Network+ Guide to Networks 6 th Edition Chapter 7 Wide Area Networks.
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Transcript of Network+ Guide to Networks 6 th Edition
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Network+ Guide to Networks6th Edition
Chapter 8Wireless Networking
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Objectives
• Explain how nodes exchange wireless signals• Identify potential obstacles to successful wireless
transmission and their repercussions, such as interference and reflection
• Understand WLAN (wireless LAN) architecture
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Objectives (cont’d.)
• Specify the characteristics of popular WLAN transmission methods, including 802.11 a/b/g/n
• Install and configure wireless access points and their clients
• Describe wireless WAN technologies, including 802.16 (WiMAX), HSPA+, LTE, and satellite communications
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The Wireless Spectrum
• Continuum of electromagnetic waves– Data, voice communication– Arranged by frequencies
• Lowest to highest– Spans 9 KHz and 300 GHz
• Wireless services associated with one area• FCC oversees United States frequencies• ITU oversees international frequencies
– Air signals propagate across borders
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Figure 8-1 The wireless spectrum
Courtesy Course Technology/Cengage Learning
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Characteristics of Wireless Transmission
• Similarities with wired– Layer 3 and higher protocols– Signal origination
• From electrical current, travel along conductor
• Differences from wired– Signal transmission
• No fixed path, guidance
• Antenna– Signal transmission and reception– Same frequency required on each antenna
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Figure 8-2 Wireless transmission and reception
Courtesy Course Technology/Cengage Learning
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Antennas
• Radiation pattern – Relative strength over three-dimensional area
• Of all electromagnetic energy that antenna sends, receives
• Directional antenna– Issues wireless signals along single direction
• Omnidirectional antenna– Issues, receives wireless signals
• Equal strength, clarity in all directions
• Range– Reachable geographical area
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Signal Propagation
• LOS (line-of-sight)– Signal travels in straight line
• Directly from transmitter to receiver
• Obstacles affect signal travel; signals may:– Pass through them– Be absorbed into them– Be subject to three phenomena
• Reflection: bounce back to source• Diffraction: splits into secondary waves• Scattering: diffusion in multiple different directions
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Signal Propagation (cont’d.)
• Multipath signals– Wireless signals follow different paths to destination– Caused by reflection, diffraction, scattering– Advantage
• Better chance of reaching destination– Disadvantage
• Signal delay
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Figure 8-3 Multipath signal propagation
Courtesy Course Technology/Cengage Learning
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Signal Degradation
• Fading– Variation in signal strength
• Electromagnetic energy scattered, reflected, diffracted• Attenuation
– Signal weakens• Moving away from transmission antenna
– Correcting signal attenuation• Amplify (analog), repeat (digital)
• Noise– Significant problem
• No wireless conduit, shielding
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Frequency Ranges
• 2.4-GHz band (older)– Frequency range: 2.4–2.4835 GHz– 11 unlicensed communications channels– Susceptible to interference
• Unlicensed: no FCC registration required• 5-GHz band (newer)
– Frequency bands• 5.1 GHz, 5.3 GHz, 5.4 GHz, 5.8 GHz
– 24 unlicensed bands, each 20 MHz wide– Used by weather, military radar communications
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Narrowband, Broadband, and Spread-Spectrum Signals
• Narrowband– Transmitter concentrates signal energy at single
frequency, very small frequency range• Broadband
– Relatively wide wireless spectrum band– Higher throughputs than narrowband
• Spread-spectrum– Multiple frequencies used to transmit signal– Offers security
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Narrowband, Broadband, and Spread-Spectrum Signals (cont’d.)
