Views
3 years ago

Wireless Ad Hoc and Sensor Networks

Wireless Ad Hoc and Sensor Networks

7.3

7.3 Adaptive and Distributed Fair Scheduling (ADFS) ..............3067.3.1 Fluctuation Constrained and ExponentiallyBounded Fluctuation................................................................3077.3.2 Fairness Protocol Development .............................................3087.3.2.1 Dynamic Weight Adaptation....................................3087.3.2.2 MAC Protocol — Dynamic Backoff Intervals ........3097.3.3 Fairness Guarantee...................................................................3107.3.4 Throughput Guarantee............................................................3167.3.5 Delay Guarantee .......................................................................3187.3.6 Overhead Analysis ...................................................................3227.4 Performance Evaluation.......................................................................3237.5 Hardware Implementation ..................................................................3327.5.1 UMR Mote Description ...........................................................3337.5.2 Sensor Node Hardware ...........................................................3347.5.3 G4-SSN Capabilities .................................................................3357.5.4 Hardware Results .....................................................................3357.5.5 Future Direction for the Motes...............................................3387.6 Energy-Aware MAC Protocol for WirelessSensor Networks ...................................................................................3397.6.1 Sleep Mode ................................................................................3417.6.1.1 Sensor Data Transmission.........................................3417.6.1.2 Delivery of Data to a Sensor Node .........................3417.6.1.3 Protocol Comparison with SMAC...........................3427.6.2 ADFC with Sleep Mode ..........................................................3447.6.2.1 Scheduling Algorithm ...............................................3447.6.2.2 Protocol Implementation...........................................3457.6.2.3 Dynamic Weight Adaptation and BackoffInterval Calculation ...................................................3457.6.2.4 Distributed Power Control and Reset....................3457.6.3 Energy-Aware MAC Protocol.................................................3467.6.3.1 Scheduling ...................................................................3477.6.3.2 DPC Protocol...............................................................3477.6.3.3 Sleep Mode Implementation ....................................3477.6.4 Simulation..................................................................................3487.7 Conclusions ............................................................................................353References........................................................................................................354Problems ..........................................................................................................3568 Optimized Energy and Delay-Based Routingin Wireless Ad hoc and Sensor Networks ...........................3578.1 Routing in Ad hoc Wireless Networks..............................................3588.2 Optimized Link State Routing (OLSR) Protocol..............................360

8.3 Optimized Energy-Delay Routing (OEDR) Protocol ......................3628.3.1 Neighbor Sensing and Energy-DelayMetrics Calculation...................................................................3638.3.2 Multipoint Relay (MPR) Selection.........................................3648.3.3 MPR and Energy-Delay Information Declaration...............3678.3.4 Routing Table Calculation.......................................................3678.3.5 The OEDR Protocol Summary ...............................................3718.4 Optimality Analysis for OEDR...........................................................3728.5 Performance Evaluation.......................................................................3758.6 Routing in Wireless Sensor Networks...............................................3828.7 Self-Organization Using Subnetwork Protocol ................................3858.8 Optimized Energy-Delay Subnetwork Routing Protocol...............3878.8.1 Optimal Relay Node Selection ...............................................3888.8.2 Relay-Node Selection Algorithm ...........................................3908.8.3 Optimality Analysis for OEDSR ............................................3948.9 Performance Evaluation.......................................................................3968.10 OEDSR Implementation.......................................................................4148.10.1 Hardware Implementation Description................................4158.10.1.1 Architecture of the Hardware Systemand Software .............................................................4168.10.1.2 Sensor Node: Instrumentation Sensor Node .......4168.10.1.3 Cluster Head and Relay Nodes .............................4168.10.1.4 Comparison of ISN and G4-SSN Capabilities.....4178.10.2 Software Architecture...............................................................4178.10.2.1 Routing Implementation .........................................4188.10.2.2 Routing Packets ........................................................4198.10.2.3 Traffic Cases...............................................................4198.10.2.4 Memory Limitations ................................................4198.11 Performance Evaluation.......................................................................4208.11.1 Description of the Experimental Scenario............................4218.11.2 Experiment Results...................................................................4218.11.3 Future Work...............................................................................4238.12 Conclusions ............................................................................................423References........................................................................................................425Problems ..........................................................................................................4289 Predictive Congestion Control for WirelessSensor Networks .....................................................................4299.1 Introduction............................................................................................4309.2 Overview of Predictive Congestion Control ....................................4329.2.1 Congestion Prediction and Mitigation..................................433

