Mobility-Aware Seamless Handover with MPTCP in Software-Defined HetNets
Haonan Tong, Tao Wang, Yujiao Zhu, Xuanlin Liu, Sihua Wang, Changchuan Yin
https://arxiv.org/abs/2101.00678v1
REFERENCES
[1] A. Stamou, N. Dimitriou, K. Kontovasilis, and S. Papavassiliou, “Autonomic handover management for heterogeneous networks in a future internet context: A survey,” IEEE Commun. Surveys Tuts., vol. 21, no. 4, pp. 3274–3297, 4th Quart. 2019.
[2] P. Mahajan and P. Zaheeruddin, “Review paper on optimization of handover parameter in heterogeneous networks,” in Proc. of Int. Conf. Innov. Appl. Comput. Intell. Power, Energy Controls Impact Humanit. (CIPECH), Ghaziabad, India, Nov. 2018.
[3] System Architecture for the 5G System, document TS 23.501 ver.15.4.0 Release 15, 3GPP, Mar. 2019.
[4] A. Ben Cheikh, M. Ayari, R. Langar, G. Pujolle, and L. A. Saidane, “Optimized handoff with mobility prediction scheme using HMM for femtocell networks,” in Proc. of IEEE Int. Conf. Commun. (ICC), London, UK, Jun. 2015.
[5] J. Jeong, M. Leconte, and A. Proutiere, “Cluster-aided mobility predic- tions,” in Proc. of IEEE INFOCOM, San Francisco, CA, USA, Apr. 2016.
[6] P. Yang, X. Li, H. Ji, and H. Zhang, “A novel mobility prediction scheme for outdoor crowded scenario using fuzzy C-means,” in Proc. of IEEE Int. Symp. Person. Indoor Mobile Radio Commun. (PIMRC), Montreal, QC, Canada, Oct. 2017.
[7] M. Chen, M. Mozaffari, W. Saad, C. Yin, M. Debbah, and C. S. Hong, “Caching in the sky: Proactive deployment of cache-enabled unmanned aerial vehicles for optimized quality-of-experience,” IEEE J. Sel. Areas Commun., vol. 35, no. 5, pp. 1046–1061, May. 2017.
[8] Y. Zhu, J. Li, Q. Huang, and D. Wu, “Game theoretic approach for network access control in heterogeneous networks,” IEEE Trans. Veh. Technol., vol. 67, no. 10, pp. 9856–9866, Oct. 2018.
[9] J. Cui, D. Wu, and Z. Qin, “Caching AP selection and channel allo- cation in wireless caching networks: A binary concurrent interference minimizing game solution,” IEEE Access, vol. 6, pp. 54 516–54 526, Sep. 2018.
[10] A. Zhu, S. Guo, B. Liu, M. Ma, J. Yao, and X. Su, “Adaptive multiservice heterogeneous network selection scheme in mobile edge computing,” IEEE Internet Things J., vol. 6, no. 4, pp. 6862–6875, Aug. 2019.
[11] Z. Du, C. Wang, Y. Sun, and G. Wu, “Context-aware indoor VLC/RF heterogeneous network selection: Reinforcement learning with knowl- edge transfer,” IEEE Access, vol. 6, pp. 33 275–33 284, Jun. 2018.
[12] D.D.Nguyen,H.X.Nguyen,andL.B.White,“Reinforcementlearning with network-assisted feedback for heterogeneous RAT selection,” IEEE Trans. Wireless Commun., vol. 16, no. 9, pp. 6062–6076, Sep. 2017.
[13] M.Chen,U.Challita,W.Saad,C.Yin,andM.Debbah,“Artificialneural networks-based machine learning for wireless networks: A tutorial,” IEEE Commun. Surveys Tuts., vol. 21, no. 4, pp. 3039–3071, 4th Quart. 2019.
[14] Y.Xu,J.Chen,L.Ma,andG.Lang,“Q-learningbasednetworkselection for WCDMA/WLAN heterogeneous wireless networks,” in Proc. of IEEE Veh. Technol. Conf. (VTC Spring), Seoul, South Korea, May. 2014.
[15] N.Goel,N.Purohit,andB.R.Singh,“Anewschemefornetworkselec- tion in heterogeneous wireless network using fuzzy logic,” International Journal of Computer Applications, vol. 88, no. 3, pp. 1–5, Feb. 2014.
[16] M.AlkhawlaniandA.Ayesh,“Accessnetworkselectionbasedonfuzzy logic and genetic algorithms,” Advances in Artificial Intelligence, vol. 8, no. 1, Apr. 2008.
[17] H. Yu and B. Zhang, “A heterogeneous network selection algorithm based on network attribute and user preference,” Ad Hoc Networks, vol. 72, pp. 68–80, Apr. 2018.
[18] O. E. Falowo and H. A. Chan, “Multiple-call handover decisions using fuzzy mcgdm in heterogeneous wireless networks,” in Proc. of IEEE Mil. Commun. Conf. (MILCOM), Baltimore, MD, USA, Nov. 2011.
