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How is radio signal propagated. 2 Comparison of wired and wireless transmissions WiredWireless BandwidthDepending on the media used, can be large Narrow.

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Presentation on theme: "How is radio signal propagated. 2 Comparison of wired and wireless transmissions WiredWireless BandwidthDepending on the media used, can be large Narrow."— Presentation transcript:

1 How is radio signal propagated

2 2 Comparison of wired and wireless transmissions WiredWireless BandwidthDepending on the media used, can be large Narrow in general, regulated by FCC Signal receptionReliable due to dedicated link Unreliable, signal can be blocked, reflected SecurityHigh, difficult to tap inEveryone within the range can intercept the message InterferenceVery littleSignificant because all share the same medium: air MobilityNoYes Cost?? ExpansionAdd wires?

3 3 Bandwidth Wired  Twisted pair (twisted to reduce crosstalk effect) Telephones, DSL: Category 3 cabling, 16 MHz/10Mbps, mainly for voice, uses RJ-11 jack. Ethernet: Category 5 cabling, 4 pairs, 100Mbps, uses RJ- 45 jack.  Coaxial cables (broadband coax): cable TV, cable modems, 300-450 MHz bandwidth  Optical fibers: wide bandwidth (10 GHz or higher), smaller size, lighter weight, long coverage, but expensive, less flexible.  Power line Wireless

4 4 Frequency Bands of wireless Around 1 GHz, cellular, 25 to 30 MHz for forward or reverse link (824-849 and 869- 894 MHz), 25/30 kHz per user (TDMA/FDD) 2 GHz, PCS (Personal Communications Service) and WLAN (Wireless Local Area Network) 5 GHz, WLAN IR frequencies for optical communications

5 5 Licensed/unlicensed bands You pay a fee to use licensed bands, e.g., $2 billion for PCS in US. Unlicensed bands are dedicated to certain usages. Anyone can use an unlicensed bands without a fee. The problem is interference. Example: microwave ovens and Wi-Fi devices.

6 6 Increase number of users FDMA, TDMA, CDMA Divide the coverage area into several cells and reuse the frequencies by restricting the signal strength of the transmitter in each cell SDMA: space division multiple access, uses directional antennas to divide a cell into several sections and interference can be reduced.

7 7 Radio propagation mechanisms Line-of-sight transmission Reflection Diffraction Scattering

8 8 Signal coverage Free space propagation

9 9 What is dB (decibel)?

10 10 Two-ray model

11 11 Compare path loss of wired and wireless Wireless: exponential Wired: linear Therefore for long distance transmission wired media is preferred (if laying cables is a viable option, of course).

12 12 Slow fading due to blocking The variation of signal strength around the mean value due to location is called shadow fading. It’s called slow fading because when distance changes the variations change much slower than other forms of fading do. It’s also called shadow fading because the variation is often due to the blocking of buildings, walls and other subjects. Additional signal strength is needed to cover the entire area.

13 13 Fast fading due to multiple paths A mobile station can receive multiple signals from the same transmitter. Those signals (actually, they are copies of the same signal) come from the same source (transmitter), but travel through different paths. Some will reach the MS directly, some may be reflected by an object (e.g., a building) first and thus take longer paths. Those signals (copies of the same signal) arrive at a mobile station at different time instances—the one with a shorter path will arrive earlier than the one with a longer path. At the mobile station, those signals interfere with each other. Sometimes they can cancel each other out, but sometimes they can enhance each other. As a result, the received signal strength (the combination of those signals) varies rapidly as the mobile station moves. It’s called small- scale fading or fast fading.

14 Fast Fading Fast fading can be frequency selective—it may happen at some specific frequencies. Therefore a wide-band signal will be more robust against the frequency selective fading. For data transmission, error detection can detect and recover the lost data. Intersymbol Interference (ISI) caused by multipath is an important issue in wireless communications. 14


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