• FHSS (frequency hopping spread spectrum)– Signal jumps between several different frequencies
within band– Synchronization pattern known only to channel’s
receiver, transmitter• DSSS (direct-sequence spread spectrum)
– Signal’s bits distributed over entire frequency band at once
– Each bit coded• Receiver reassembles original signal upon receiving
bits
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Figure 8-4 FHSS (frequency hopping spread spectrum)Courtesy Course Technology/Cengage Learning
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Figure 8-5 DSSS (direct sequence spread spectrum)
Courtesy Course Technology/Cengage Learning
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Fixed versus Mobile
• Fixed communications wireless systems– Transmitter, receiver locations do not move– Transmitting antenna focuses energy directly toward
receiving antenna• Point-to-point link results
– Advantage• No wasted energy issuing signals• More energy used for signal itself
• Mobile communications wireless systems– Receiver located anywhere within transmitter’s range
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WLAN (Wireless LAN) Architecture
• Ad hoc WLAN– Wireless nodes transmit directly to each other– Use wireless NICs
• No intervening connectivity device– Poor performance
• Many spread out users, obstacles block signals
• Wireless access point (WAP)– Accepts wireless signals from multiple nodes
• Retransmits signals to network– Base stations, wireless routers, wireless gateways
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WLAN Architecture (cont’d.)
• Infrastructure WLAN– Stations communicate with access point
• Not directly with each other– Access point requires sufficient power, strategic
placement• WLAN may include several access points
– Dependent upon number of stations– Maximum number varies: 10-100
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Figure 8-7 An infrastructure WLAN
Courtesy Course Technology/Cengage Learning
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WLAN Architecture (cont’d.)
• Mobile networking allows roaming wireless nodes– Range dependent upon wireless access method,
equipment manufacturer, office environment• Access point range: 300 feet maximum
• Can connect two separate LANs– Fixed link, directional antennas between two access
points• Allows access points 1000 feet apart
• Support for same protocols, operating systems as wired LANs– Ensures compatibility
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Figure 8-8 Wireless LAN interconnection
Courtesy Course Technology/Cengage Learning
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802.11 WLANs
• Wireless technology standards– Describe unique functions
• Physical and Data Link layers– Differences between standards
• Specified signaling methods, geographic ranges, frequency usages
– Most popular: developed by IEEE’s 802.11 committee• Notable Wi-Fi standards
– 802.11b, 802.11a, 802.11g, 802.11n– Share characteristics
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Access Method
• 802.11 MAC services– Append 48-bit (6-byte) physical addresses to frame
• Identifies source, destination
• Same physical addressing scheme as 802.3– Allows easy combination
• Wireless devices– Not designed to simultaneously transmit and receive– Cannot quickly detect collisions– Use different access method
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Access Method (cont’d.)
• CSMA/CA (Carrier Sense Multiple Access with Collision Avoidance)– Minimizes collision potential– Uses ACK packets to verify every transmission
• Requires more overhead than 802.3• Real throughput less than theoretical maximum
• RTS/CTS (Request to Send/Clear to Send) protocol– Optional– Ensures packets not inhibited by other transmissions– Efficient for large transmission packets– Further decreases overall 802.11 efficiency
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Figure 8-9 CSMA/CA (Carrier Sense Multiple Access with Collision Avoidance
Courtesy Course Technology/Cengage Learning
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Association
• Packet exchanged between computer and access point– Gain Internet access
• Scanning– Surveys surroundings for access point– Active scanning transmits special frame
• Probe– Passive scanning listens for special signal
• Beacon fame
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Association (cont’d.)
• SSID (service set identifier)– Unique character string identifying access point
• In beacon frame information– Configured in access point– Better security, easier network management
• BSS (basic service set)– Station groups sharing access point – BSSID (basic service set identifier)
• Station group identifier
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Association (cont’d.)
• ESS (extended service set)– Access point group connecting same LAN
• Share ESSID (extended service set identifier)– Allows roaming
• Station moving from one BSS to another without losing connectivity
• Several access points detected– Select strongest signal, lowest error rate– Poses security risk
• Powerful, rogue access point
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Figure 8-10 A network with a single BSS
Courtesy Course Technology/Cengage Learning
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Figure 8-11 A network with multiple BSSs forming an ESS
Courtesy Course Technology/Cengage Learning
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Association (cont’d.)
• ESS with several authorized access points– Must allow station association with any access point
• While maintaining network connectivity
• Reassociation– Mobile user moves from one access point’s range into
another’s range– Occurs by simply moving; high error rate
• Stations’ scanning feature– Used to automatically balance transmission loads
• Between access points
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Frames
• 802.11 networks overhead– ACKs, probes, and beacons
• 802.11 specifies MAC sublayer frame type• Multiple frame type groups
– Control: medium access and data delivery• ACK and RTS/CTS frames
– Management: association and reassociation– Data: carry data sent between stations
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Figure 8-12 Basic 802.11 data frame compared with an 802.3 (Ethernet) frameCourtesy Course Technology/Cengage Learning
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Frames (cont’d.)
