Wireless Ad Hoc and Sensor Networks
Wireless Ad Hoc and Sensor Networks Wireless Ad Hoc and Sensor Networks
Distributed Power Control of Wireless Cellular and Peer-to-Peer Networks 191Outage probability (%)100908070605040302010CSOPCBambosSSCDOptimalBambosSSCDCSOPCOptimal00 5 10 15 20 25 30 35 40 45 50Time unitsFIGURE 5.3Outage probability as a function of time units.100908070Total power consumed plotOptimalBambosSSCDCSOPCTotal power60504030201000 5 10 15 20 25 30 35 40 45 50Time unitsFIGURE 5.4Total power as a function of time units.
192 Wireless Ad Hoc and Sensor Networks454035SSCDOptimalBambosCSOPCPlot of outage probability vs. number of usersOutage probability30252015BambosCSOPCOptimalSSCD10502040 60 80 100 120 140 160 180Number of usersFIGURE 5.5Outage probability with number of users.with a varying number of nodes to evaluate the performance of DPCschemes. The plots of outage probability in Figure 5.5 and total power inFigure 5.6 demonstrate that the outage probability and total power consumed,using the SSCD and optimal DPC schemes, respectively, continueto be lower than when compared to Bambos and CSOPC schemes. Whenthe number of users varies, the lower outage probability observed inFigure 5.3 is the result of low power consumption by our DPC schemesin comparison with others while the time to reach the target is longer thanothers, as seen in Figure 5.4. This is the trade-off.Example 5.2.2: Transmitter Power Control of CellularNetworks with Mobile UsersTo illustrate the performance of the DPC in cellular networks with mobileusers, consider the scenario from Example 5.2.1. The requirements of thetarget SIR and design parameters were selected from Example 5.2.1.Mobility in the cellular environment has been simulated as follows: Auser can move a maximum of 0.01 km per time unit in any one of theeight predefined directions chosen at random at the beginning of the
- Page 163 and 164: 140 Wireless Ad Hoc and Sensor Netw
- Page 165 and 166: 142 Wireless Ad Hoc and Sensor Netw
- Page 167 and 168: 144 Wireless Ad Hoc and Sensor Netw
- Page 170 and 171: 4Admission Controller Design for Hi
- Page 172 and 173: Admission Controller Design for Hig
- Page 174 and 175: Admission Controller Design for Hig
- Page 176 and 177: Admission Controller Design for Hig
- Page 178 and 179: Admission Controller Design for Hig
- Page 180 and 181: Admission Controller Design for Hig
- Page 182 and 183: Admission Controller Design for Hig
- Page 184 and 185: Admission Controller Design for Hig
- Page 186 and 187: Admission Controller Design for Hig
- Page 188 and 189: Admission Controller Design for Hig
- Page 190 and 191: Admission Controller Design for Hig
- Page 192 and 193: Admission Controller Design for Hig
- Page 194 and 195: Admission Controller Design for Hig
- Page 196 and 197: Admission Controller Design for Hig
- Page 198: Admission Controller Design for Hig
- Page 201 and 202: 178 Wireless Ad Hoc and Sensor Netw
- Page 203 and 204: 180 Wireless Ad Hoc and Sensor Netw
- Page 205 and 206: 182 Wireless Ad Hoc and Sensor Netw
- Page 207 and 208: 184 Wireless Ad Hoc and Sensor Netw
- Page 209 and 210: 186 Wireless Ad Hoc and Sensor Netw
- Page 211 and 212: 188 Wireless Ad Hoc and Sensor Netw
- Page 213: 190 Wireless Ad Hoc and Sensor Netw
- Page 217 and 218: 194 Wireless Ad Hoc and Sensor Netw
- Page 219 and 220: 196 Wireless Ad Hoc and Sensor Netw
- Page 221 and 222: 198 Wireless Ad Hoc and Sensor Netw
- Page 223 and 224: 200 Wireless Ad Hoc and Sensor Netw
- Page 225 and 226: 202 Wireless Ad Hoc and Sensor Netw
- Page 227 and 228: 204 Wireless Ad Hoc and Sensor Netw
- Page 229 and 230: 206 Wireless Ad Hoc and Sensor Netw
- Page 231 and 232: 208 Wireless Ad Hoc and Sensor Netw
- Page 233 and 234: 210 Wireless Ad Hoc and Sensor Netw
- Page 235 and 236: 212 Wireless Ad Hoc and Sensor Netw
- Page 237 and 238: 214 Wireless Ad Hoc and Sensor Netw
- Page 239 and 240: 216 Wireless Ad Hoc and Sensor Netw
- Page 241 and 242: 218 Wireless Ad Hoc and Sensor Netw
- Page 243 and 244: 220 Wireless Ad Hoc and Sensor Netw
- Page 245 and 246: 222 Wireless Ad Hoc and Sensor Netw
- Page 247 and 248: 224 Wireless Ad Hoc and Sensor Netw
- Page 249 and 250: 226 Wireless Ad Hoc and Sensor Netw
- Page 251 and 252: 228 Wireless Ad Hoc and Sensor Netw
- Page 253 and 254: 230 Wireless Ad Hoc and Sensor Netw
- Page 255 and 256: 232 Wireless Ad Hoc and Sensor Netw
- Page 257 and 258: 234 Wireless Ad Hoc and Sensor Netw
- Page 259 and 260: 236 Wireless Ad Hoc and Sensor Netw
- Page 261 and 262: 238 Wireless Ad Hoc and Sensor Netw
- Page 263 and 264: 240 Wireless Ad Hoc and Sensor Netw
Distributed Power Control of <strong>Wireless</strong> Cellular <strong>and</strong> Peer-to-Peer <strong>Networks</strong> 191Outage probability (%)100908070605040302010CSOPCBambosSSCDOptimalBambosSSCDCSOPCOptimal00 5 10 15 20 25 30 35 40 45 50Time unitsFIGURE 5.3Outage probability as a function of time units.100908070Total power consumed plotOptimalBambosSSCDCSOPCTotal power60504030201000 5 10 15 20 25 30 35 40 45 50Time unitsFIGURE 5.4Total power as a function of time units.
Change language