[19] R. Luo, S. Zhao, and Q. Zhu, “Network selection algorithm based on group decision making for heterogeneous wireless networks,” in Proc. of Int. Conf. Commun. Softw. Netw. (ICCSN), Guangzhou, China, May. 2017.
[20] H. Yu, Y. Ma, and J. Yu, “Network selection algorithm for multiservice multimode terminals in heterogeneous wireless networks,” IEEE Access, vol. 7, pp. 46 240–46 260, Apr. 2019.
[21] J. He, G. Zhang, Z. Li, and G. Xie, “Throughput guaranteed handoff for SDN-based WLAN in distinctive signal coverage,” in Proc. of IEEE Wireless Commun. Networking Conf. (WCNC), San Francisco, CA, USA, Mar. 2017.
[22] J. Lee and Y. Yoo, “Handover cell selection using user mobility infor- mation in a 5G SDN-based network,” in Proc. of Int. Conf. Ubiquitous Future Netw. (ICUFN), Milan, Italy, Jul. 2017.
[23] H. Zhang, W. Huang, and Y. Liu, “Handover probability analysis of anchor-based multi-connectivity in 5G user-centric network,” IEEE Wireless Commun. Lett., vol. 8, no. 2, pp. 396–399, Apr. 2018.
[24] L. Wang, Z. Lu, X. Wen, G. Cao, X. Xia, and L. Ma, “An SDN-based seamless convergence approach of WLAN and LTE networks,” in Proc. of IEEE Inf. Technol., Netw., Electron. Autom. Control Conf. (ITNEC), Chongqing, China, May. 2016.
[25] H.Sinky,B.Hamdaoui,andM.Guizani,“Seamlesshandoffsinwireless hetnets: Transport-layer challenges and multi-path TCP solutions with cross-layer awareness,” IEEE Network, vol. 33, no. 2, pp. 195–201, Jan. 2019.
[26] C. Paasch, G. Detal, F. Duchene, C. Raiciu, and O. Bonaventure, “Exploring mobile/WiFi handover with multipath TCP,” in Proc. of ACM SIGCOMM Workshop Cell. Networks: Oper., Challenges, Future Des., Helsinki, Finland, Aug. 2012.
[27] D. Yao, X. Su, B. Liu, and J. Zeng, “A mobile handover mechanism based on fuzzy logic and mptcp protocol under SDN architecture,” in Proc. of IEEE Int. Symp. Commun. Inf. Technol. (ISCIT), Bangkok, Thailand, Sep. 2018.
[28] H. Tong, X. Liu, and C. Yin, “A FAHP and MPTCP based seamless handover method in heterogeneous SDN wireless networks,” in Proc. of Int. Conf. Wirel. Commun. Signal Process. (WCSP), Xi’an, China, Oct. 2019.
[29] Q. De Coninck and O. Bonaventure, “Tuning multipath TCP for inter- active applications on smartphones,” in Proc. of IFIP Netw. Conf. IFIP Netw. Workshops, (IFIP Networking), Zurich, Switzerland, May. 2018.
[30] C. Paasch and O. Bonaventure, “Multipath tcp,” Commun. ACM, vol. 57, no. 4, p. 51–57, Apr. 2014. [Online]. Available: https: //doi.org/10.1145/2578901
[31] M. Condoluci, S. H. Johnson, V. Ayadurai, M. A. Lema, M. A. Cuevas, M. Dohler, and T. Mahmoodi, “Fixed-mobile convergence in the 5G era: From hybrid access to converged core,” IEEE Network, vol. 33, no. 2, pp. 138–145, Feb. 2019.
[32] A. Panda, S. K. Patra, and D. P. Acharya, “Received signal strength based vertical hand off scheme for k-tier heterogeneous networks,” in Proc. of Int. Conf. on Commun. Systems and Netw. Tech. (CSNT), Gwalior, India, Apr. 2013.
[33] S. Hochreiter and J. Schmidhuber, “Long short-term memory,” Neural computation, vol. 9, no. 8, pp. 1735–1780, Nov. 1997.
[34] A. Rodan and P. Tinˇo, “Simple deterministically constructed cycle reservoirs with regular jumps,” Neural computation, vol. 24, no. 7, pp. 1822–1852, Jul. 2012.
[35] U. D. Schiller and J. J. Steil, “Analyzing the weight dynamics of recurrent learning algorithms,” Neurocomputing, vol. 63, pp. 5–23, Jan. 2005.
[36] P. J. Van Laarhoven and W. Pedrycz, “A fuzzy extension of saaty’s priority theory,” Fuzzy sets and Systems, vol. 11, no. 1-3, pp. 229–241, 1983.
