[1] |
沈大刚 . 一种新型智能配电终端的设计与研究[J]. 电气工程学报, 2016,11(6): 48-54.
|
|
SHEN D G . Design and research of a new type of intelligent power distribution terminal[J]. Chinese Journal of Electrical Engineering, 2016,11(6): 48-54.
|
[2] |
马钊, 安婷, 尚宇炜 . 国内外配电前沿技术动态及发展[J]. 中国电机工程学报, 2016,36(6): 1552-1567.
|
|
MA Z , AN T , SHANG Y W . State of the art and development trends of power distribution technologies[J]. Proceedings of the Chinese Society for Electrical Engineering, 2016,36(6): 1552-1567.
|
[3] |
陆一鸣, 刘东, 柳劲松 ,等. 智能配电网信息集成需求及模型分析[J]. 电力系统自动化, 2010,34(8): 1-4.
|
|
LU Y M , LIU D , LIU J S ,et al. Information integration demand and model analysis for smart distribution grid[J]. Automation of Electric Power Systems, 2010,34(8): 1-4.
|
[4] |
盛洁, 唐良瑞, 郝建红 . 智能配电环境感知融合网络的研究[J]. 电力系统保护与控制, 2011,39(24): 127-131.
|
|
SHENG J , TANG L R , HAO J H . Research of ambient composite networks towards the smart distribution grid[J]. Power System Protection and Control, 2011,39(24): 127-131.
|
[5] |
JO H S , SANG Y J , XIA P ,et al. Heterogeneous cellular networks with flexible cell association:a comprehensive downlink SINR analysis[J]. IEEE Transactions on Wireless Communications, 2011,11(10): 3484-3495.
|
[6] |
朱思峰, 刘芳, 柴争义 . 基于免疫计算的TD-SCDMA网络基站选址优化[J]. 通信学报, 2011,32(1): 106-110.
|
|
ZHU S F , LIU F , CHAI Z Y . Immune computing-based base station location planning in the TD-SCDMA network[J]. Journal on Communications, 2011,32(1): 106-110.
|
[7] |
张英杰, 毛赐平, 俎云霄 ,等. 基于免疫算法的 TD-SCDMA网络基站选址优化[J]. 通信学报, 2014,35(5): 44-48.
|
|
ZHANG Y J , MAO C P , ZU Y X ,et al. Immune algorithm-based base station location optimization in the TD-SCDMA network[J]. Journal on Communications, 2014,35(5): 44-48.
|
[8] |
LI X , ZHANG X , WANG W . An energy-efficient cell planning strategy for heterogeneous network based on realistic traffic data[C]// 2014 International Conference on Computing,Management and Telecommunications,April 27-29,2014,Da Nang,Vietnam. New Jersey:IEEE Press, 2014: 122-127.
|
[9] |
WANG S , ZHAO W , WANG C . Budgeted cell planning for cellular networks with small cells[J]. IEEE Transactions on Vehicular Technology, 2015,64(10): 4797-4806.
|
[10] |
SAPPIDI R , MOSHARRAFDEHKORDI S , ROSENBERG C ,et al. Planning for small cells in a cellular network:why it is worth it[C]// Wireless Communications and Networking Conference,April 6-9,2014,Istanbul,Turkey. New Jersey:IEEE Press, 2014: 2277-2282.
|
[11] |
ZHAO W , WANG S , WANG C ,et al. Cell planning for heterogeneous networks:An approximation algorithm[C]// IEEE Conference on Computer Communications,April 17-May 2,2014,Toronto,Canada. New Jersey:IEEE Press, 2014: 1087-1095.
|
[12] |
MAPLE C , GUO L , ZHANG J . Parallel genetic algorithms for third generation mobile network planning[C]// International Conference on Parallel Computing in Electrical Engineering,September 7-10,2004,Dresden,Germany. New Jersey:IEEE Press, 2004: 229-236.
|
[13] |
张连文, 夏人伟 . Pareto最优解及其优化算法[J]. 北京航空航天大学学报, 1997(2): 206-211.
|
|
ZHANG L W , XIA R W . Pareto optimal solution and optimization method[J]. Journal of Beijing University of Aeronautics and Astronautics, 1997(2): 206-211.
|
[14] |
赵波, 王财胜, 周金辉 ,等. 主动配电网现状与未来发展[J]. 电力系统自动化, 2014,38(18): 125-135.
|
|
ZHAO B , WANG C S , ZHOU J H ,et al. Present and future trend of active distribution network[J]. Automation of Electric Power Systems, 2014,38(18): 125-135.
|
[15] |
周逸凡, 赵志峰, 张宏纲 . 基于智能SDN面向5G的异构蜂窝网络架构[J]. 电信科学, 2016,32(6): 28-35.
|
|
SHOU Y F , ZHAO Z F , ZHANG H G . Towards 5G:heterogeneous cellular network architecture design based on intelligent SDN paradigm[J]. Telecommunications Science, 2016,32(6): 28-35.
|
[16] |
张建敏, 谢伟良, 杨峰义 . 5G超密集组网网络架构及实现[J]. 电信科学, 2016,32(6): 36-43.
|
|
ZHANG J M , XIE W L , YANG F Y . Architecture and solutions of 5G ultra dense network[J]. Telecommunications Science, 2016,32(6): 36-43.
|
[17] |
刘宜明, 李曦, 纪红 . 面向5G超密集场景下的网络自组织关键技术[J]. 电信科学, 2016,32(6): 44-51.
|
|
LIU Y M , LI X , JI H . Key technology of network self-organization in 5G ultra-dense scenario[J]. Telecommunications Science, 2016,32(6): 44-51.
|