802.11 Wireless Networks: The Definitive Guide, 2/e (Paperback)
內容描述
Description:
As we all know by now, wireless networks offer many advantages over fixed (or wired) networks. Foremost on that list is mobility, since going wireless frees you from the tether of an Ethernet cable at a desk. But that's just the tip of the cable-free iceberg. Wireless networks are also more flexible, faster and easier for you to use, and more affordable to deploy and maintain.
The de facto standard for wireless networking is the 802.11 protocol, which includes Wi-Fi (the wireless standard known as 802.11b) and its faster cousin, 802.11g. With easy-to-install 802.11 network hardware available everywhere you turn, the choice seems simple, and many people dive into wireless computing with less thought and planning than they'd give to a wired network. But it's wise to be familiar with both the capabilities and risks associated with the 802.11 protocols. And 802.11 Wireless Networks: The Definitive Guide, 2nd Edition is the perfect place to start.
This updated edition covers everything you'll ever need to know about wireless technology. Designed with the system administrator or serious home user in mind, it's a no-nonsense guide for setting up 802.11 on Windows and Linux. Among the wide range of topics covered are discussions on:
deployment considerations
network monitoring and performance tuning
wireless security issues
how to use and select access points
network monitoring essentials
wireless card configuration
security issues unique to wireless networks
With wireless technology, the advantages to its users are indeed plentiful. Companies no longer have to deal with the hassle and expense of wiring buildings, and households with several computers can avoid fights over who's online. And now, with 802.11 Wireless Networks: The Definitive Guide, 2nd Edition, you can integrate wireless technology into your current infrastructure with the utmost confidence.
Table of Contents:
Foreword
Preface
- Introduction to Wireless Networking
Why Wireless?
What Makes Wireless Networks Different
A Network by Any Other Name...
- Overview of 802.11 Networks
IEEE 802 Network Technology Family Tree
802.11 Nomenclature and Design
802.11 Network Operations
Mobility Support
- 802.11 MAC Fundamentals
Challenges for the MAC
MAC Access Modes and Timing
Contention-Based Access Using the DCF
Fragmentation and Reassembly
Frame Format
Encapsulation of Higher-Layer Protocols Within 802.11
Contention-Based Data Service
Frame Processing and Bridging
- 802.11 Framing in Detail
Data Frames
Control Frames
Management Frames
Frame Transmission and Association and Authentication States
- Wired Equivalent Privacy (WEP)
Cryptographic Background to WEP
WEP Cryptographic Operations
Problems with WEP
Dynamic WEP
- User Authentication with 802.1X
The Extensible Authentication Protocol
EAP Methods
802.1X: Network Port Authentication
802.1X on Wireless LANs
- 802.11i: Robust Security Networks, TKIP, and CCMP
The Temporal Key Integrity Protocol (TKIP)
Counter Mode with CBC-MAC (CCMP)
Robust Security Network (RSN) Operations
- Management Operations
Management Architecture
Scanning
Authentication
Preauthentication
Association
Power Conservation
Timer Synchronization
Spectrum Management
- Contention-Free Service with the PCF
Contention-Free Access Using the PCF
Detailed PCF Framing
Power Management and the PCF
- Physical Layer Overview
Physical-Layer Architecture
The Radio Link
RF Propagation with 802.11
RF Engineering for 802.11
- The Frequency-Hopping (FH) PHY
Frequency-Hopping Transmission
Gaussian Frequency Shift Keying (GFSK)
FH PHY Convergence Procedure (PLCP)
Frequency-Hopping PMD Sublayer
Characteristics of the FH PHY
- The Direct Sequence PHYs: DSSS and HR/DSSS (802.11b)
Direct Sequence Transmission
Differential Phase Shift Keying (DPSK)
The "Original" Direct Sequence PHY
Complementary Code Keying
High Rate Direct Sequence PHY
- 802.11a and 802.11j: 5-GHz OFDM PHY
Orthogonal Frequency Division Multiplexing (OFDM)
OFDM as Applied by 802.11a
OFDM PLCP
OFDM PMD
Characteristics of the OFDM PHY
- 802.11g: The Extended-Rate PHY (ERP)
802.11g Components
ERP Physical Layer Convergence (PLCP)
ERP Physical Medium Dependent (PMD) Layer
- A Peek Ahead at 802.11n: MIMO-OFDM
Common Features
WWiSE
TGnSync
Comparison and Conclusions
- 802.11 Hardware
General Structure of an 802.11 Interface
Implementation-Specific Behavior
Reading the Specification Sheet
- Using 802.11 on Windows
Windows XP
Windows 2000
Windows Computer Authentication
- 802.11 on the Macintosh
The AirPort Extreme Card
802.1X on the AirPort
- Using 802.11 on Linux
PCMCIA Support on Linux
Linux Wireless Extensions and Tools
Agere (Lucent) Orinoco
Atheros-Based cards and MADwifi
802.1X on Linux with xsupplicant
- Using 802.11 Access Points
General Functions of an Access Point
Power over Ethernet (PoE)
Selecting Access Points
Cisco 1200 Access Point
Apple AirPort
- Logical Wireless Network Architecture
Evaluating a Logical Architecture
Topology Examples
Choosing Your Logical Architecture
- Security Architecture
Security Definition and Analysis
Authentication and Access Control
Ensuring Secrecy Through Encryption
Selecting Security Protocols
Rogue Access Points
- Site Planning and Project Management
Project Planning and Requirements
Network Requirements
Physical Layer Selection and Design
Planning Access-Point Placement
Using Antennas to Tailor Coverage
- 802.11 Network Analysis
Network Analyzers
Ethereal
802.11 Network Analysis Checklist
Other Tools
- 802.11 Performance Tuning
802.11 Performance Calculations
Improving Performance
Tunable 802.11 Parameters
- Conclusions and Predictions
Standards Work
Current Trends in Wireless Networking
The End
Glossary
Index
相關書籍
_@9787302499497_https://static.coderbridge.com/images/books/9787302499497.jpg)
_@9789861814612_https://static.coderbridge.com/images/books/9789861814612.jpg)
C++ 編程規範 (C++ Coding Standards: 101 Rules, Guidelines, and Best Practices)
2005-05-17