«Previous Article|Table of Contents|Next Article»

《南京师大学报（自然科学版）》[ISSN:1001-4616/CN:32-1239/N]

Issue:

2015年04期

Page:

113-

Research Field:

物理学

Publishing date:

Info

Title:

Simulation and Analysis of Outdoor Cellular NetworkPropagation Characteristics Based on UTD

Author(s):

Yan Xi; Liu Yuanjian

College of Electronic Science and Engineering，Nanjing University of Posts & Telecommunications，Nanjing 210003，China

Keywords:

28 GHz; 5G; uniform theory of diffraction; mm-wave cellular network; propagation characteristics

PACS:

TN011

DOI:

-

Abstract:

At the mm-wave bands of 28 GHz，unlike at 60 GHz，atmospheric absorption does not significantly contribute to additional path loss，making it suitable for next generation cellular network outdoor mobile communications. The characteristics of radio wave propagation can be predicted accurately by Uniform Theory of Diffraction. According to its calculation amount which is smaller than those of other methods，it is widely used in studying cellular network. We study a typical urban scene by ray tracing method which based on UTD theory（Uniform Theory of Diffraction）to simulate and analyze its network. By comparing with measured data，we get expected results which verify the feasibility of this method. At the same time，we study the coverage of base station，the coverage of foliage，path gain and probability distribution on path loss. These results can provide optimization of 5G outdoor cellular network with theoretical evidence.

References:

［1］陈德荣，刘用乾，蒋丽. 移动通信网络规划与工程设计［M］. 北京：北京邮电大学出版社，2010：57-71.
［2］翟冠楠，李昭勇. 5 G无线通信技术概念及相关应用［J］. 电信网技术，2013，9(9)：1-6.
［3］RAPPAPORT T S，SUN S，MAYZUS R，et al. Millimeter wave mobile communications for 5 G cellular：it will work［J］. Access of IEEE，2013，1(1)：335-349.
［4］陈淼. 基于射线追踪及遗传算法的城市微蜂窝网络规划［D］. 天津：天津大学，2012.
［5］王志彬，张娟，严军等. 3.5 GHz频段城市环境路径损耗特性研究［J］. 重庆邮电大学学报，2010，22(4)：440-444.
［6］ZHAO Q，LI J. Rain attenuation in millimeter wave ranges［C］//International symposium on antennas propagation & EM theory，Guangzhou，2006：26-29.
［7］AZAR Y，WONG G N，WANG K，et al. 28 GHz propagation measurements for outdoor cellular communications using steerable beam antennas in New York City［C］//IEEE international conference on communications，Budapest，2013：5 143-5 147.
［8］韩鹏. 中近距离多波段无线电波传播建模与仿真［D］. 哈尔滨：哈尔滨工程大学，2013.
［9］李清. 基于射线追踪模型的室外为小区电波传播预测研究［D］. 西安：西安电子科技大学，2011.
［10］TABAKCIOGLU M B，CANSIZ A. Application of S-UTD-CH model into multiple diffraction scenarios with close building heights［C］//Mediterranean microwave symposium，Saida，2013：1-4.
［11］KOUYOUMJIAN R G，PATHAK P H. A uniform geometrical theory of diffraction for an edge in a perfectly conducting surface［J］. Proceedings of the IEEE，1974，62(11)：1 448-1 461.
［12］LI P，HUANG X，FANG Y. Capacity scaling of multihop cellular networks［C］//Proceedings of IEEE INFOCOM，Shanghai，2011：2 831-2 839.
［13］MOHTASHAMI V，SHISHEGAR A A. Accuracy and computational efficiency improvement of ray tracing using line search theory［J］. IEEE transactions on microwaves，antennas & propagation，2010，4(9)：1 290-1 299.
［14］NORMAN R J，MARSHALL J L，CARTER B A，et al. A new pseudo three-dimensional segment method analytical ray tracing (3-D SMART) Technique［J］. IEEE transactions on antennas and propogation，2012，60(12)：5 818-5 824.
［15］FUSCHINI F，SALLABI H E，ESPOSTI V D，et al. Analysis of multipath propagation in urban environment through multidimensional measurements and advanced ray tracing simulation［J］. IEEE transactions on antennas and propogation，2008，56(3)：848-857.
［16］沈黎歌. GSM信号的植被衰落研究［D］. 西安：西安邮电大学，2008.

Memo

Memo:

-

Common functions

Last Update: 2015-12-30