  • Page 2 and 3: Wireless Ad Hocand SensorNetworksPr
  • Page 4: 18. Chaos in Automatic Control, edi
  • Page 7 and 8: CRC PressTaylor & Francis Group6000
  • Page 10 and 11: Table of Contents1 Background on Ne
  • Page 12 and 13: 3 Congestion Control in ATM Network
  • Page 14 and 15: 5.4.2 Distributed Power Controller
  • Page 18: 9.2.2 Overview.....................
  • Page 21 and 22: the number of connections in each l
  • Page 23 and 24: y Maheswaran Thiagarajan, and tirel
  • Page 25 and 26: 2 Wireless Ad Hoc and Sensor Networ
  • Page 27 and 28: 4 Wireless Ad Hoc and Sensor Networ
  • Page 29 and 30: 6 Wireless Ad Hoc and Sensor Networ
  • Page 31 and 32: 8 Wireless Ad Hoc and Sensor Networ
  • Page 33 and 34: 10 Wireless Ad Hoc and Sensor Netwo
  • Page 35 and 36: 12 Wireless Ad Hoc and Sensor Netwo
  • Page 37 and 38: 14 Wireless Ad Hoc and Sensor Netwo
  • Page 39 and 40: 16 Wireless Ad Hoc and Sensor Netwo
  • Page 41 and 42: 18 Wireless Ad Hoc and Sensor Netwo
  • Page 43 and 44: 20 Wireless Ad Hoc and Sensor Netwo
  • Page 45 and 46: 22 Wireless Ad Hoc and Sensor Netwo
  • Page 47 and 48: 24 Wireless Ad Hoc and Sensor Netwo
  • Page 49 and 50: 26 Wireless Ad Hoc and Sensor Netwo
  • Page 51 and 52: 28 Wireless Ad Hoc and Sensor Netwo
  • Page 53 and 54: 30 Wireless Ad Hoc and Sensor Netwo
  • Page 55 and 56: 32 Wireless Ad Hoc and Sensor Netwo
  • Page 57 and 58: 34 Wireless Ad Hoc and Sensor Netwo
  • Page 59 and 60: 36 Wireless Ad Hoc and Sensor Netwo
  • Page 61 and 62: 38 Wireless Ad Hoc and Sensor Netwo
  • Page 63 and 64: 40 Wireless Ad Hoc and Sensor Netwo
  • Page 65 and 66: 42 Wireless Ad Hoc and Sensor Netwo
  • Page 67 and 68:

    44 Wireless Ad Hoc and Sensor Netwo

  • Page 69 and 70:

    46 Wireless Ad Hoc and Sensor Netwo

  • Page 72 and 73:

    2BackgroundIn this chapter, we prov

  • Page 74 and 75:

    Background 51u(k)x n (k + 1)x n (k)

  • Page 76 and 77:

    Background 53with x( 0)being the in

  • Page 78 and 79:

    Background 55with tr(.) the matrix

  • Page 80 and 81:

    Background 57nGiven a function ft (

  • Page 82 and 83:

    Background 592.3.2 Lyapunov Stabili

  • Page 84 and 85:

    Background 61as well as Jagannathan

  • Page 86 and 87:

    Background 63The subsequent example

  • Page 88 and 89:

    Background 65Evaluating this along

  • Page 90 and 91:

    Background 67Now, select the feedba

  • Page 92 and 93:

    Background 69is SISL if and only if

  • Page 94 and 95:

    Background 71L 1 (x)L(x, t)L 0 (x)0

  • Page 96 and 97:

    Background 73for some R > 0 such th

  • Page 98 and 99:

    Background 75Evaluating the first d

  • Page 100:

    Background 77Section 2.4Problem 2.4

  • Page 103 and 104:

    80 Wireless Ad Hoc and Sensor Netwo

  • Page 105 and 106:

    82 Wireless Ad Hoc and Sensor Netwo

  • Page 107 and 108:

    84 Wireless Ad Hoc and Sensor Netwo

  • Page 109 and 110:

    86 Wireless Ad Hoc and Sensor Netwo

  • Page 111 and 112:

    88 Wireless Ad Hoc and Sensor Netwo

  • Page 113 and 114:

    90 Wireless Ad Hoc and Sensor Netwo

  • Page 115 and 116:

    92 Wireless Ad Hoc and Sensor Netwo

  • Page 117 and 118:

    94 Wireless Ad Hoc and Sensor Netwo

  • Page 119 and 120:

    96 Wireless Ad Hoc and Sensor Netwo

  • Page 121 and 122:

    98 Wireless Ad Hoc and Sensor Netwo

  • Page 123 and 124:

    100 Wireless Ad Hoc and Sensor Netw

  • Page 125 and 126:

    102 Wireless Ad Hoc and Sensor Netw

  • Page 127 and 128:

