Telecommunications Science ›› 2017, Vol. 33 ›› Issue (6): 41-53.doi: 10.11959/j.issn.1000-0801.2017118
• Topic:5G • Previous Articles Next Articles
Jinkun CHENG1,Wei CHEN1,Yuanming SHI2
Revised:
2017-04-28
Online:
2017-06-01
Published:
2017-06-27
Supported by:
CLC Number:
Jinkun CHENG,Wei CHEN,Yuanming SHI. Computational communication for three-dimensional dense coverage in 5G systems:architecture,approach and gain[J]. Telecommunications Science, 2017, 33(6): 41-53.
[1] | 陈巍, 王东明, 王家恒 ,等. 密集立体覆盖:未来移动通信的机遇和挑战[J]. 电信科学, 2013,29(6): 2-9. |
CHEN W , WANG D M , WANG J H ,et al. 3-dimensional dense coverage:opportunities and challenges for future mobile communications[J]. Telecommunications Science, 2013,29(6): 2-9. | |
[2] | CHEN S , QIN F , HU B ,et al. User-centric ultra-dense networks for 5G:challenges,methodologies,and directions[J]. IEEE Wireless Communications, 2016,23(2): 78-85. |
[3] | China Mobile Research Institute C-RAN:the road towards green RAN[R/OL].(2011-10-01)[2017-04-05]. . |
[4] | 雷秋燕, 张治中, 程方 ,等. 基于 C-RAN 的 5G 无线接入网架构[J]. 电信科学, 2015,31(1): 112-121. |
LEI Q Y , ZHANG Z Z , CHENG F ,et al. 5G radio access network architecture based on C-RAN[J]. Telecommunications Science, 2015,31(1): 112-121. | |
[5] | 尹博南, 艾元, 彭木根 . 雾无线接入网:架构、原理和挑战[J]. 电信科学, 2016,32(6): 20-27. |
YIN B N , AI Y , PENG M G . Fog computing based radio access networks:architecture,principles and challenges[J]. Telecommunications Science, 2016,32(6): 20-27. | |
[6] | SHI Y , ZHANG J , LETAIEF K B ,et al. Large scale convex optimization for ultra-dense Cloud-RAN[J]. IEEE Wireless Communications, 2015,22(6): 84-91. |
[7] | 张建敏, 谢伟良, 杨峰义 ,等. 移动边缘计算技术及其本地分流方案[J]. 电信科学, 2016,32(7): 132-139. |
ZHANG J M , XIE W L , YANG F Y ,et al. Mobile edge computing and application in traffic offloading[J]. Telecommunications Science, 2016,32(7): 132-139. | |
[8] | WHITE T . Hadoop:the definitive guide,4th edition[M]. Sebastopol CA: O’Reilly MediaPress, 2015. |
[9] | ZAHARIA M , CHOWDHURY M , FRANKLIN M J ,et al. Spark:cluster computing with working sets[C]// Usenix Conference on Hot Topics in Cloud Computing,June 22-25,2010,Boston,USA. New York:ACM Press, 2010:10. |
[10] | SEIDEL S Y , RAPPORT T S . Site-specific propagation prediction for wireless in-building personal communication system design[J]. IEEE Transactions on Vehicular Technology, 1994,43(4): 879-891. |
[11] | TAFLOVE A . Computational electrodynamics:The finite-difference time-domain method[M]. Norwood MA: Artech HousePress, 1995. |
[12] | BLAHUT R E . Computation of channel capacity and rate-distortion functions[J]. IEEE Transactions on Information Theory, 1972,18(4): 460-473. |
[13] | ARIMOTO S . An algorithm for computing the capacity of arbitrary discrete memoryless channels[J]. IEEE Transactions on Information Theory, 1972,18(1): 14-20. |
[14] | CHENG J , SHI Y , BAI B ,et al. Group sparse beamforming for multicast green Cloud-RAN via parallel semidefinite programming[C]// IEEE International Conference on Communications (ICC),June 8-12,2015,London,UK. New Jersey:IEEE Press, 2015: 1886-1891. |
[15] | DEAN J , GHEMAWAT S . Mapreduce:simplified data processing on large clusters[C]// Conference on Symposium on Operating System Design & Implementation (OSDI),December 6-8,2004,San Francisco,USA. New York:ACM Press, 2004: 137-150. |