[37] A.Ford,C.Raiciu,M.J.Handley,andO.Bonaventure,“TCPExtensions for Multipath Operation with Multiple Addresses,” RFC 6824, no. 6824, Jan. 2013. [Online]. Available: https://rfc-editor.org/rfc/rfc6824.txt
[38] C. Paasch, S. Barre et al., “Multipath TCP in the Linux Kernel,” MultiPath TCP - Linux Kernel implementation, Aug. 2014. [Online]. Available: https://multipath-tcp.org/pmwiki.php/Users/ ConfigureMPTCP
[39] I.Rhee,M.Shin,S.Hong,K.Lee,S.Kim,andS.Chong,“CRAWDAD dataset ncsu/mobilitymodels (v. 2009-07-23),” Downloaded from https: //crawdad.org/ncsu/mobilitymodels/20090723, Jul. 2009.
[40] H. Jaeger., “Controlling recurrent neural networks by conceptors,” ArXiv, Mar. 2014. [Online]. Available: http://arxiv.org/abs/1403.3369
[41] J. Chung, C ̧aglar Gu ̈lc ̧ehre, K. Cho, and Y. Bengio, “Empirical evaluation of gated recurrent neural networks on sequence modeling,” ArXiv, Dec. 2014. [Online]. Available: http://arxiv.org/abs/1412.3555
[42] M. Mansouri and C. Leghris, “A use of fuzzy TOPSIS to improve the network selection in wireless multiaccess environments,” J. Comput. Networks Commun., vol. 2020, pp. 3 408 326:1–3 408 326:12, Jul. 2020.
[43] N. Kiran, C. Yin, and Z. Akram, “AP load balance based handover in software defined wifi systems,” in Proc. of IEEE Int. Conf. Netw. Infrastruct. Digit. Content. (IC-NIDC), Beijing, China, Sep. 2016.
[44] Z. Talukder, S. Islam, D. Mahjabeen, A. Ahmed, S. Rafique, and M. Rashid, “Cell coverage evaluation for lte and wimax in wireless com- munication system,” World Applied Sciences Journal, vol. 22, no. 10, pp. 1486–1491, 2013.
terms list
| no. | term | count |
|---|---|---|
| 1 | the | 632 |
| 2 | and | 244 |
| 3 | in | 237 |
| 4 | of | 236 |
| 5 | network | 190 |
| 6 | a | 163 |
| 7 | to | 156 |
| 8 | is | 145 |
| 9 | handover | 136 |
| 10 | for | 111 |
| 11 | with | 97 |
| 12 | mptcp | 96 |
| 13 | s | 88 |
| 14 | j | 85 |
| 15 | as | 84 |
| 16 | user | 76 |
| 17 | we | 65 |
| 18 | are | 60 |
| 19 | can | 55 |
| 20 | w | 55 |
| 21 | based | 53 |
| 22 | sdn | 53 |
| 23 | that | 50 |
| 24 | service | 49 |
| 25 | from | 48 |
| 26 | data | 47 |
| 27 | location | 46 |
| 28 | x | 46 |
| 29 | m | 45 |
| 30 | selection | 45 |
| 31 | by | 44 |
| 32 | networks | 43 |
| 33 | attributes | 42 |
| 34 | controller | 42 |
| 35 | mmt | 41 |
| 36 | fig | 40 |
| 37 | l | 40 |
| 38 | proposed | 38 |
| 39 | subflow | 37 |
| 40 | algorithm | 36 |
| 41 | model | 36 |
| 42 | this | 36 |
| 43 | esn | 35 |
| 44 | mobility | 34 |
| 45 | seamless | 34 |
| 46 | b | 32 |
| 47 | g | 32 |
| 48 | on | 32 |
| 49 | wlan | 32 |
| 50 | which | 31 |
| 51 | access | 30 |
| 52 | fahp | 29 |
| 53 | set | 29 |
| 54 | attribute | 28 |
| 55 | method | 27 |
| 56 | prediction | 27 |
| 57 | process | 27 |
| 58 | users | 27 |
| 59 | during | 26 |
| 60 | lte | 26 |
| 61 | where | 26 |
| 62 | be | 25 |
| 63 | fuzzy | 25 |
| 64 | h | 25 |
| 65 | locations | 24 |
| 66 | number | 23 |
| 67 | target | 23 |
| 68 | time | 23 |
| 69 | ieee | 22 |
| 70 | value | 22 |
| 71 | vol | 22 |
| 72 | an | 21 |
| 73 | ping | 21 |
| 74 | pong | 21 |
| 75 | subflows | 21 |
| 76 | table | 21 |
| 77 | through | 21 |
| 78 | matrix | 20 |
| 79 | multiple | 20 |
| 80 | n | 20 |
| 81 | no | 20 |
| 82 | pp | 20 |
| 83 | using | 20 |
| 84 | utility | 20 |
