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E-Book

E-Book, Englisch, 506 Seiten

da Silva Multimedia Communications and Networking


1. Auflage 2013
ISBN: 978-1-4398-7485-1
Verlag: Taylor & Francis
Format: PDF
 Kopierschutz: Adobe DRM (»Systemvoraussetzungen)

E-Book, Englisch, 506 Seiten

ISBN: 978-1-4398-7485-1
Verlag: Taylor & Francis
Format: PDF
 Kopierschutz: Adobe DRM (»Systemvoraussetzungen)

The result of decades of research and international project experience, Multimedia Communications and Networking provides authoritative insight into recent developments in multimedia, digital communications, and networking services and technologies. Supplying you with the required foundation in these areas, it illustrates the means that will allow for improved digital communications and networks.

The book starts with a review of the fundamental concepts, requirements, and constraints in networks and telecommunications. It describes channel disturbances that can hinder system performance—including noise, attenuation, distortion, and interferences—and provides transmission techniques for mitigating these limitations. Analyzing both cable and wireless transmission mediums, the book describes the network protocol architecture concept and includes coverage of twisted pairs, coaxial and optical fiber cables, wireless propagation, satellite communications, and terrestrial microwave systems. Facilitating the understanding required to participate in the development of current and next generation networks and services, this comprehensive reference:

- Examines the range of network interconnections and WAN/MAN technologies, including synchronous optical networks (SONET), synchronous digital hierarchy (SDH), and third and next generation cellular systems (3G and 4G)

- Describes local area network (LAN) theory and technology, including data link layers and virtual LANs

- Explores network and transport layers, such as addressing, routing protocols, and IPv4 and IPv6 algorithms

- Covers TCP/IP services and applications

- Investigates different authentication and cryptographic systems, including digital signature, SSL, TLS, IPSEC, and public key infrastructure

Walking you through the planning, design, and development of multimedia, telecommunications, and networking systems, the book provides a quick and easy way to develop and refine the skills required in the field. It clearly explains the principles and corresponding techniques you need to know to implement network security. The many examples and end-of-chapter questions also make it suitable for undergraduate and graduate-level computer science and electrical engineering courses.

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Zielgruppe

Practitioners in the communications and networking industry, specialized graduate-level courses on multimedia networking, graduate students, and researchers in electrical engineering and computer science.

Autoren/Hrsg.

da Silva, Mario Marques

Fachgebiete

Weitere Infos & Material

An Introduction to Multimedia Communications and Networking

Fundamentals of Communications Analog and Digital Signals Modulator and Demodulator Transmission Mediums Synchronous and Asynchronous Communication Systems Simplex and Duplex Communications Communications and Networks Switching Modes Circuit Switching Packet Switching Connection Modes Connection Oriented Connectionless Network Coverage Areas Network Topologies Classification of Media and Traffic
Present and Future of Telecommunications The Convergence Collaborative Era of the Network Applications Transition Toward the Collaborative Era

References

End of Chapter Questions

Network Protocol Architectures

Introduction to Protocol Architecture Concept

Open System Interconnection–Reference Model The Seven Layer Open System Interconnection–Reference Model Physical Layer Data Link Layer Network Layer Transport Layer Session Layer Presentation Layer Application Layer The Service Access Point

An Overview of Transmission Control Protocol/Internet Protocol Architecture Application Layer Transport Layer Network Layer Data Link Layer Physical Layer

References

End of Chapter Questions

Channel Impairments

Shannon Capacity

Attenuation

Noise Sources Atmospheric Noise Man-Made Noise Extraterrestrial Noise Thermal Noise Electronic Noise

The Influence of the Transmission Channel Delay and Phase Shift Distortion Equalization

Interference Sources Intersymbol Interference Nyquist Intersymbol Interference Criterion Multiple Access Interference Co-Channel Interference Adjacent Channel Interference

References

End of Chapter Questions

Cable Transmission Mediums

Twisted Pairs Characteristics Types of Protection Categories

Coaxial Cables Characteristics

Optical Fibers Characteristics Categories
References

End of Chapter Questions

Wireless Transmission Mediums

Wireless Propagation Direct Wave Propagation Free Space Path Loss Link Budget Calculations Carrier-to-Noise Ratio Calculations Wireless Propagation Effects Reflection Diffraction Scattering Fading Shadowing Fading Multipath Fading Groundwave Propagation Ionospheric Propagation

Satellite Communication Systems Physical Analysis of Satellite Orbits Characteristics of Different Orbits Geostationary Earth Orbit Medium and Low Earth Orbit Highly Elliptical Orbit Satellite’s Link Budget Analysis

Terrestrial Microwave Systems

References

End of Chapter Questions

Source Coding and Transmission Techniques

Source Coding Voice Analog Audio Digital Audio Video Analog Video Digital Video

Line Coding Return to Zero Non-Return to Zero Non-Return to Zero Inverted Bipolar Alternate Mark Inversion Pseudoternary Manchester Differential Manchester Two Binary One Quaternary

Modulation Schemes Amplitude Shift Keying Frequency Shift Keying Phase Shift Keying Multilevel Quadrature Amplitude Modulation Constellations

Coding Efficiency of a Symbol

Scrambling of Signals

Multiplexing Frequency Division Multiplexing Time Division Multiplexing

References

End of Chapter Questions

Advanced Transmission Techniques to Support Current and Emergent Multimedia Services
Advances in Wireless Systems and Their Technical Demands

Spread Spectrum Communications

Code Division Multiple Access General Model Narrowband CDMA Wideband CDMA

Orthogonal Frequency-Division Multiplexing

Single Carrier–Frequency Domain Equalization Iterative Block-Decision Feedback Equalizer Receivers

Diversity Combining Algorithms Selection Combining Maximal Ratio Combining Equal Gain Combining MSE-Based Combining

