解放军理工大学学报(自然科学版)
解放軍理工大學學報(自然科學版)
해방군리공대학학보(자연과학판)
JOURNAL OF PLA UNIVERSITY OF SCIENCE AND TECHNOLOGY(NATURAL SCIENCE EDITION)
2014年
6期
507-513
,共7页
张建照%陈勇%刘超%吴昊%邵震洪
張建照%陳勇%劉超%吳昊%邵震洪
장건조%진용%류초%오호%소진홍
动态频谱管理%频谱稀缺%频谱地图%无线电环境地图%半实物仿真
動態頻譜管理%頻譜稀缺%頻譜地圖%無線電環境地圖%半實物倣真
동태빈보관리%빈보희결%빈보지도%무선전배경지도%반실물방진
DSM%spectrum scarcity%spectrum map%radio environment map%hardware in loop simulation
为了在动态频谱管理网络中快速获得频谱信息,提出了基于频谱地图的区域动态频谱管理框架。该架构由区域频谱管理中心、动态频谱接入网络和用频节点组成,其中区域频谱管理中心负责建立和下发频谱地图,提供频谱地图信息服务并实施网络管理和频谱实时协调。针对网络以较低开销快速获得频谱地图的需求,提出了定期分发、按需分发和更新实时分发3种频谱地图分发方式。基于通用软件无线电平台建立了半实物仿真系统对提出的架构进行仿真验证。仿真结果表明,在提出的架构下网络能够更充分地利用频谱资源,在网络吞吐量、时延和排队长度等指标上均有明显改善。
為瞭在動態頻譜管理網絡中快速穫得頻譜信息,提齣瞭基于頻譜地圖的區域動態頻譜管理框架。該架構由區域頻譜管理中心、動態頻譜接入網絡和用頻節點組成,其中區域頻譜管理中心負責建立和下髮頻譜地圖,提供頻譜地圖信息服務併實施網絡管理和頻譜實時協調。針對網絡以較低開銷快速穫得頻譜地圖的需求,提齣瞭定期分髮、按需分髮和更新實時分髮3種頻譜地圖分髮方式。基于通用軟件無線電平檯建立瞭半實物倣真繫統對提齣的架構進行倣真驗證。倣真結果錶明,在提齣的架構下網絡能夠更充分地利用頻譜資源,在網絡吞吐量、時延和排隊長度等指標上均有明顯改善。
위료재동태빈보관리망락중쾌속획득빈보신식,제출료기우빈보지도적구역동태빈보관리광가。해가구유구역빈보관리중심、동태빈보접입망락화용빈절점조성,기중구역빈보관리중심부책건립화하발빈보지도,제공빈보지도신식복무병실시망락관리화빈보실시협조。침대망락이교저개소쾌속획득빈보지도적수구,제출료정기분발、안수분발화경신실시분발3충빈보지도분발방식。기우통용연건무선전평태건립료반실물방진계통대제출적가구진행방진험증。방진결과표명,재제출적가구하망락능구경충분지이용빈보자원,재망락탄토량、시연화배대장도등지표상균유명현개선。
To meet the requirement of acquiring spectrum information quickly from the networks under dynamic spectrum management ( DSM) system, a spectrum map based DSM framework was proposed. The framework is composed of regional spectrum management center ( RSMC) , dynamic spectrum access network and spectrum us-ers, in which RSMC is responsible for constructing and distributing spectrum map to provide spectrum map informa-tion service as well as to execute network management and real-time spectrum coordination. For the demand of ob-taining spectrum map quickly with low overhead, three spectrum map distribution strategies were proposed, inclu-ding periodic distribution, on-demand distribution, and real-time distribution on updating. A hardware in loop sim-ulation system was developed based on the universal software radio platform to evaluate the proposed framework. Simulation results demonstrate that networks under the proposed framework can make better use of the spectrum and the system performances on throughput, and that delay and queue length are improved markedly.