| 85 | weight | 20 |
| 86 | when | 20 |
| 87 | c | 19 |
| 88 | candidate | 19 |
| 89 | defined | 19 |
| 90 | different | 19 |
| 91 | moving | 19 |
| 92 | then | 19 |
| 93 | transmission | 19 |
| 94 | execution | 18 |
| 95 | mobile | 18 |
| 96 | u | 18 |
| 97 | vector | 18 |
| 98 | area | 17 |
| 99 | given | 17 |
| 100 | heterogeneous | 17 |
| 101 | new | 17 |
| 102 | one | 17 |
| 103 | qoe | 17 |
| 104 | between | 16 |
| 105 | k | 16 |
| 106 | proc | 16 |
| 107 | requirements | 16 |
| 108 | rss | 16 |
| 109 | tcp | 16 |
| 110 | wireless | 16 |
| 111 | commun | 15 |
| 112 | continuity | 15 |
| 113 | importance | 15 |
| 114 | preferences | 15 |
| 115 | session | 15 |
| 116 | throughputs | 15 |
| 117 | thus | 15 |
| 118 | v | 15 |
| 119 | according | 14 |
| 120 | f | 14 |
| 121 | hetnets | 14 |
| 122 | into | 14 |
| 123 | p | 14 |
| 124 | pattern | 14 |
| 125 | predicted | 14 |
| 126 | services | 14 |
| 127 | st | 14 |
| 128 | available | 13 |
| 129 | bandwidth | 13 |
| 130 | cost | 13 |
| 131 | coverage | 13 |
| 132 | delay | 13 |
| 133 | effect | 13 |
| 134 | i | 13 |
| 135 | next | 13 |
| 136 | path | 13 |
| 137 | reservoir | 13 |
| 138 | see | 13 |
| 139 | types | 13 |
| 140 | will | 13 |
| 141 | at | 12 |
| 142 | conf | 12 |
| 143 | future | 12 |
| 144 | historical | 12 |
| 145 | information | 12 |
| 146 | learning | 12 |
| 147 | mode | 12 |
| 148 | qos | 12 |
| 149 | sdhetnet | 12 |
| 150 | selected | 12 |
| 151 | simulation | 12 |
| 152 | t | 12 |
| 153 | type | 12 |
| 154 | algorithms | 11 |
| 155 | also | 11 |
| 156 | because | 11 |
| 157 | control | 11 |
| 158 | each | 11 |
| 159 | introduced | 11 |
| 160 | ip | 11 |
| 161 | loss | 11 |
| 162 | r | 11 |
| 163 | real | 11 |
| 164 | signaling | 11 |
| 165 | times | 11 |
| 166 | use | 11 |
| 167 | used | 11 |
| 168 | wl | 11 |
| 169 | works | 11 |
| 170 | d | 10 |
| 171 | determine | 10 |
| 172 | follows | 10 |
| 173 | functions | 10 |
| 174 | has | 10 |
| 175 | input | 10 |
| 176 | mechanism | 10 |
| 177 | more | 10 |
| 178 | moves | 10 |
| 179 | nin | 10 |
| 180 | output | 10 |
| 181 | paths | 10 |
| 182 | patterns | 10 |
| 183 | points | 10 |
| 184 | problem | 10 |
| 185 | shown | 10 |
| 186 | than | 10 |
| 187 | two | 10 |
| 188 | vertical | 10 |
| 189 | y | 10 |
| 190 | calculated | 9 |
| 191 | connected | 9 |
| 192 | convergence | 9 |
| 193 | decision | 9 |
| 194 | handovers | 9 |
| 195 | have | 9 |
| 196 | increases | 9 |
| 197 | int | 9 |
| 198 | jitter | 9 |
| 199 | mt | 9 |
| 200 | multipath | 9 |
| 201 | neurons | 9 |
| 202 | nrmse | 9 |
| 203 | our | 9 |
| 204 | predict | 9 |
| 205 | priority | 9 |
| 206 | rate | 9 |
| 207 | recurrent | 9 |
| 208 | scheduler | 9 |
| 209 | state | 9 |
| 210 | ap | 8 |
| 211 | architecture | 8 |
| 212 | both | 8 |
| 213 | cn | 8 |
| 214 | collected | 8 |
| 215 | compared | 8 |
| 216 | coordinates | 8 |
| 217 | establish | 8 |
| 218 | fi | 8 |
| 219 | however | 8 |
| 220 | long | 8 |
| 221 | lstm | 8 |
| 222 | manager | 8 |
| 223 | manner | 8 |
| 224 | metric | 8 |
| 225 | not | 8 |
| 226 | or | 8 |
| 227 | propose | 8 |
| 228 | respectively | 8 |
| 229 | scenario | 8 |
| 230 | sdhetnets | 8 |
| 231 | sl | 8 |
| 232 | small | 8 |
| 233 | system | 8 |
| 234 | triggered | 8 |
| 235 | while | 8 |
| 236 | apr | 7 |
| 237 | aware | 7 |