    104 Wireless Ad Hoc and Sensor Netw

  • Page 129 and 130:

    106 Wireless Ad Hoc and Sensor Netw

  • Page 131 and 132:

    108 Wireless Ad Hoc and Sensor Netw

  • Page 133 and 134:

    110 Wireless Ad Hoc and Sensor Netw

  • Page 135 and 136:

    112 Wireless Ad Hoc and Sensor Netw

  • Page 137 and 138:

    114 Wireless Ad Hoc and Sensor Netw

  • Page 139 and 140:

    116 Wireless Ad Hoc and Sensor Netw

  • Page 141 and 142:

    118 Wireless Ad Hoc and Sensor Netw

  • Page 143 and 144:

    120 Wireless Ad Hoc and Sensor Netw

  • Page 145 and 146:

    122 Wireless Ad Hoc and Sensor Netw

  • Page 147 and 148:

    124 Wireless Ad Hoc and Sensor Netw

  • Page 149 and 150:

    126 Wireless Ad Hoc and Sensor Netw

  • Page 151 and 152:

    128 Wireless Ad Hoc and Sensor Netw

  • Page 153 and 154:

    130 Wireless Ad Hoc and Sensor Netw

  • Page 155 and 156:

    132 Wireless Ad Hoc and Sensor Netw

  • Page 157 and 158:

    134 Wireless Ad Hoc and Sensor Netw

  • Page 159 and 160:

    136 Wireless Ad Hoc and Sensor Netw

  • Page 161 and 162:

    138 Wireless Ad Hoc and Sensor Netw

  • 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 and 214:

    190 Wireless Ad Hoc and Sensor Netw

  • Page 215 and 216:

    192 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

  • Page 265 and 266:

    242 Wireless Ad Hoc and Sensor Netw

  • Page 267 and 268:

    244 Wireless Ad Hoc and Sensor Netw

  • Page 269 and 270:

    246 Wireless Ad Hoc and Sensor Netw

  • Page 271 and 272:

    248 Wireless Ad Hoc and Sensor Netw

  • Page 273 and 274:

    250 Wireless Ad Hoc and Sensor Netw

  • Page 275 and 276:

    252 Wireless Ad Hoc and Sensor Netw

  • Page 277 and 278:

    254 Wireless Ad Hoc and Sensor Netw

  • Page 279 and 280:

    256 Wireless Ad Hoc and Sensor Netw

  • Page 281 and 282:

    258 Wireless Ad Hoc and Sensor Netw

  • Page 283 and 284:

    260 Wireless Ad Hoc and Sensor Netw

  • Page 285 and 286:

    262 Wireless Ad Hoc and Sensor Netw

  • Page 287 and 288:

    264 Wireless Ad Hoc and Sensor Netw

  • Page 289 and 290:

    266 Wireless Ad Hoc and Sensor Netw

  • Page 291 and 292:

    268 Wireless Ad Hoc and Sensor Netw

  • Page 293 and 294:

    270 Wireless Ad Hoc and Sensor Netw

  • Page 295 and 296:

    272 Wireless Ad Hoc and Sensor Netw

  • Page 297 and 298:

    274 Wireless Ad Hoc and Sensor Netw

  • Page 299 and 300:

    276 Wireless Ad Hoc and Sensor Netw

  • Page 301 and 302:

    278 Wireless Ad Hoc and Sensor Netw

  • Page 303 and 304:

    280 Wireless Ad Hoc and Sensor Netw

  • Page 305 and 306:

    282 Wireless Ad Hoc and Sensor Netw

  • Page 307 and 308:

    284 Wireless Ad Hoc and Sensor Netw

  • Page 309 and 310:

    286 Wireless Ad Hoc and Sensor Netw

  • Page 311 and 312:

    288 Wireless Ad Hoc and Sensor Netw

  • Page 313 and 314:

    290 Wireless Ad Hoc and Sensor Netw

  • Page 315 and 316:

    292 Wireless Ad Hoc and Sensor Netw

  • Page 317 and 318:

    294 Wireless Ad Hoc and Sensor Netw

  • Page 319 and 320:

    296 Wireless Ad Hoc and Sensor Netw

  • Page 321 and 322:

    298 Wireless Ad Hoc and Sensor Netw

  • Page 323 and 324:

    300 Wireless Ad Hoc and Sensor Netw

  • Page 326 and 327:

    7Distributed Fair Scheduling in Wir

  • Page 328 and 329:

    Distributed Fair Scheduling in Wire

  • Page 330 and 331:

    Distributed Fair Scheduling in Wire

  • Page 332 and 333:

    Distributed Fair Scheduling in Wire

  • Page 334 and 335:

    Distributed Fair Scheduling in Wire

  • Page 336 and 337:

    Distributed Fair Scheduling in Wire

  • Page 338 and 339:

    Distributed Fair Scheduling in Wire

  • Page 340 and 341:

    Distributed Fair Scheduling in Wire

  • Page 342 and 343:

    Distributed Fair Scheduling in Wire

  • Page 344 and 345:

    Distributed Fair Scheduling in Wire

  • Page 346 and 347:

    Distributed Fair Scheduling in Wire

  • Page 348 and 349:

    Distributed Fair Scheduling in Wire

  • Page 350 and 351:

    Distributed Fair Scheduling in Wire

  • Page 352 and 353:

    Distributed Fair Scheduling in Wire

  • Page 354 and 355:

    Distributed Fair Scheduling in Wire

  • Page 356 and 357:

    Distributed Fair Scheduling in Wire

  • Page 358 and 359:

    Distributed Fair Scheduling in Wire

  • Page 360 and 361:

    Distributed Fair Scheduling in Wire

  • Page 362 and 363:

    Distributed Fair Scheduling in Wire

  • Page 364 and 365:

    Distributed Fair Scheduling in Wire

  • Page 366 and 367:

    Distributed Fair Scheduling in Wire

  • Page 368 and 369:

    Distributed Fair Scheduling in Wire

  • Page 370 and 371:

    Distributed Fair Scheduling in Wire

  • Page 372 and 373:

    Distributed Fair Scheduling in Wire

  • Page 374 and 375:

    Distributed Fair Scheduling in Wire

  • Page 376 and 377:

    Distributed Fair Scheduling in Wire

  • Page 378 and 379:

    Distributed Fair Scheduling in Wire

  • Page 380 and 381:

    8Optimized Energy and Delay-Based R

  • Page 382 and 383:

    Optimized Energy and Delay-Based Ro

  • Page 384 and 385:

    Optimized Energy and Delay-Based Ro

  • Page 386 and 387:

    Optimized Energy and Delay-Based Ro

  • Page 388 and 389:

    Optimized Energy and Delay-Based Ro

  • Page 390 and 391:

    Optimized Energy and Delay-Based Ro

  • Page 392 and 393:

    Optimized Energy and Delay-Based Ro

  • Page 394 and 395:

    Optimized Energy and Delay-Based Ro

  • Page 396 and 397:

    Optimized Energy and Delay-Based Ro

  • Page 398 and 399:

    Optimized Energy and Delay-Based Ro

  • Page 400 and 401:

    Optimized Energy and Delay-Based Ro

  • Page 402 and 403:

    Optimized Energy and Delay-Based Ro

  • Page 404 and 405:

    Optimized Energy and Delay-Based Ro

  • Page 406 and 407:

    Optimized Energy and Delay-Based Ro

  • Page 408 and 409:

    Optimized Energy and Delay-Based Ro

  • Page 410 and 411:

    Optimized Energy and Delay-Based Ro

  • Page 412 and 413:

    Optimized Energy and Delay-Based Ro

  • Page 414 and 415:

    Optimized Energy and Delay-Based Ro

  • Page 416 and 417:

    Optimized Energy and Delay-Based Ro

  • Page 418 and 419:

    Optimized Energy and Delay-Based Ro

  • Page 420 and 421:

    Optimized Energy and Delay-Based Ro

  • Page 422 and 423:

    Optimized Energy and Delay-Based Ro

  • Page 424 and 425:

    Optimized Energy and Delay-Based Ro

  • Page 426 and 427:

    Optimized Energy and Delay-Based Ro

  • Page 428 and 429:

    Optimized Energy and Delay-Based Ro

  • Page 430 and 431:

    Optimized Energy and Delay-Based Ro

  • Page 432 and 433:

    Optimized Energy and Delay-Based Ro

  • Page 434 and 435:

    Optimized Energy and Delay-Based Ro

  • Page 436 and 437:

    Optimized Energy and Delay-Based Ro

  • Page 438 and 439:

    Optimized Energy and Delay-Based Ro

  • Page 440 and 441:

    Optimized Energy and Delay-Based Ro

  • Page 442 and 443:

    Optimized Energy and Delay-Based Ro

  • Page 444 and 445:

    Optimized Energy and Delay-Based Ro

  • Page 446 and 447:

    Optimized Energy and Delay-Based Ro

  • Page 448 and 449:

    Optimized Energy and Delay-Based Ro

  • Page 450 and 451:

    Optimized Energy and Delay-Based Ro

  • Page 452 and 453:

    9Predictive Congestion Control for

  • Page 454 and 455:

    Predictive Congestion Control for W

  • Page 456 and 457:

    Predictive Congestion Control for W

  • Page 458 and 459:

    Predictive Congestion Control for W

  • Page 460 and 461:

    Predictive Congestion Control for W

  • Page 462 and 463:

    Predictive Congestion Control for W

  • Page 464 and 465:

    Predictive Congestion Control for W

  • Page 466 and 467:

    Predictive Congestion Control for W

  • Page 468 and 469:

    Predictive Congestion Control for W

  • Page 470 and 471:

    Predictive Congestion Control for W

  • Page 472 and 473:

    Predictive Congestion Control for W

  • Page 474 and 475:

    Predictive Congestion Control for W

  • Page 476 and 477:

    Predictive Congestion Control for W

  • Page 478 and 479:

    Predictive Congestion Control for W

  • Page 480 and 481:

    Predictive Congestion Control for W

  • Page 482 and 483:

    Predictive Congestion Control for W

  • Page 484 and 485:

    10Adaptive and Probabilistic Power

  • Page 486 and 487:

    Adaptive and Probabilistic Power Co

  • Page 488 and 489:

    Adaptive and Probabilistic Power Co

  • Page 490 and 491:

    Adaptive and Probabilistic Power Co

  • Page 492 and 493:

    Adaptive and Probabilistic Power Co

  • Page 494 and 495:

    Adaptive and Probabilistic Power Co

  • Page 496 and 497:

    Adaptive and Probabilistic Power Co

  • Page 498 and 499:

    Adaptive and Probabilistic Power Co

  • Page 500 and 501:

    Adaptive and Probabilistic Power Co

  • Page 502 and 503:

    Adaptive and Probabilistic Power Co

  • Page 504 and 505:

    Adaptive and Probabilistic Power Co

  • Page 506 and 507:

    Adaptive and Probabilistic Power Co

  • Page 508:

    Adaptive and Probabilistic Power Co

  • Page 511 and 512:

    488 Wireless Ad Hoc and Sensor Netw

  • Page 513 and 514:

    490 Wireless Ad Hoc and Sensor Netw

  • Page 515 and 516:

    492 Wireless Ad Hoc and Sensor Netw

  • Page 517 and 518:

    494 Wireless Ad Hoc and Sensor Netw

  • Page 519 and 520:

    496 Wireless Ad Hoc and Sensor Netw

  • Page 521 and 522:

    498 Wireless Ad Hoc and Sensor Netw

  • Page 523 and 524:

    500 Wireless Ad Hoc and Sensor Netw

  • Page 525 and 526:

    502 Wireless Ad Hoc and Sensor Netw

  • Page 527 and 528:

    504 Wireless Ad Hoc and Sensor Netw

  • Page 529 and 530:

    506 Wireless Ad Hoc and Sensor Netw

  • Page 531 and 532:

    508 Wireless Ad Hoc and Sensor Netw

  • Page 533 and 534:

    510 Wireless Ad Hoc and Sensor Netw

  • Page 535 and 536:

    512 Wireless Ad Hoc and Sensor Netw

  • Page 537:

    514 Wireless Ad Hoc and Sensor Netw

Security in Wireless Ad Hoc Networks
Ad hoc wireless Geosensor Networks (GSN) - Sektion Geoinformatik ...
Bluetooth—The universal radio interface for ad hoc, wireless ...
Wireless Sensor Networks - elektro
Sparse ad hoc networks for the desert - Ninti One
Ad Hoc Networks : Technologies and Protocols - University of ...
Ad-hoc and Infrastructured Networks Interconnection - INESC Porto
A Cluster-Based Security Architecture for Ad Hoc Network
Embedded platform for Wireless Sensor Networks
INTRODUCTION TO WIRELESS SENSOR NETWORKS - EsLaRed
An All-to-All Multicast Routing Protocol in a Wireless Ad-Hoc ...
INTRODUCTION TO WIRELESS SENSOR NETWORKS - EsLaRed
Multimedia Wireless Sensor Networks - LCN
Wireless Body Sensor Networks - CAPSIL
Practical Cryptography for Wireless Sensor Networks
Power Control and Clustering in Ad Hoc Networks
Distributed Computing in Mobile Ad Hoc Networks (1) Motivations ...
Self Powered Ad-Hoc Networks (SPAN) Perpetually ... - Millennial Net
Wireless sensor networks to control a smart house
An energy-efficient MAC protocol for wireless sensor networks.
Development of a wireless sensor network for engine rooms of vessels
RFID, Sensors, Wireless Network & ROI - The Logistics Institute ...