Today and Tomorrow 12 th Edition Understanding Computers Chapter 7: Computer Networks.
Network+ Guide to Networks 5 th Edition
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Transcript of Network+ Guide to Networks 5 th Edition
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NETWORK+ GUIDE TO NETWORKS5TH 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 MAN and WAN technologies,
including 802.16 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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THE WIRELESS SPECTRUM (CONT’D.)
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Figure 8-1 The wireless spectrum
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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
Share same channel
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CHARACTERISTICS OF WIRELESS TRANSMISSION (CONT’D.)
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Figure 8-2 Wireless transmission and reception
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ANTENNAS Radiation pattern
Relative strength over three-dimensional area All electromagnetic energy antenna sends, receives
Directional antenna Issues wireless signals along single direction
Omnidirectional antenna Issues, receives wireless signals
Equal strength, clarity 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 Pass through them Absorb into them Subject signal 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
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SIGNAL DEGRADATION Fading
Change 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
Defines wireless spectrum use: 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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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 Receiver can roam
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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
Access point (AP) Accepts wireless signals from multiple nodes
Retransmits signals to network Base stations, wireless routers, wireless
gateways
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WLAN ARCHITECTURE (CONT’D.)
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Figure 8-4 An ad hoc WLAN
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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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WLAN ARCHITECTURE (CONT’D.)
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Figure 8-5 An infrastructure WLAN
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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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WLAN ARCHITECTURE (CONT’D.)
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Figure 8-6 Wireless LAN interconnection
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802.11 WLANS Wireless technology standard
Describes unique functions Physical and Data Link layers
Differences Specified signaling methods, geographic ranges, frequency
usages Developed by IEEE’s 802.11 committee
Wi-Fi (wireless fidelity) standards 802.11b, 802.11a, 802.11g, 802.11n (draft) Share characteristics
Half-duplexing, access method, frame format
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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 for simultaneous transmit, 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 Ensure packets not inhibited by other transmissions Efficient for large transmission packets Further decreases overall 802.11 efficiency
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ASSOCIATION
Packet exchanged between computer, access point Gain Internet access
Scanning Surveying 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 fame 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 8-7 A network with a single BSS
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Figure 8-8 A network with multiple BSSs forming an ESS
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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, beacons
802.11 specifies MAC sublayer frame type Multiple frame type groups
Control: association and reassociation Probe, beacon frames
Management: medium access, data delivery ACK and RTS/CTS frames
Data: carry data sent between stations
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FRAMES (CONT’D.)
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Figure 8-9 Basic 802.11 data frame
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FRAMES (CONT’D.)
802.11 data frame overhead Four address fields
Source address, transmitter address, receiver address, 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, ranges
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802.11B
DSSS (direct-sequence spread spectrum) signaling
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
Attributable to higher frequencies, unique modulating data method, more available bandwidth
20 meter node limit More expensive, least popular
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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
Draft: expected ratification in late 2009 Manufacturers
Selling 802.11n-compatible transceivers 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, 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 8-10 802.11n access point with three antennas
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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 8-11 Aggregated 802.11n frame
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802.11N (CONT’D.)
Maximum throughput dependencies Number, 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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BLUETOOTH NETWORKS
Ericson’s original goals Wireless technology compatible with multiple
devices Require little power Cover short ranges
Aim of Bluetooth Special Interest Group (SIG) Refine and standardize technology Result: Bluetooth
Mobile wireless networking standard using FHSS (frequency hopping spread spectrum) RF signaling in 2.4-GHz band
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BLUETOOTH NETWORKS (CONT’D.) Version 1.1
Maximum theoretical throughput: 1 Mbps Effective throughput: 723 Kbps 10 meter node difference Designed for PANs (personal area networks)
Version 2.0 (2004) Different encoding schemes
2.1-Mbps throughput 30 meters node difference Usage: cellular telephones, phone headsets, computer
peripherals, PDAs
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SUMMARY OF WLAN STANDARDS
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Table 8-1 Wireless standards
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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
Avoidance Material applies to 802.11b and 802.11g
Most popular
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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, number between access point and clients
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DETERMINING THE DESIGN (CONT’D.)
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Figure 8-12 Home or small office WLAN arrangement
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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 Testing 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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DETERMINING THE DESIGN (CONT’D.)