| 238 | base | 7 |
| 239 | connection | 7 |
| 240 | considered | 7 |
| 241 | denotes | 7 |
| 242 | gru | 7 |
| 243 | iii | 7 |
| 244 | iv | 7 |
| 245 | liu | 7 |
| 246 | may | 7 |
| 247 | netw | 7 |
| 248 | paper | 7 |
| 249 | parameters | 7 |
| 250 | period | 7 |
| 251 | preference | 7 |
| 252 | probability | 7 |
| 253 | relative | 7 |
| 254 | resources | 7 |
| 255 | select | 7 |
| 256 | show | 7 |
| 257 | such | 7 |
| 258 | these | 7 |
| 259 | trajectory | 7 |
| 260 | transmit | 7 |
| 261 | umts | 7 |
| 262 | values | 7 |
| 263 | video | 7 |
| 264 | voice | 7 |
| 265 | web | 7 |
| 266 | after | 6 |
| 267 | all | 6 |
| 268 | among | 6 |
| 269 | bupt | 6 |
| 270 | conditions | 6 |
| 271 | connections | 6 |
| 272 | considering | 6 |
| 273 | criteria | 6 |
| 274 | denoted | 6 |
| 275 | diverse | 6 |
| 276 | edu | 6 |
| 277 | errors | 6 |
| 278 | experience | 6 |
| 279 | first | 6 |
| 280 | fj | 6 |
| 281 | ftopsis | 6 |
| 282 | higher | 6 |
| 283 | ii | 6 |
| 284 | interface | 6 |
| 285 | management | 6 |
| 286 | mcgdm | 6 |
| 287 | neural | 6 |
| 288 | ns | 6 |
| 289 | obtained | 6 |
| 290 | online | 6 |
| 291 | org | 6 |
| 292 | plane | 6 |
| 293 | quality | 6 |
| 294 | represent | 6 |
| 295 | represents | 6 |
| 296 | results | 6 |
| 297 | section | 6 |
| 298 | sequence | 6 |
| 299 | signal | 6 |
| 300 | simultaneously | 6 |
| 301 | software | 6 |
| 302 | strategies | 6 |
| 303 | term | 6 |
| 304 | tfn | 6 |
| 305 | throughput | 6 |
| 306 | training | 6 |
| 307 | transitory | 6 |
| 308 | uses | 6 |
| 309 | variable | 6 |
| 310 | wang | 6 |
| 311 | way | 6 |
| 312 | weights | 6 |
| 313 | wimax | 6 |
| 314 | work | 6 |
| 315 | yin | 6 |
| 316 | z | 6 |
| 317 | al | 5 |
| 318 | approach | 5 |
| 319 | arxiv | 5 |
| 320 | authors | 5 |
| 321 | beijing | 5 |
| 322 | capability | 5 |
| 323 | case | 5 |
| 324 | china | 5 |
| 325 | consider | 5 |
| 326 | conventional | 5 |
| 327 | dbm | 5 |
| 328 | determined | 5 |
| 329 | distance | 5 |
| 330 | distributed | 5 |
| 331 | echo | 5 |
| 332 | flow | 5 |
| 333 | fullmesh | 5 |
| 334 | guaranteeing | 5 |
| 335 | highest | 5 |
| 336 | how | 5 |
| 337 | it | 5 |
| 338 | its | 5 |
| 339 | km | 5 |
| 340 | li | 5 |
| 341 | maintains | 5 |
| 342 | methods | 5 |
| 343 | mmts | 5 |
| 344 | normalized | 5 |
| 345 | o | 5 |
| 346 | only | 5 |
| 347 | order | 5 |
| 348 | original | 5 |
| 349 | originally | 5 |
| 350 | other | 5 |
| 351 | out | 5 |
| 352 | packet | 5 |
| 353 | packets | 5 |
| 354 | pairwise | 5 |
| 355 | performance | 5 |
| 356 | periodically | 5 |
| 357 | pk | 5 |
| 358 | point | 5 |
| 359 | presented | 5 |
| 360 | ptb | 5 |
| 361 | q | 5 |
| 362 | runs | 5 |
| 363 | scheme | 5 |
| 364 | si | 5 |
| 365 | station | 5 |
| 366 | trained | 5 |
| 367 | wifi | 5 |
| 368 | zhu | 5 |
| 369 | above | 4 |
| 370 | analysis | 4 |
| 371 | applied | 4 |
| 372 | avoid | 4 |
| 373 | avoiding | 4 |
| 374 | bonaventure | 4 |
| 375 | caused | 4 |
| 376 | combines | 4 |
| 377 | computation | 4 |
| 378 | condition | 4 |
| 379 | connect | 4 |
| 380 | cross | 4 |
| 381 | decisions | 4 |
| 382 | deployment | 4 |
| 383 | discovery | 4 |
| 384 | dsm | 4 |
| 385 | dsn | 4 |
| 386 | established | 4 |
| 387 | every | 4 |
| 388 | formulation | 4 |
| 389 | framework | 4 |
| 390 | full | 4 |
| 391 | game | 4 |
