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An Investi
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2.3.5 Signal <stro
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Attestation of Aut
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Abstract Wireless local area networ
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List of Abbreviati
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List of Figures Fi
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List of Tables Tab
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Chapter 1 Introduction There has be
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WLAN performance evaluation and ana
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Chapter 2 Background and Related Wo
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The IEEE 802.11 networks have two o
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The coverage of a
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2.2.1 Physical Layer Figure 2.8 sho
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throughput significantly at higher
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DCF is designed to provide “best-
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Figure 2.11: Backof</strong
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modulation in [37]. According to si
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Figure 2.12: Net throughput <strong
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As highlighted in [46, 47], distanc
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2.3.2 Base Station Placement <stron
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gained an insight that this would m
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proposed to improve WLAN performanc
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specifications of
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dynamic and complicated. As argued
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In addition, we surveyed and review
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4.1 Performance Metrics A stopwatch
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Model: DWL-G132 Specification: Sta
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Figure 4.1: WY building layout. - 4
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Figure 4.2 shows wireless configura
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4.4.2 Wireless Adapter Configuratio
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4.4.3 AP Operation Mode Two APs (D-
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meeting room with different distanc
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Scenario 4 In figure 4.12, two APs
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“(H-3.5m)F-H” is the</s
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Figure 4.16: Phase 2 measurement: A
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performed the prop
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The receiver sensitivity is an impo
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In table 5.1, the
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Ethernet connectio
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sufficient signal coverage and thro
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throughput decreases along with low
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In table 5.1, when RSS is larger th
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(for example, measurement point “
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AP at Position “R” Figure 5.13
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The measurement results indicated t
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5.2.2 Throughput An</strong
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impact on RSS and throughput. Resul
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The throughput of
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The RSS of “WDS
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The average throughput of</
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The average data size of</s
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5.6.1 SOHO Environment Due to <stro
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The following notes are needed to b
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when APs were placed at positions
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Real and accurate results for AP pl
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- Page 113 and 114: planning. Propagation measurement (
- Page 115 and 116: deployment. Many WLANs are deployed
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- Page 119 and 120: Communications, vol. 2, no. 5, pp.
- Page 121 and 122: [56] J. K. L. Wong, M. J. Neve, and
- Page 123 and 124: eceived signal strength of<
- Page 125 and 126: Appendix A Preliminary Experimental
- Page 127 and 128: 2. AP Mode Measurement in t
- Page 129 and 130: 7. The Ad-Hoc Mode Measurement on <
- Page 131 and 132: Appendix B Phase 1 Experimental Res
- Page 133 and 134: (P-1.5m)O-P 32.78 -86 193.6 0.453 N
- Page 135 and 136: 3. Access Point at Position “E-3M
- Page 137 and 138: (C-5m)C-D 21.63 -83 46.8 1.875 NLOS
- Page 139 and 140: J 9.00 -44 8.2 10.703 LOS (J-1.5m)J
- Page 141 and 142: 7. Access Point at Position “H”
- Page 143 and 144: Figure B.2: Throughput map for AP a
- Page 145 and 146: 60 40 20 0 -20 -40 -60 -80 -100 Acc
- Page 147 and 148: (N-3m)N-O 15.00 -72 15.6 5.626 NLOS
- Page 149 and 150: (C-3m)C-D 14.32 -74 13.6 6.453 NLOS
- Page 151 and 152: Figure B.8: Throughput map for AP a
- Page 153 and 154: 60 40 20 0 -20 -40 -60 -80 -100 Acc
- Page 155 and 156: AP at A RX Position Left-Hand Area
- Page 157 and 158: AP at L RX Position Left-Hand Area
- Page 159 and 160: Appendix D Phase 3 Experimental Res
- Page 161: TX at 2M from E-3M Data File: 153.6
- Page 165 and 166: Standards • IEEE 802.11g • IEEE
- Page 167 and 168: 1 Maximum wireless signal rate deri
- Page 169 and 170: Wireless 108G Standards • 802.11b
- Page 171 and 172: Wireless 108G Add 802.11g Wireless
- Page 173: 2.4GHz Omni-Directional 7dBi Indoor