Introduction to Wireless Communication Systems These slides contains copyrighted materials from Prentice Hall Inc., obtained as instructor resources, and.

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Presentation transcript:

Introduction to Wireless Communication Systems These slides contains copyrighted materials from Prentice Hall Inc., obtained as instructor resources, and taken from the following sources: -Wireless Communications and Networking, Jon W. Mark, Weihua Zhuang -Wireless Communications: Principles and Practice, Theodore S. Rappaport

Wireless Systems Cellular systems –IMTS, AMPS; IS-54, IS-136, IS-95, GSM; WCDMA, CDMA2000 Microwave links –MW trunks, and fixed broadband access Satellite links –Geo stationary satellites, Low earth orbiting (LEO), TV boradcast Paging systems Cordless phones –CT2, PHS, DECT Wireless LANs –IEEE (Wi-Fi), Hiperlan Wireless Personal area networks (Bluetooth) –IEEE Wireless local loops –PACT Broadcast systems –Radio and TV (DAB, DVB)

Major Wireless Standards Wireless WLANs and PANs –IEEE , IEEE b, a, g –HIPERLANs, –IEEE (Bluetooth) Fixed Broadcast Systems –DVB(digital video broadcasting), DAB(Digital audio broadcasting) –Satellite radio –Local Multipoint Distribution Service(26-32 GHz) Cellular Systems –1G(Analog) AMPS, NAMPS, NMT –2G(Digital) GMS, IS-54, IS-95, USDC, DCS-1800 –3G(Wide-band Digital) UMTS, W-CDMA, CDMA2000 Corless Phones –DECT, PACS

Why Wireless? Benefits –Mobility: Ability to communicate anywhere!! –Easier configuration, set up and lower installation cost Difficulties –Communication medium: Free space Noisy and unpredictable channel Broadcast channel, more user ->less BW per user –Higher equipment cost –Usually regulated spectrum and limited BW Techno-politic –Need backbone systems in order to function properly

Wireless Services Satelite Outdoor Fixed Indoor (WLAN) Outdoor Mobile

Market penetration Figure 1.1 The growth of mobile telephony as compared with other popular inventions of the 20 th century.

Figure 2.1 Growth of cellular telephone subscribers throughout the world.

Figure 2.2 Worldwide subscriber base as a function of cellular technology in late 2001.

Paging system

Cordless phone system

Cellular system

Figure 2.3 Various upgrade paths for 2G technologies.

Figure 2.4 Example of the emerging applications and markets for broadband services. (Courtesy of Harris Corporation, ©1999, all rights reserved.)

Figure 2.5 Allocation of broadband wireless spectrum throughout the world. (Courtesy of Ray W. Nettleton and reproduced by permission of Formus Communications.)

Figure 2.7 A wireless Competitive Local Exchange Carrier (CLEC) using Asynchronous Transfer Mode (ATM) distribution.

Figure 2.8 Measured received power levels over a 605 m 38 GHz fixed wireless link in clear sky, rain, and hail [from [Xu00], ©IEEE].

Figure 2.9 Measured received power during rain storm at 38 GHz [from [Xu00], ©IEEE].

Figure 2.11 Photographs of popular b WLAN equipment. Access points and a client card are shown on left, and PCMCIA Client card is shown on right. (Courtesy of Cisco Systems, Inc.)

Figure 2.13 A predicted coverage plot for three access points in a modern large lecture hall. (Courtesy of Wireless Valley Communications, Inc., ©2000, all rights reserved.)

Figure 2.15 A typical neighborhood where high speed license free WLAN service from the street might be contemplated [Dur98b].

Figure 2.16 Measured values of path loss using a street-mounted lamp-post transmitter at 5.8 GHz, for various types of customer premise antenna [from [Dur98], ©IEEE].

Figure 2.17 Example of a Personal Area Network (PAN) as provided by the Bluetooth standard.