in Information Technology from George Mason University.