Wireless Networks - Khoury College of Computer Sciences€¦ · Wireless Networks Spring 2007 Wireless communication systems Target information systems: “Anytime, Anywhere, Any

Wireless Networks Spring 2007

Wireless Networks

CSG 250Spring 2007

Rajmohan Rajaraman


Outline of the course: Basic topics

Transmission Fundamentalso Analog and digital transmissiono Channel capacityo Antennas, propagation modes, and fadingo Signal encoding techniques

Spread spectrum technologyCoding and error controlCellular networksWireless LANs

o IEEE 802.11o Bluetooth


Outline: Advanced topicsMobile IPTCP for wirelessMultihop ad hoc networks

o MAC and routing protocolso Power control and topology controlo Capacity of ad hoc networks

Sensor networkso Infrastructure, MAC, and routing protocolso Algorithms for query processing


Wireless Comes of Age Guglielmo Marconi invented the wireless telegraph in 1896

o Communication by encoding alphanumeric characters in analogsignal

o Sent telegraphic signals across the Atlantic Ocean

Communications satellites launched in 1960s Advances in wireless technology

o Radio, television, mobile telephone, communication satellites

More recentlyo Satellite communications, wireless networking, cellular

technology, ad hoc networks, sensor networks


Wireless communication systems Target information systems: “Anytime, Anywhere,

Any form” Applications: Ubiquitous computing and

information access Market in continuous growth:

o 35-60% annual growth of PCSo Number of subscribers:

• By 2001: over 700M mobile phones• By 2003: 1 billion subscribers• By 2005: 2 billion, and by 2010 3.3 billion

Large diversity of standards and products Confusing terminology


Limitations and difficulties

Wireless is convenient and less expensiveLimitations and political and technical

difficulties inhibit wireless technologiesLack of an industry-wide standardDevice limitations

o E.g., small LCD on a mobile telephone can onlydisplaying a few lines of text

o E.g., browsers of most mobile wireless devicesuse wireless markup language (WML) insteadof HTML


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Wireless & Mobility Wireless:

o Limited bandwidtho Broadcast medium: requires multiple access schemeso Variable link quality (noise, interference)o High latency, higher jittero Heterogeneous air interfaceso Security: easier snooping

Mobility:o User location may change with timeo Speed of mobile impacts wireless bandwidtho Need mechanism for handoffo Security: easier spoofing

Portabilityo Limited battery, storage, computing, and UI


Classification of Wireless Systems Personal communication systems

o Focus on voice communicationo Limited bit-rate data transmissiono Large-scale mobility and coverageo Operate over licensed frequency bands

Wireless LANso Designed for high bit-rate transmissiono IP orientedo Low-scale coverageo Use unlicensed ISM frequency bands

Multihop ad hoc networkso Have little or no infrastructureo Low-scale coverageo Need new routing protocolso Emerging applications


Transmission fundamentals

Electromagnetic signalso Time domaino Frequency domain

Data rate and bandwidthChannel capacity

o Nyquist theoremo Shannon capacity theorem

Analog and digital data transmissionTransmission media




Analog signaling


Digital signaling



Classification of transmission media Transmission medium

o Physical path between transmitter and receiver

Guided mediao Waves are guided along a solid mediumo E.g., copper twisted pair, copper coaxial cable, optical

fiber

Unguided mediao Provides means of transmission but does not guide

electromagnetic signalso Usually referred to as wireless transmissiono E.g., atmosphere, outer space


Unguided media

Transmission and reception are achievedby means of an antenna

Configurations for wireless transmissiono Directionalo Omnidirectional


General frequency ranges

Microwave frequency rangeo 1 GHz to 40 GHzo Directional beams possibleo Suitable for point-to-point transmissiono Used for satellite communications

Radio frequency rangeo 30 MHz to 1 GHzo Suitable for omnidirectional applications

Infrared frequency rangeo Roughly, 3x1011 to 2x1014 Hzo Useful in local point-to-point multipoint applications within

confined areas


Terrestrial microwave

Description of common microwave antennao Parabolic "dish", 3 m in diametero Fixed rigidly and focuses a narrow beamo Achieves line-of-sight transmission to receiving antennao Located at substantial heights above ground level

Applicationso Long haul telecommunications serviceo Short point-to-point links between buildings


Satellite microwave Description of communication satellite

o Microwave relay stationo Used to link two or more ground-based microwave

transmitter/receiverso Receives transmissions on one frequency band (uplink),

amplifies or repeats the signal, and transmits it onanother frequency (downlink)

Applicationso Television distributiono Long-distance telephone transmissiono Private business networks


Broadcast radio

Description of broadcast radio antennaso Omnidirectionalo Antennas not required to be dish-shapedo Antennas need not be rigidly mounted to a precise

alignment

Applicationso Broadcast radio

• VHF and part of the UHF band; 30 MHZ to 1GHz• Covers FM radio and UHF and VHF television


Infrared

Beyond the EHF spectrumo 1012 to 1014 Hz

Transceivers must be within line of sight orreachable via reflectiono Does not penetrate walls

Documents

Wireless Networks - Khoury College of Computer Sciences€¦ · Wireless Networks Spring 2007 Wireless communication systems Target information systems: “Anytime, Anywhere, Any