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Figure 8-13 Enterprise-wide WLAN
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CONFIGURING WIRELESS CONNECTIVITY DEVICES
Netgear WGR614 (v7) Popular, low-cost access point Four switch ports, routing capabilities Supports 802.11b, 802.11g transmission
Configuration steps on other small wireless connectivity devices Differ somewhat Follow similar process, modify same variables
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CONFIGURING WIRELESS CLIENTS
Configuration varies from one client type to another
Windows XP client WLAN configuration Use graphical interface
Linux and UNIX clients wireless interface configuration Use graphical interface iwconfig command-line function
View, set wireless interface parameters
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CONFIGURING WIRELESS CLIENTS (CONT’D.)
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Figure 8-19 Windows XP Wireless Network Connection Properties dialog box
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CONFIGURING WIRELESS CLIENTS (CONT’D.)
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Figure 8-20 Windows XP Wireless network properties dialog box
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CONFIGURING WIRELESS CLIENTS (CONT’D.)
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Figure 8-21 Output from iwconfig command
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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 AND INTERNET ACCESS
Wireless broadband Latest wireless WAN technologies Specifically designed for:
High-throughput, long-distance digital data exchange
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802.11 INTERNET ACCESS Access points: 802.11b or 802.11g access
methods Hot spots
Places with publicly available wireless Internet access Free or subscription
Hot spot subscription Internet access Log on via Web page Client software managing client’s connection
Network log on, secure data exchange Added security: accept connection based on MAC address
Accept user’s connection based on MAC address65
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802.16 (WIMAX) INTERNET ACCESS WiMAX (Worldwide Interoperability for Microwave
Access) Current version: 802.16e (2005)
Improved mobility, QoS characteristics Digital voice signals, mobile phone users
Functions in 2 and 66 GHz range Licensed, nonlicensed frequencies
line-of-sight paths between antennas Throughput potential maximized
Non-line-of-sight paths Exchange signals with multiple stations at once
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802.16 (WIMAX) INTERNET ACCESS (CONT’D.) Two distinct advantages over Wi-Fi
Much greater throughput (70 Mbps) Much farther range (30 miles)
Appropriate for MANs and WANs Highest throughput achieved over shortest
distances between transceivers Possible uses
Alternative to DSL, broadband cable Well suited to rural users Internet access to mobile computerized devices Residential homes
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802.16 (WIMAX) INTERNET ACCESS (CONT’D.)
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Figure 8-22 WiMAX residential service installation
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802.16 (WIMAX) INTERNET ACCESS (CONT’D.)
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Figure 8-23 WiMAX residential antenna
Figure 8-24 WiMAX service provider’s antenna
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802.16 (WIMAX) INTERNET ACCESS (CONT’D.)
Metropolitan area installation Home antenna, connectivity device eliminated
WiMAX MANs Extensive connectivity Download data rates faster than home
broadband connection Shared service
Apportioned bandwidth
Drawback Expensive
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SATELLITE INTERNET ACCESS
Used to deliver: Digital television and radio signals Voice and video signals Cellular and paging signals
Provides homes and businesses with Internet access
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SATELLITE ORBITS Geosynchronous orbit
Satellites orbit the Earth at the same rate as the Earth turns
Downlink Satellite transponder transmits signal to Earth-based
receiver Typical satellite
24 to 32 transponders Unique downlink frequencies
LEO (low Earth orbiting) satellites Orbit Earth with altitude 100 miles to 1240 miles Not positioned over equator
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SATELLITE ORBITS (CONT’D.)
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Figure 8-25 Satellite communication
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SATELLITE ORBITS (CONT’D.)
MEO (medium Earth orbiting) satellites Orbit Earth 6000 to 12,000 miles above surface Not positioned over equator
Latitude between equator and poles Advantage
Cover larger Earth surface area than LEO satellites Less power, less signal delay than GEO satellites
Geosynchronous orbiting satellites most popular for satellite Internet access
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SATELLITE FREQUENCIES
Five 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
Satellite Internet access providers Use C- or Ku-bands and Ka-band (future)
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SATELLITE INTERNET SERVICES Subscriber
Small satellite dish antenna, receiver Exchanges signals with provider’s satellite network
Satellite Internet access service Dial return arrangement (asymmetrical)
Receives Internet data via downlink transmission Sends data to satellite via analog modem connection
Satellite return arrangement (symmetrical) Send, receive data to and from Internet using satellite uplink
and downlink
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SATELLITE INTERNET SERVICES (CONT’D.)
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Figure 8-26 Dial return satellite Internet service
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SUMMARY
WLAN Architecture characteristics Popular WLAN Physical, Data Link layer
standards Wireless signal exchange Small WLAN considerations Larger, enterprise-wide WAN formation Installing, configuring access points, clients WLAN Pitfalls MANs, WANs wireless transmission Satellite Internet Access characteristics
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