Transmission Systems Design Handbook for Wireless Networks

Pirmais vāks
Artech House, 2002 - 636 lappuses
This practical new resource gives you a comprehensive understanding of the design and deployment of transmission networks for wireless applications. From principles and design, to equipment procurement, project management, testing, and operation, it's a practical, hands-on engineering guide with numerous real-life examples of turn-key operations in the wireless networking industry. This book, written for both technical and non-technical professionals, helps you deal with the costs and difficulties involved in setting up the local access with technologies that are still in the evolutionary stage. Issues involved in the deployment of various transmission technologies, and their impact on the overall wireless network topology are discussed. Strategy and approach to transmission network planning, design and deployment are explored. The book offers practical guidelines and advice derived from the author's own experience on projects worldwide. You gain a solid grounding in third generation wireless networks with increased capacity requirements, while learning all about packet data architecture, and how it will impact future transmission network design and deployment.

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Atlasītās lappuses

Saturs

75 SynchronizationStratum BITSand GPS
302
76 TransmissionNetwork Optimization
317
Design Examples
324
78 Overview of RNC Dimensioning in the 3G Wireless Network
327
79 Alternative Solutions in Transmission Networks
344
Transmission Equipment
351
82 FiberOptic Equipment
363
83 Wireline Equipment
370

33 Plesiochronous Versus Synchronous Digital Hierarchy
66
34 Multiplexing and Inverse Multiplexing
70
35 ATM
79
36 Voice over lP
91
37 Complete T1 Tutorial
102
38 Complete E1 Tutorial
119
WirelessNetwork Architecture
129
42 3G WirelessNetwork Architecture
131
43 3G Transmission Networks
148
Theory and Principles of FiberOptic Transmission
181
52 Design Principles
183
53 Synchronous Digital Hierarchy
189
54 DWDM
196
55 Optical Switching
201
Microwave PointtoPoint System Design
203
62 Theoretical Aspects of Microwave Link Design
206
63 Practical Aspects of MicrowaveLink Design
219
64 SpreadSpectrum Microwave Systems
230
65 Microwave Compatibility and Safety
236
66 Coordinate Systems Datums and GPS
240
67 Managing the MW Radio Network
247
TransmissionNetwork Planning and Design
257
72 General WirelessNetwork Planning and Design Principles
259
73 Transmission System Design
283
74 Leased Lines in Wireless Networks
292
84 Cabling
384
85 Grounding
392
86 Power and Battery Backup
399
87 GPS Antennas
405
TransmissionNetwork Deployment
413
92 Regulatory Issues
425
93 Services
430
94 Project Management in Wireless Networks
436
95 Selection of Key Sites
446
96 Microwave Deployment
454
97 Measurement of RadioFrequency Fields
485
98 FiberOptic Cables and Their Installation
495
99 Operations and Maintenance
509
TransmissionNetwork Testing and Commissioning
521
102 BERT
522
103 TransmissionNetwork Testing Procedure
526
104 FiberOptic Cable Testing
530
105 PacketNetwork Testing
537
Units Conversion
549
A2 The lnternational System of Units
550
A3 Common Units
552
Glossary
553
About the Author
587
Index
589
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Populāri fragmenti

428. lappuse - Union, whose members are Austria, Belgium, Denmark, Finland, France, Germany, Greece, Ireland, Italy, Luxembourg, the Netherlands, Portugal, Spain, Sweden and the United Kingdom.
12. lappuse - ... shared between several users. This efficient use of scarce radio resources means that large numbers of GPRS users can potentially share the same bandwidth and be served from a single cell. The actual number of users supported depends on the application being used and how much data is being transferred.
42. lappuse - Automatic retransmission query (ARQ) scheme for data The purpose of the FEC scheme on the data payload is to reduce the number of retransmissions. However, in a reasonably error-free environment, FEC creates unnecessary overhead that reduces the throughput. Therefore, the packet definitions have been kept flexible as to whether or not to use FEC in the payload. The packet header is always protected by a 1/3-rate FEC.
98. lappuse - The basic idea of MPLS involves assigning short fixed-length labels to packets at the ingress to an MPLS cloud (based on the concept of forwarding equivalence classes). Throughout the interior of the MPLS domain, the labels attached to packets are used to make forwarding decisions (usually without recourse to the original packet headers). A set of powerful constructs to address many critical issues in the (eventually) emerging diffserv Internet can be devised from this relatively simple paradigm....
98. lappuse - The goal of traffic engineering is to facilitate efficient and reliable network operations, and at the same time optimize the utilization of network resources. Most current network routing protocols are based on the shortest path algorithm, which implies that there is only one path between a given source and destination end system. In contrast, MPLS supports explicit routing, which can be used to optimize the utilization of network resources and enhance traffic oriented performance characteristics....
12. lappuse - Packet switching means that GPRS radio resources are used only when users are actually sending or receiving data. Rather than dedicating a radio channel to a mobile data user for a fixed period of time, the available radio resource can be concurrently shared between several users.
429. lappuse - ... Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Georgia, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Liechtenstein, Lithuania, Luxembourg, Malta, Moldova, Netherlands, Norway, Poland, Portugal, Romania, Russian Federation, San Marino, Slovak Republic, Slovenia, Spain, Sweden, Switzerland, "the former Yugoslav Republic of Macedonia", Turkey, Ukraine, United Kingdom.
155. lappuse - The AAL performs functions required by the user, control and management planes and supports the mapping between the ATM layer and the next higher layer. The functions performed in the AAL depend upon the higher layer requirements".
367. lappuse - The Control of Jitter and Wander within Digital Networks which are based on the 2048 kbit/s Hierarchy'.

Par autoru (2002)

Harvey Lehpamer received his M.Sc. in radio communications and professional electronics and electrical engineering degree from The School of Electrical Engineering, Zagreb, Croatia. Lehpamer is a Staff Engineer at Ericsson Wireless Communications, Inc. in San Diego, CA.

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