RAKE Receiver

Multiple Input Multiple Output Space-Time Block Coding Open/Closed-Loop Techniques for Flat Fading Open-Loop Techniques Closed-Loop Techniques Multilayer Transmission System Description of the V-BLAST Scheme Applied to WCDMA Signals Space Division Multiple Access Beamforming

Multiresolution Transmission Schemes Hierarchical QAM Constellations Macrodiversity Multihop Relays

References

End of Chapter Questions

Cellular Communications

Cellular Concept Macrocell Microcell Picocell Femtocell Power Control

Evolution of Cellular Systems

UMTS

Long-Term Evolution

WiMAX-IEEE802.16

Fourth Generation of Cellular Communications
References

End of Chapter Questions

Transport Networks
Circuit-Switching Transport Networks FDM Hierarchy Plesiochronous Digital Hierarchy Synchronous Digital Hierarchies SDH/SONET Network SDH/SONET Frame Format Digital Subscriber Line Data over Cable Service Interface Specification

Packet-Switching Transport Networks Asynchronous Transfer Mode The B-ISDN Reference Model ATM Network ATM Cell Format Multiprotocol Label Switching The MPLS Network MPLS Packet Format

References

End of Chapter Questions

Data Link Layer

LAN Devices The Hub The Bridge The Switch Spanning Tree Protocol
Logical Link Control SubLayer Error Control Techniques Hamming Distance Error Detection Codes Error Correction Codes Automatic Repeat Request Stop and Wait Automatic Repeat Request Go Back N Automatic Repeat Request Selective Reject Automatic Repeat Request Flow Control Techniques Stop and Wait Sliding Window

Link and Network Control Protocols

Logical Link Control Protocols High Level Data Link Control Protocol Point-to-Point Protocol IEEE 802.2 Protocol

Medium Access Control Sublayer

Medium Access Control Protocols IEEE 802.3 Protocol Maximum Collision Domain Diameter Physical Layer Used in IEEE 802.3 Networks IEEE 802.5 Protocol Fiber Distribution Data Interface Protocol IEEE 802.11 Protocol Digital Video Broadcast Standard
Virtual Local Area Networks

References

End of Chapter Questions

Network Layer

Internet Protocol Version 4 Internet Protocol Version 4 Classfull Addressing Internet Protocol Version 4 Classless Addressing Network and Port Address Translation Dynamic Host Configuration Protocol Internet Protocol Version 4 Datagram

Internet Protocol Version 6 Internet Protocol Version 6 Addressing Internet Protocol Version 6 Packet

Routing Routing Algorithms and Protocols Distance Vector Protocols Link State Protocols Dijkstra’s Algorithm Administrative and Metric Distances Internet Control Message Protocol Fragmentation and Reassembling

Cisco Internetwork Operating System Introduction to Cisco Internetwork Operating System Basic Configuration of Routers and Switches Configuration Mode Line Configuration Submode Interface Configuration Submode Network Configuration in Routers Static Route Configuration Routing Information Protocol Configuration Open Shortest Path First Configuration Configuration of Virtual Local Area Networks

References

End of Chapter Questions

Transport Layer

Transmission Control Protocol

User Datagram Protocol Integrated and Differentiated Service Integrated Services Differentiated Services

References

End of Chapter Questions

Services and Applications

Web Browsing Hypertext Transfer Protocol

Electronic Mail Simple Mail Transfer Protocol

File Transfer File Transfer Protocol

Internet Protocol Telephony and Internet Protocol Videoteleconference H.323 Session Initiation Protocol

Network Management Simple Network Management Protocol

Names Resolution Domain Name Server

References

End of Chapter Questions

Network Security

Overview of Network Security

Security Services Confidentiality Eavesdropping Snooping Interception Integrity Man-in-the-Middle Availability Denial of Service Authenticity Replay Attack
Accountability Identification Authentication Authorization Access Control Monitoring Registration Auditing

Risk Management

Protective Measures Symmetric Cryptography Symmetric Cryptographic Systems Asymmetric Cryptography Digital Signature Digital Certificates Public Key Infrastructure Hybrid Cryptography Secure Sockets Layer and Transport Layer Security Security Architecture for IP

Network Architectures

Virtual Private Networks

References

End of Chapter Questions

Annex A

Annex B

Annex C

Index

Mario Marques da Silva is a professor at Universidade Autónoma de Lisboa (CESITI) and at Escola Naval Portuguesa (CINAV). He is a researcher at the Portuguese Instituto de Telecomunicações. He received his BSc in electrical engineering in 1992 and MSc and PhD degrees in telecommunications/electrical engineering, respectively, in 1999 and 2005, both from the Universidade Técnica de Lisboa. Between 2005 and 2008, he was with NATO Air Command Control & Management Agency (NACMA) in Brussels (Belgium), where he managed the deployable communications of the new Air Command and Control System Program. He has been involved in several telecommunications projects, either as a researcher or as project leader, including involvement in activities such as research, architecture, development, analysis, simulation and testing of networking, HF, V/UHF, satellite and cellular/UMTS communications systems. His research interests include networking (e.g., TCP/IP, network security, mobile ad-hoc networking) and mobile communications, including block transmission techniques (OFDM, SC-FDE), WCDMA, multiuser detection, interference cancellation, space–time coding, MIMO systems, smart and adaptive antennas, channel estimation, and software-defined radio. He is the author of Transmission Techniques for Emergent Multicast and Broadcast Systems (CRC Press) and of several dozen journal and conference papers. Mario Marques da Silva is member of the Institute of Electrical and Electronics Engineers (IEEE) and a member of Armed Forces Communications and Electronics Association (AFCEA), as well as a reviewer of many international scientific journals and conferences.

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