| 392 | guarantee | 4 |
| 393 | guaranteed | 4 |
| 394 | here | 4 |
| 395 | https | 4 |
| 396 | ij | 4 |
| 397 | indicates | 4 |
| 398 | indoor | 4 |
| 399 | intermediate | 4 |
| 400 | jan | 4 |
| 401 | jul | 4 |
| 402 | logic | 4 |
| 403 | ma | 4 |
| 404 | making | 4 |
| 405 | memory | 4 |
| 406 | mj | 4 |
| 407 | models | 4 |
| 408 | moment | 4 |
| 409 | move | 4 |
| 410 | movement | 4 |
| 411 | multiservice | 4 |
| 412 | ntr | 4 |
| 413 | offline | 4 |
| 414 | overlapped | 4 |
| 415 | peers | 4 |
| 416 | potential | 4 |
| 417 | power | 4 |
| 418 | problems | 4 |
| 419 | protocol | 4 |
| 420 | radius | 4 |
| 421 | received | 4 |
| 422 | reduce | 4 |
| 423 | reliable | 4 |
| 424 | rfc | 4 |
| 425 | ri | 4 |
| 426 | rt | 4 |
| 427 | seconds | 4 |
| 428 | sep | 4 |
| 429 | several | 4 |
| 430 | short | 4 |
| 431 | shows | 4 |
| 432 | situation | 4 |
| 433 | ssn | 4 |
| 434 | stage | 4 |
| 435 | subsection | 4 |
| 436 | technol | 4 |
| 437 | terminated | 4 |
| 438 | th | 4 |
| 439 | theory | 4 |
| 440 | three | 4 |
| 441 | transmitted | 4 |
| 442 | trigger | 4 |
| 443 | ui | 4 |
| 444 | under | 4 |
| 445 | vt | 4 |
| 446 | world | 4 |
| 447 | zhang | 4 |
| 448 | account | 3 |
| 449 | adapt | 3 |
| 450 | advanced | 3 |
| 451 | analytic | 3 |
| 452 | analyzed | 3 |
| 453 | any | 3 |
| 454 | apply | 3 |
| 455 | assume | 3 |
| 456 | aug | 3 |
| 457 | benefit | 3 |
| 458 | but | 3 |
| 459 | caching | 3 |
| 460 | cell | 3 |
| 461 | cellular | 3 |
| 462 | challenges | 3 |
| 463 | change | 3 |
| 464 | channel | 3 |
| 465 | chart | 3 |
| 466 | chen | 3 |
| 467 | cj | 3 |
| 468 | clearly | 3 |
| 469 | combination | 3 |
| 470 | command | 3 |
| 471 | communication | 3 |
| 472 | constant | 3 |
| 473 | constructed | 3 |
| 474 | covers | 3 |
| 475 | crawdad | 3 |
| 476 | decide | 3 |
| 477 | default | 3 |
| 478 | deviation | 3 |
| 479 | dimensional | 3 |
| 480 | divert | 3 |
| 481 | e | 3 |
| 482 | equipped | 3 |
| 483 | establishes | 3 |
| 484 | experiment | 3 |
| 485 | extract | 3 |
| 486 | extracted | 3 |
| 487 | fading | 3 |
| 488 | fixed | 3 |
| 489 | flows | 3 |
| 490 | following | 3 |
| 491 | form | 3 |
| 492 | function | 3 |
| 493 | fuzzydecision | 3 |
| 494 | fw | 3 |
| 495 | gaussian | 3 |
| 496 | group | 3 |
| 497 | handle | 3 |
| 498 | hidden | 3 |
| 499 | http | 3 |
| 500 | huge | 3 |
| 501 | ifip | 3 |
| 502 | improve | 3 |
| 503 | improves | 3 |
| 504 | instruct | 3 |
| 505 | instructed | 3 |
| 506 | kaist | 3 |
| 507 | kernel | 3 |
| 508 | key | 3 |
| 509 | korea | 3 |
| 510 | layer | 3 |
| 511 | lg | 3 |
| 512 | line | 3 |
| 513 | link | 3 |
| 514 | linux | 3 |
| 515 | located | 3 |
| 516 | low | 3 |
| 517 | macro | 3 |
| 518 | make | 3 |
| 519 | managing | 3 |
| 520 | mar | 3 |
| 521 | mean | 3 |
| 522 | mininet | 3 |
| 523 | moreover | 3 |
| 524 | multi | 3 |
| 525 | note | 3 |
| 526 | nov | 3 |
| 527 | numbers | 3 |
| 528 | oct | 3 |
| 529 | paasch | 3 |
| 530 | parameter | 3 |
| 531 | predictions | 3 |
| 532 | predicts | 3 |
| 533 | prefered | 3 |
| 534 | preferred | 3 |
| 535 | proactive | 3 |
| 536 | ptw | 3 |
| 537 | quantify | 3 |
| 538 | rank | 3 |
| 539 | realized | 3 |
| 540 | recognized | 3 |
| 541 | redundant | 3 |
| 542 | removed | 3 |
| 543 | represented | 3 |
| 544 | required | 3 |
| 545 | requires | 3 |
