通信技术
通信技術
통신기술
COMMUNICATIONS TECHNOLOGY
2013年
5期
24-26
,共3页
短波宽带通信%窄带干扰%脉冲噪声%人为噪声%大气噪声
短波寬帶通信%窄帶榦擾%脈遲譟聲%人為譟聲%大氣譟聲
단파관대통신%착대간우%맥충조성%인위조성%대기조성
wideband HF communication%narrowband interference%impulse noise%manmade noise%atmospheric noise
短波通信系统依靠电离层传播,具有通信距离远,灵活性高,抗干扰性强,成本低廉等特点,是一种重要的国防军事通信手段.传统短波通信受电离层特性影响而有效带宽较窄,导致数据传输速率极低.因此,提高信道容量实现高速数据传输的短波宽带通信系统越来越受到重视.短波宽带信道建模是短波宽带通信系统正常发挥性能的关键,对短波宽带通信系统的设计与实际应用具有重要的实际意义.结合现有短波宽带信道的衰落特性模型,介绍了短波宽带信道噪声和干扰模型,并进行了比较和可靠性分析,发现现有模型形式比较单调统一,但和实际测量数据一致,能有效描述短波宽带通信中信道噪声与干扰特性,模型已经比较完善.最后,提出了进一步研究的重点方向.
短波通信繫統依靠電離層傳播,具有通信距離遠,靈活性高,抗榦擾性彊,成本低廉等特點,是一種重要的國防軍事通信手段.傳統短波通信受電離層特性影響而有效帶寬較窄,導緻數據傳輸速率極低.因此,提高信道容量實現高速數據傳輸的短波寬帶通信繫統越來越受到重視.短波寬帶信道建模是短波寬帶通信繫統正常髮揮性能的關鍵,對短波寬帶通信繫統的設計與實際應用具有重要的實際意義.結閤現有短波寬帶信道的衰落特性模型,介紹瞭短波寬帶信道譟聲和榦擾模型,併進行瞭比較和可靠性分析,髮現現有模型形式比較單調統一,但和實際測量數據一緻,能有效描述短波寬帶通信中信道譟聲與榦擾特性,模型已經比較完善.最後,提齣瞭進一步研究的重點方嚮.
단파통신계통의고전리층전파,구유통신거리원,령활성고,항간우성강,성본저렴등특점,시일충중요적국방군사통신수단.전통단파통신수전리층특성영향이유효대관교착,도치수거전수속솔겁저.인차,제고신도용량실현고속수거전수적단파관대통신계통월래월수도중시.단파관대신도건모시단파관대통신계통정상발휘성능적관건,대단파관대통신계통적설계여실제응용구유중요적실제의의.결합현유단파관대신도적쇠락특성모형,개소료단파관대신도조성화간우모형,병진행료비교화가고성분석,발현현유모형형식비교단조통일,단화실제측량수거일치,능유효묘술단파관대통신중신도조성여간우특성,모형이경비교완선.최후,제출료진일보연구적중점방향.
@@@@HF communication system, mostly dependent on the ionospheric propagation, now becomes an important means in military communication, for its advantages of far communication-distance, high flexibility, low cost and robust anti-jamming capability. Traditional HF communication system, due to the wicked ionospheric environment, has a very limited bandwidth and supports only the low-rate data transmission. Therefore, the wideband HF communication system with greater channel capacity becomes a hot point in HF communication. Modeling the wideband HF channel is of great significance in the design and practical application of wideband HF communication. Combined with the model of fading characteristic, the modeling of noise and interference in wideband HF communication is described. Meanwhile, comparison and reliability analysis indicate that the existing model of noise and interference in wideband HF communication is monotonously unified in form, but coud fairly describe the features of noise and interference. Finally this paper proposes some key points for future research.