[16] | BOYD S , PARIKH N , CHU E ,et al. Distributed optimization and statistical learning via the alternating direction method of multipliers[J]. Foundations and Trends in Machine Learning, 2011,3(1): 1-122. |
[17] | DONOGHUE B , CHU E , PARIKH N ,et al. Conic optimization via operator splitting and homogeneous self-dual embedding[J]. Journal of Optimization and Application, 2013,169(3): 1-27. |
[18] | TSE D , VISWANATH P . Fundamentals of wireless communications[M]. Cambridge: Cambridge University PressPress, 2005. |
[19] | DUMANLI S , RAILTON C J , PAUL D L . FDTD channel modeling with time domain huygens’ technique[C]// European Conference on Antenna & Propagation (EUCAP),April 11-15,2011,Rome,Italy. New Jersey:IEEE Press, 2011: 86-89. |
[20] | ATHANASIADOU G E , NIX A R , MCGEEHAN J P . A microcellular ray-tracing propagation model and evaluation of its narrow-band and wide-band predictions[J]. IEEE Journal on Selected Areas in Communications, 2000,18(3): 332-335. |
[21] | AZPILICUETA L , RAWAT M , RAWAT K ,et al. A ray launching-neural network approach for radio wave propagation analysis in complex indoor environment[J]. IEEE Transactions on Antennas and Propagation, 2014,62(5): 2777-2786. |
[22] | KOUYOUMJIAN R G , PATHAK P H . A uniform geometric theory of diffraction for an edge on a perfectly conducting surface[J]. Proceedings of the IEEE, 1974,62(11): 1448-1461. |
[23] | GOLDSMITH A . Wireless communications[M]. Cambridge: Cambridge University PressPress, 2005. |
[24] | DAUWELS J , . Numerical computation of the capacity of continuous memoryless channels[C]// Symposium on Information Theory,May 19-20,2005,Benelux,Belgium.[S.l.:s.n. ], 2005: 221-228. |
[25] | OECHTERING T , SKOGLUND M . Bidirectional broadcast channel with random states noncausally known at the encoder[J]. IEEE Transactions on Information Theory, 2013,59(1): 64-75. |
[26] | AVESTIMEHR A S , DIGGAVI S N , TSE D N C . Wireless network information flow:a deterministic approach[J]. IEEE Transactions on Information Theory, 2011,57(4): 1872-1905. |
[27] | YEUNG R W . A framework for linear information inequalities[J]. IEEE Transactions on Information Theory, 1997,43(6): 1924-1934. |
[28] | HAN I , MALIOUTOV D , SHIN J . Large-scale log-determinant computation through stochastic chebyshev expansions[J]. Computer Science, 2015: 908-917. |
[29] | DAHROUJ H , YU W . Coordinated beamforming for the multicell multi-antenna wireless system[J]. IEEE Transactions on Wireless Communications, 2010,9(5): 1748-1759. |
[30] | ZHOU X , BAI B , CHEN W . Antenna selection in energy efficient MIMO:a survey[J]. China Communications, 2015,12(9): 162-173. |
[31] | DAI B , YU W . Sparse beamforming and user-centric clustering for downlink cloud radio access network[J]. IEEE Access, 2014(2): 1326-1339. |
[32] | CHEN W . CAO-SIR:channel aware ordered successive relaying[J]. IEEE Transactions on Wireless Communications, 2014,13(12): 6513-6527. |
[33] | LUO Z , MA W , SO A M ,et al. Semidefinite relaxation of quadratic optimization problems[J]. IEEE Transactions on Signal Processing Magazine, 2010,27(3): 20-34. |
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