| 546 | rm | 3 |
| 547 | rw | 3 |
| 548 | samples | 3 |
| 549 | scenarios | 3 |
| 550 | sends | 3 |
| 551 | server | 3 |
| 552 | simulations | 3 |
| 553 | solve | 3 |
| 554 | specified | 3 |
| 555 | ss | 3 |
| 556 | standard | 3 |
| 557 | statistical | 3 |
| 558 | still | 3 |
| 559 | strength | 3 |
| 560 | structure | 3 |
| 561 | studied | 3 |
| 562 | suitable | 3 |
| 563 | systems | 3 |
| 564 | terms | 3 |
| 565 | their | 3 |
| 566 | tong | 3 |
| 567 | transfer | 3 |
| 568 | ul | 3 |
| 569 | units | 3 |
| 570 | usa | 3 |
| 571 | variables | 3 |
| 572 | various | 3 |
| 573 | vary | 3 |
| 574 | vectors | 3 |
| 575 | vi | 3 |
| 576 | vj | 3 |
| 577 | were | 3 |
| 578 | within | 3 |
| 579 | wu | 3 |
| 580 | yu | 3 |
| 581 | abs | 2 |
| 582 | accuracy | 2 |
| 583 | achieve | 2 |
| 584 | achieving | 2 |
| 585 | acm | 2 |
| 586 | across | 2 |
| 587 | actual | 2 |
| 588 | addresses | 2 |
| 589 | against | 2 |
| 590 | aided | 2 |
| 591 | aij | 2 |
| 592 | allocation | 2 |
| 593 | alternatively | 2 |
| 594 | amf | 2 |
| 595 | anchor | 2 |
| 596 | another | 2 |
| 597 | application | 2 |
| 598 | applications | 2 |
| 599 | appropriate | 2 |
| 600 | areas | 2 |
| 601 | artificial | 2 |
| 602 | become | 2 |
| 603 | been | 2 |
| 604 | best | 2 |
| 605 | browsing | 2 |
| 606 | ca | 2 |
| 607 | cache | 2 |
| 608 | calculation | 2 |
| 609 | called | 2 |
| 610 | cannot | 2 |
| 611 | carrier | 2 |
| 612 | casually | 2 |
| 613 | causes | 2 |
| 614 | centric | 2 |
| 615 | cluster | 2 |
| 616 | coefficients | 2 |
| 617 | collect | 2 |
| 618 | collects | 2 |
| 619 | combining | 2 |
| 620 | communicate | 2 |
| 621 | compare | 2 |
| 622 | completed | 2 |
| 623 | comprehensive | 2 |
| 624 | comput | 2 |
| 625 | concretely | 2 |
| 626 | configuration | 2 |
| 627 | configures | 2 |
| 628 | connectivity | 2 |
| 629 | connects | 2 |
| 630 | consists | 2 |
| 631 | constraints | 2 |
| 632 | content | 2 |
| 633 | context | 2 |
| 634 | contributions | 2 |
| 635 | controlling | 2 |
| 636 | cooperation | 2 |
| 637 | corresponding | 2 |
| 638 | creates | 2 |
| 639 | crowd | 2 |
| 640 | cycle | 2 |
| 641 | dataflow | 2 |
| 642 | dataset | 2 |
| 643 | db | 2 |
| 644 | debbah | 2 |
| 645 | decays | 2 |
| 646 | declares | 2 |
| 647 | decrease | 2 |
| 648 | decreases | 2 |
| 649 | definition | 2 |
| 650 | description | 2 |
| 651 | detailed | 2 |
| 652 | dw | 2 |
| 653 | efficaciously | 2 |
| 654 | epoches | 2 |
| 655 | error | 2 |
| 656 | errorsfahpmcgdmftopsisfahp | 2 |
| 657 | especially | 2 |
| 658 | establishing | 2 |
| 659 | evaluation | 2 |
| 660 | evenly | 2 |
| 661 | executed | 2 |
| 662 | executes | 2 |
| 663 | existing | 2 |
| 664 | extension | 2 |
| 665 | extracting | 2 |
| 666 | fades | 2 |
| 667 | failure | 2 |
| 668 | feb | 2 |
| 669 | fits | 2 |
| 670 | fluctuations | 2 |
| 671 | focused | 2 |
| 672 | fr | 2 |
| 673 | francisco | 2 |
| 674 | frequency | 2 |
| 675 | frequent | 2 |
| 676 | further | 2 |
| 677 | gated | 2 |
| 678 | generally | 2 |
| 679 | give | 2 |
| 680 | handoff | 2 |
| 681 | he | 2 |
| 682 | hierarchy | 2 |
| 683 | high | 2 |
| 684 | hong | 2 |
| 685 | hour | 2 |
| 686 | huang | 2 |
| 687 | human | 2 |
| 688 | if | 2 |
| 689 | illustrate | 2 |
| 690 | improving | 2 |
| 691 | inclined | 2 |
| 692 | independent | 2 |
| 693 | index | 2 |
