散射通信固定站应用及展望
|
摘要
对流层散射通信作为一种重要的军用通信手段,其发展历程是二战以后各国政治、军事和经济角逐的缩影。散射通信固定站作为一种特殊的散射通信站型,随着国际环境的变化和技术水平的发展,其应用领域也发生了巨大的变化。在探讨散射固定站国内外发展和应用现状的基础上,根据国内散射固定站建设经验,给出了海上散射固定站建设要求以及未来应用展望,对散射通信固定站今后的发展具有借鉴意义。
The troposcatter communication is an important means of military communication,and its development process is the epitome of political,military and economic competition after the World War II. The fixed station of troposcatter communication is a special type of troposcatter communication station,and its application area has changed significantly with the development of international environment and technology.This paper analyzes the development and application status of troposcatter communication fixed station at home and abroad,and discusses the construction requirements and future application prospect of the maritime fixed station based on the experience of the construction of the scatter communication fixed station in china,which provides the references for the future development of fixed station of troposcatter communication.
The troposcatter communication is an important means of military communication,and its development process is the epitome of political,military and economic competition after the World War II. The fixed station of troposcatter communication is a special type of troposcatter communication station,and its application area has changed significantly with the development of international environment and technology.This paper analyzes the development and application status of troposcatter communication fixed station at home and abroad,and discusses the construction requirements and future application prospect of the maritime fixed station based on the experience of the construction of the scatter communication fixed station in china,which provides the references for the future development of fixed station of troposcatter communication.
引文
[1]BADDELEY A.Troposcatter Bounces Back[J].Military Information Technology,2010,14(6):1-28.
[2]White Alice Communications System[EB/OL].https:∥en.wikipedia.org/wiki/White_Alice_Communications_System,2016-3-13/2016-4-10.
[3]Pinetree Line[EB/OL].https:∥en.wikipedia.org/wiki/Pinetree_Line,2016-5-6/2016-6-9.
[4]Mid-Canada[EB/OL].Line https:∥en.wikipedia.org/wiki/Mid-Canada_Line,2016-1-31/2016-6-9.
[5]Distant Early Warning Line[EB/OL].https:∥en.wikipedia.org/wiki/Distant_Early_Warning_Line,2016-3-24/2016-6-9.
[6]Soviet Nation-Wide Tropospheric Scatter Radio Relay System[EB/OL].http:∥www.trrlsever.org.2016-3-8/2016-6-13.
[7]Comtech systems inc.Communication Links for offshore platforms[EB/OL].http:∥www.comtechsystems.com/our-resources/whitepapers/,2016-1/2016-6-14.
[8]戴毅.散射通信在海上平台通信中的应用[J].科技咨询导报,2007,(24):157-159.
[9]鲁小琴,沈勇.文昌油田卫星通讯链路优化设计[J].现代商贸工业,2010(5):307-309.
[10]陈经锋.散射宽带通信技术在文昌13-1/2油田的应用[D].西安:西安电子科技大学,2011.
[11]张明高.对流层散射传播[M].北京:电子工业出版社,2004.
[12]李荣海,任香凝,刘莹.数字对流层散射传输技术新动向综述[J].通信技术与发展,2007,33(3):8-10.
[13]王晓春,秦建存.散射通信海上应用研究[J].无线电通信技术,2008,34(3):62-64.
[14]郝英川,甘启光,贾梦媛.散射通信在岛屿中的应用及传播特性分析[J].无线电通信技术,2014,40(2):20-22.
[15]刘圣民,熊兆飞.对流层散射通信技术[M].北京:国防工业出版社,1981.
[16]MIL-HDBK-417,美国军用手册-对流层散射的简便设计[S].
[17]邢孝军.散射通信在海上油气田的研究与应用[J].科技传播,2014(11):127-128.
[18]曹诚,鞠茂光,朱华进.海岛散射通信应用研究[J].通信技术,2010(12):152-154.
[19]叶朝天.DTR91散射通信设备在岛屿通信中的应用研究[J].工程实践与应用技术,2010,36(1):58-60.
[20]陈玮,秦建存.流星余迹通信中的智能天线技术研究[J].无线电通信技术,2008,34(6):25-28.
[2]White Alice Communications System[EB/OL].https:∥en.wikipedia.org/wiki/White_Alice_Communications_System,2016-3-13/2016-4-10.
[3]Pinetree Line[EB/OL].https:∥en.wikipedia.org/wiki/Pinetree_Line,2016-5-6/2016-6-9.
[4]Mid-Canada[EB/OL].Line https:∥en.wikipedia.org/wiki/Mid-Canada_Line,2016-1-31/2016-6-9.
[5]Distant Early Warning Line[EB/OL].https:∥en.wikipedia.org/wiki/Distant_Early_Warning_Line,2016-3-24/2016-6-9.
[6]Soviet Nation-Wide Tropospheric Scatter Radio Relay System[EB/OL].http:∥www.trrlsever.org.2016-3-8/2016-6-13.
[7]Comtech systems inc.Communication Links for offshore platforms[EB/OL].http:∥www.comtechsystems.com/our-resources/whitepapers/,2016-1/2016-6-14.
[8]戴毅.散射通信在海上平台通信中的应用[J].科技咨询导报,2007,(24):157-159.
[9]鲁小琴,沈勇.文昌油田卫星通讯链路优化设计[J].现代商贸工业,2010(5):307-309.
[10]陈经锋.散射宽带通信技术在文昌13-1/2油田的应用[D].西安:西安电子科技大学,2011.
[11]张明高.对流层散射传播[M].北京:电子工业出版社,2004.
[12]李荣海,任香凝,刘莹.数字对流层散射传输技术新动向综述[J].通信技术与发展,2007,33(3):8-10.
[13]王晓春,秦建存.散射通信海上应用研究[J].无线电通信技术,2008,34(3):62-64.
[14]郝英川,甘启光,贾梦媛.散射通信在岛屿中的应用及传播特性分析[J].无线电通信技术,2014,40(2):20-22.
[15]刘圣民,熊兆飞.对流层散射通信技术[M].北京:国防工业出版社,1981.
[16]MIL-HDBK-417,美国军用手册-对流层散射的简便设计[S].
[17]邢孝军.散射通信在海上油气田的研究与应用[J].科技传播,2014(11):127-128.
[18]曹诚,鞠茂光,朱华进.海岛散射通信应用研究[J].通信技术,2010(12):152-154.
[19]叶朝天.DTR91散射通信设备在岛屿通信中的应用研究[J].工程实践与应用技术,2010,36(1):58-60.
[20]陈玮,秦建存.流星余迹通信中的智能天线技术研究[J].无线电通信技术,2008,34(6):25-28.