飞行器测控学报
飛行器測控學報
비행기측공학보
JOURNAL OF SPACECRAFT TT&C TECHNOLOGY
2015年
2期
176-183
,共8页
常呈武%程砾瑜%罗丹%杨森
常呈武%程礫瑜%囉丹%楊森
상정무%정력유%라단%양삼
空间激光通信%星座构型%激光宽带网络%数据传输%天基网%应用构想
空間激光通信%星座構型%激光寬帶網絡%數據傳輸%天基網%應用構想
공간격광통신%성좌구형%격광관대망락%수거전수%천기망%응용구상
space laser communication%constellation configuration%laser broadband network%data transmission%space-based network%application conception
在分析国内外空间激光通信技术研究进展和试验验证的基础上,按照“全球覆盖、重点支持、便于组网、便于管理”的原则,重点对未来激光链路卫星星座构型进行研究,提出了基于已有轨位的4节点 GEO (Ge-ostationary Earth Orbit,地球静止轨道)星座、基于已有轨位的6节点 GEO 星座以及激光/微波卫星共存下空间激光宽带网络发展构想;采用高效资源分配算法和智能化运行管理系统,支持我国数百个航天器、非航天器的在线管理和高速数据传输服务,可以满足我国天基平台和全球骨干节点的高速数据传输需求。通过分析论证,提出构建我国的空间激光宽带网络,需要在超长距离激光通信技术、激光链路自主建立技术、星地激光大气效应研究、空间激光宽带网络协议、卫星星座智能管理技术等关键技术和重点研究方向上集智攻关,取得突破性进展,并对未来发展进行了展望。
在分析國內外空間激光通信技術研究進展和試驗驗證的基礎上,按照“全毬覆蓋、重點支持、便于組網、便于管理”的原則,重點對未來激光鏈路衛星星座構型進行研究,提齣瞭基于已有軌位的4節點 GEO (Ge-ostationary Earth Orbit,地毬靜止軌道)星座、基于已有軌位的6節點 GEO 星座以及激光/微波衛星共存下空間激光寬帶網絡髮展構想;採用高效資源分配算法和智能化運行管理繫統,支持我國數百箇航天器、非航天器的在線管理和高速數據傳輸服務,可以滿足我國天基平檯和全毬骨榦節點的高速數據傳輸需求。通過分析論證,提齣構建我國的空間激光寬帶網絡,需要在超長距離激光通信技術、激光鏈路自主建立技術、星地激光大氣效應研究、空間激光寬帶網絡協議、衛星星座智能管理技術等關鍵技術和重點研究方嚮上集智攻關,取得突破性進展,併對未來髮展進行瞭展望。
재분석국내외공간격광통신기술연구진전화시험험증적기출상,안조“전구복개、중점지지、편우조망、편우관리”적원칙,중점대미래격광련로위성성좌구형진행연구,제출료기우이유궤위적4절점 GEO (Ge-ostationary Earth Orbit,지구정지궤도)성좌、기우이유궤위적6절점 GEO 성좌이급격광/미파위성공존하공간격광관대망락발전구상;채용고효자원분배산법화지능화운행관리계통,지지아국수백개항천기、비항천기적재선관리화고속수거전수복무,가이만족아국천기평태화전구골간절점적고속수거전수수구。통과분석론증,제출구건아국적공간격광관대망락,수요재초장거리격광통신기술、격광련로자주건립기술、성지격광대기효응연구、공간격광관대망락협의、위성성좌지능관리기술등관건기술화중점연구방향상집지공관,취득돌파성진전,병대미래발전진행료전망。
The configuration of future laser link satellite constellation is studied in line of the principles “global cov-erage,key support,convenient networking and easy management”based on the analysis of the progress of research home and abroad in space laser communication technology and experiments and verification.A four-node GEO (Ge-ostationary Earth Orbit)constellation based on the existing orbit positions and a six-node GEO constellation based on the existing orbit positions are proposed together with a conception for the development of space laser broadband network featuring coexistence of laser/microwave satellites.High efficiency resource allocation algorithms and intel-ligent operation management system are used to support online management and high-rate data transmission services of hundreds of spacecraft and non-spacecraft and to meet China’s high-rate data transmission demands from space-based platforms and global trunk nodes.The paper points out that intensified research,development and break-throughs are required in key technologies and key areas including ultra-long range laser communication technology, autonomous laser link establishment technology,research on satellite-ground laser atmospheric effect,space laser broadband network protocols and intelligent satellite constellation management technology.Prospect of the field is finally described.