| 694 | india | 2 |
| 695 | indicating | 2 |
| 696 | inf | 2 |
| 697 | infer | 2 |
| 698 | initialize | 2 |
| 699 | initiate | 2 |
| 700 | inputs | 2 |
| 701 | instantaneous | 2 |
| 702 | institute | 2 |
| 703 | instructs | 2 |
| 704 | interfaces | 2 |
| 705 | internet | 2 |
| 706 | interruption | 2 |
| 707 | interval | 2 |
| 708 | introduce | 2 |
| 709 | introduction | 2 |
| 710 | issues | 2 |
| 711 | iteration | 2 |
| 712 | ji | 2 |
| 713 | jointly | 2 |
| 714 | journal | 2 |
| 715 | jun | 2 |
| 716 | knowledge | 2 |
| 717 | laboratory | 2 |
| 718 | larger | 2 |
| 719 | lee | 2 |
| 720 | limit | 2 |
| 721 | limited | 2 |
| 722 | linear | 2 |
| 723 | load | 2 |
| 724 | lower | 2 |
| 725 | lowest | 2 |
| 726 | machine | 2 |
| 727 | maintain | 2 |
| 728 | many | 2 |
| 729 | map | 2 |
| 730 | marked | 2 |
| 731 | markov | 2 |
| 732 | matrices | 2 |
| 733 | meanwhile | 2 |
| 734 | measured | 2 |
| 735 | mhz | 2 |
| 736 | mi | 2 |
| 737 | min | 2 |
| 738 | mobilitymodels | 2 |
| 739 | modular | 2 |
| 740 | ms | 2 |
| 741 | multimode | 2 |
| 742 | ncsu | 2 |
| 743 | networking | 2 |
| 744 | nguyen | 2 |
| 745 | notations | 2 |
| 746 | novel | 2 |
| 747 | obstacles | 2 |
| 748 | obtain | 2 |
| 749 | optimized | 2 |
| 750 | outdoor | 2 |
| 751 | packages | 2 |
| 752 | perception | 2 |
| 753 | pn | 2 |
| 754 | predicting | 2 |
| 755 | proactively | 2 |
| 756 | provides | 2 |
| 757 | quart | 2 |
| 758 | raiciu | 2 |
| 759 | random | 2 |
| 760 | randomly | 2 |
| 761 | range | 2 |
| 762 | ranking | 2 |
| 763 | raw | 2 |
| 764 | realizes | 2 |
| 765 | realizing | 2 |
| 766 | receiving | 2 |
| 767 | recent | 2 |
| 768 | reciprocal | 2 |
| 769 | reducing | 2 |
| 770 | region | 2 |
| 771 | regression | 2 |
| 772 | reinforcement | 2 |
| 773 | related | 2 |
| 774 | relationship | 2 |
| 775 | relatively | 2 |
| 776 | resilience | 2 |
| 777 | rnn | 2 |
| 778 | robust | 2 |
| 779 | rrs | 2 |
| 780 | rtt | 2 |
| 781 | run | 2 |
| 782 | saad | 2 |
| 783 | same | 2 |
| 784 | san | 2 |
| 785 | satisfies | 2 |
| 786 | save | 2 |
| 787 | scale | 2 |
| 788 | science | 2 |
| 789 | second | 2 |
| 790 | selecting | 2 |
| 791 | send | 2 |
| 792 | shadow | 2 |
| 793 | sigmoid | 2 |
| 794 | signalnetwork | 2 |
| 795 | simple | 2 |
| 796 | simulate | 2 |
| 797 | simultaneous | 2 |
| 798 | single | 2 |
| 799 | so | 2 |
| 800 | solution | 2 |
| 801 | space | 2 |
| 802 | specifically | 2 |
| 803 | speed | 2 |
| 804 | stations | 2 |
| 805 | steady | 2 |
| 806 | strong | 2 |
| 807 | su | 2 |
| 808 | surveys | 2 |
| 809 | switches | 2 |
| 810 | symp | 2 |
| 811 | take | 2 |
| 812 | technology | 2 |
| 813 | telecommunications | 2 |
| 814 | terminals | 2 |
| 815 | tfns | 2 |
| 816 | therefore | 2 |
| 817 | threshold | 2 |
| 818 | topsis | 2 |
| 819 | train | 2 |
| 820 | trans | 2 |
| 821 | tuts | 2 |
| 822 | ubiquitous | 2 |
| 823 | uj | 2 |
| 824 | uniformly | 2 |
| 825 | unlike | 2 |
| 826 | up | 2 |
| 827 | upload | 2 |
| 828 | utilization | 2 |
| 829 | variation | 2 |
| 830 | varies | 2 |
| 831 | veh | 2 |
| 832 | wastes | 2 |
| 833 | without | 2 |
| 834 | would | 2 |
| 835 | ws | 2 |
| 836 | xt | 2 |
| 837 | xuanlin | 2 |
| 838 | yao | 2 |
| 839 | yields | 2 |
| 840 | yt | 2 |
| 841 | zero | 2 |
| - | - | 1 |
| 合計 | 1627 | 9625 |
合計は、出現数が1を含み、この表だけの合計ではない。