• 802.11 data frame overhead– Four address fields
• Source address, transmitter address, receiver address, and destination address
– Sequence Control field• How large packet fragmented
– Frame Control field• Wi-Fi share MAC sublayer characteristics• Wi-Fi differ in modulation methods, frequency
usage, and range
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802.11b
• 2.4-GHz band– Separated into 22-MHz channels
• Throughput– 11-Mbps theoretical– 5-Mbps actual
• 100 meters node limit• Oldest, least expensive• Being replaced by 802.11g
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802.11a
• Released after 802.11b• 5-GHz band
– Not congested like 2.4-GHz band• Lower interference, requires more transmit power
• Throughput– 54 Mbps theoretical– 11 and 18 Mbps effective
• 20 meter node limit• Requires additional access points• Rarely preferred
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802.11g
• Affordable as 802.11b• Throughput
– 54 Mbps theoretical– 20 to 25 Mbps effective
• 100 meter node range• 2.4-GHz frequency band
– Compatible with 802.11b networks
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802.11n
• Standard ratified in 2009• Primary goal
– Wireless standard providing much higher effective throughput
• Maximum throughput: 600 Mbps– Threat to Fast Ethernet
• Backward compatible with 802.11a, b, g standards
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802.11n (cont’d.)
• 2.4-GHz or 5-GHz frequency range• Compared with 802.11a, 802.11g
– Same data modulation techniques• Compared with three 802.11 standards
– Manages frames, channels, and encoding differently• Allows high throughput
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802.11n (cont’d.)
• MIMO (multiple input-multiple output)– Multiple access point antennas may issue signal to
one or more receivers– Increases network’s throughput, access point’s range
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Figure 8-13 802.11n access point with three antennas
Courtesy Cisco Systems, Inc.
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802.11n (cont’d.)
• Channel bonding– Two adjacent 20-MHz channels bonded to make 40-
MHz channel• Doubles the bandwidth available in single 20-MHz
channel• Bandwidth reserved as buffers assigned to carry data
• Higher modulation rates– Single channel subdivided into multiple, smaller
channels• More efficient use of smaller channels• Different encoding methods
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802.11n (cont’d.)
• Frame aggregation– Combine multiple frames into one larger frame– Advantage: reduces overhead
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Figure 8-15 Aggregated 802.11n frame
Courtesy Course Technology/Cengage Learning
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802.11n (cont’d.)
• Maximum throughput dependencies– Number and type of strategies used– 2.4-GHz or 5-GHz band– Actual throughput: 65 to 600 Mbps
• Backward compatible– Not all 802.11n features work
• Recommendation– Use 802.11n-compatible devices
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Table 8-1 Wireless standards
Courtesy Course Technology/Cengage Learning
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Implementing a WLAN
• Designing a small WLAN– Home, small office
• Formation of larger, enterprise-wide WANs• Installing and configuring access points and clients• Implementation pitfalls
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Determining the Design
• One access point– Combine with switching, routing functions– Connects wireless clients to LAN– Acts as Internet gateway
• Access point WLAN placement considerations– Typical distances between access point and client– Obstacles
• Type and number of, between access point and clients
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Figure 8-16 Home or small office WLAN arrangementCourtesy Course Technology/Cengage Learning
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Determining the Design (cont’d.)
• Larger WLANs– Systematic approach to access point placement
• Site survey– Assesses client requirements, facility characteristics,
coverage areas– Determines access point arrangement ensuring
reliable wireless connectivity• Within given area
– Proposes access point testing• Test wireless access from farthest corners
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Determining the Design (cont’d.)
