Introduction.ppt wireless
- 1. Wireless Networks CS 6710 Spring 2010 Rajmohan Rajaraman
- 2. Outline of the course: Basic topics Transmission Fundamentals o Analog and digital transmission o Channel capacity o Antennas, propagation modes, and fading o Signal encoding techniques Spread spectrum technology Coding and error control Cellular networks Wireless LANs o IEEE 802.11 o Bluetooth
- 3. Outline: Advanced topics WiMAX, Zigbee, UWB, 3G and 4G Mobile Application platforms Mobile IP, TCP for wireless Multihop ad hoc networks o MAC and routing protocols o Power control and topology control o Capacity of ad hoc networks Sensor networks o Infrastructure, MAC, and routing protocols o Algorithms for query processing
- 4. Wireless Comes of Age Guglielmo Marconi invented the wireless telegraph in 1896 o Communication by encoding alphanumeric characters in analog signal 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 recently o Satellite communications, wireless networking, cellular technology, ad hoc networks, sensor networks
- 5. 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 PCS o Number of subscribers: • By 2001: over 700M mobile phones • By 2003: 1 billion subscribers • By 2005: 2 billion • By 2009: 4.6 billion Large diversity of standards and products Confusing terminology
- 6. Limitations and difficulties Wireless is convenient and less expensive Limitations and political and technical difficulties inhibit wireless technologies Lack of an industry-wide standard Device limitations o E.g., small LCD on a mobile telephone can only displaying a few lines of text o E.g., browsers of most mobile wireless devices use wireless markup language (WML) instead of HTML o Switching speed of the material (e.g., silicon)
- 7. ad hoc IMT200, WLAN, GSM, TETRA, ... Personal Travel Assistant, PDA, laptop, GSM, cdmaOne, WLAN, Bluetooth, ...
- 8. Wireless & Mobility Wireless: o Limited bandwidth o Broadcast medium: requires multiple access schemes o Variable link quality (noise, interference) o High latency, higher jitter o Heterogeneous air interfaces o Security: easier snooping Mobility: o User location may change with time o Speed of mobile impacts wireless bandwidth o Need mechanism for handoff o Security: easier spoofing Portability o Limited battery, storage, computing, and UI
- 9. Classification of Wireless Systems Personal communication systems o Focus on voice communication o Limited bit-rate data transmission o Large-scale mobility and coverage o Operate over licensed frequency bands Wireless LANs o Designed for high bit-rate transmission o IP oriented o Low-scale coverage o Use unlicensed ISM frequency bands Multihop ad hoc networks o Have little or no infrastructure o Low-scale coverage o Need new routing protocols o Emerging applications
- 10. Transmission fundamentals Electromagnetic signals o Time domain o Frequency domain Data rate and bandwidth Channel capacity o Nyquist theorem o Shannon capacity theorem Analog and digital data transmission Transmission media
- 12. QuickTime™ and a TIFF (LZW) decompressor are needed to see this picture. QuickTime™ and a TIFF (LZW) decompressor are needed to see this picture.
- 13. Analog signaling
- 16. Classification of transmission media Transmission medium o Physical path between transmitter and receiver Guided media o Waves are guided along a solid medium o E.g., copper twisted pair, copper coaxial cable, optical fiber Unguided media o Provides means of transmission but does not guide electromagnetic signals o Usually referred to as wireless transmission o E.g., atmosphere, outer space
- 17. Unguided media Transmission and reception are achieved by means of an antenna Configurations for wireless transmission o Directional o Omnidirectional
- 18. General frequency ranges Microwave frequency range o 1 GHz to 40 GHz o Directional beams possible o Suitable for point-to-point transmission o Used for satellite communications Radio frequency range o 30 MHz to 1 GHz o Suitable for omnidirectional applications Infrared frequency range o Roughly, 3x1011 to 2x1014 Hz o Useful in local point-to-point multipoint applications within confined areas
- 19. Terrestrial microwave Description of common microwave antenna o Parabolic "dish", 3 m in diameter o Fixed rigidly and focuses a narrow beam o Achieves line-of-sight transmission to receiving antenna o Located at substantial heights above ground level Applications o Long haul telecommunications service o Short point-to-point links between buildings
- 20. Satellite microwave Description of communication satellite o Microwave relay station o Used to link two or more ground-based microwave transmitter/receivers o Receives transmissions on one frequency band (uplink), amplifies or repeats the signal, and transmits it on another frequency (downlink) Applications o Television distribution o Long-distance telephone transmission o Private business networks
- 21. Broadcast radio Description of broadcast radio antennas o Omnidirectional o Antennas not required to be dish-shaped o Antennas need not be rigidly mounted to a precise alignment Applications o Broadcast radio • VHF and part of the UHF band; 30 MHZ to 1GHz • Covers FM radio and UHF and VHF television
- 22. Infrared Beyond the EHF spectrum o 1012 to 1014 Hz Transceivers must be within line of sight or reachable via reflection o Does not penetrate walls