• Install access points– Must belong to same ESS, share ESSID
• Enterprise-wide WLAN design considerations– How wireless LAN portions will integrate with wired
portions
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Figure 8-17 Enterprise-wide WLAN
Courtesy Course Technology/Cengage Learning
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Configuring Wireless Connectivity Devices
• Access point CD-ROM or DVD– Guides through setup process
• Variables set during installation– Administrator password– SSID– Whether or not DHCP is used– Whether or not the SSID is broadcast– Security options
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Configuring Wireless Clients
• Configuration varies from one client type to another• Linux and UNIX clients wireless interface
configuration– Use graphical interface– iwconfig command-line function
• View, set wireless interface parameters
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Figure 8-18 Output from iwconfig commandCourtesy Course Technology/Cengage Learning
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Avoiding Pitfalls
• Access point versus client configurations– SSID mismatch– Incorrect encryption– Incorrect channel, frequency– Standard mismatch (802.11 a/b/g/n)
• Incorrect antenna placement– Verify client within 330 feet
• Interference– Check for EMI sources
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Wireless WANs
• Wireless broadband– Latest wireless WAN technologies– Specifically designed for:
• High-throughput; long-distance digital data exchange
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802.16 (WiMAX)
• WiMAX (Worldwide Interoperability for Microwave Access)– Most popular version: 802.16e (2005)– Improved WiMAX version: 802.16m (2011)– Functions in 2-11 or 11-66 GHz range– Licensed or nonlicensed frequencies
• Ability to transmit and receive signals up to 30 miles– With fixed antennas– About 10 miles when antennas are mobile
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802.16 (WiMAX) (cont’d.)
• 802.16m – Positioned to compete favorably with cellular data
services– Backwards compatible with 802.16e equipment
• Maximum throughput – Downlink: 120Mbps– Uplink: 60Mbps– Future improvements could take to 1Gbps
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Figure 8-19 WiMAX network
Courtesy Course Technology/Cengage Learning
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Figure 8-20 WiMAX residential antenna
Courtesy of Laird Technologies
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Cellular
• Initially designed for analog telephone service– Today deliver data and voice
• Cellular technology generations– 1G: analog– 2G: digital transmission up to 240Kbps– 3G: data rates up to 384Kbps
• Data communications use packet switching– 4G: all-IP, packet switched network for data and voice
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Cellular (cont’d.)
• Network infrastructure– Cells served by antenna and base station– Controller assigns mobile clients frequencies
• Cell size depends on:– Network’s access method– Region topology– Population– Amount of cellular traffic
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Figure 8-22 Cellular network
Courtesy Course Technology/Cengage Learning
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Cellular (cont’d.)
• Basic infrastructure– HSPA+ (High Speed Packet Access Plus)
• 3G technology– LTE (Long Term Evolution)
• 4G technology
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Table 8-2 Characteristics of some wireless WAN servicesCourtesy Course Technology/Cengage Learning
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Satellite
• Used to deliver:– Digital television and radio signals– Voice and video signals– Cellular and paging signals– Data services to mobile clients in remote locations
• Most popular satellite orbit– Geosynchronous Earth orbit (GEO)
• Satellites orbit at same rate Earth turns
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Satellite (cont’d.)
• Downlink– Satellite transponder transmits signal to Earth-based
receiver• Typical satellite
– 24 to 32 transponders– Unique downlink frequencies
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Satellite (cont’d.)
• Satellite frequency bands– L-band—1.5–2.7 GHz– S-band—2.7–3.5 GHz– C-band—3.4–6.7 GHz– Ku-band—12–18 GHz– Ka-band—18–40 GHz
• Within bands– Uplink, downlink transmissions differ
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Satellite (cont’d.)
• Satellite Internet services– Subscriber uses small satellite dish antenna, receiver– Exchanges signals with provider’s satellite network– Typically asymmetrical– Bandwidth shared among many subscribers– Throughput controlled by service provider– Slower, more latency than other wireless WAN
options
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Figure 8-23 Satellite communication
Courtesy Course Technology/Cengage Learning
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Summary
• Wireless spectrum used for data and voice communications– Each type of service associated with specific
frequency band• Wireless communication: fixed or mobile• Standards vary by frequency, signal method, and
range– Notable wireless standards include 802.11 a/b/g/n
• WiMAX 2: specified in IEEE’s 802.16m standard• Satellites can provide wireless data services
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