电讯技术
電訊技術
전신기술
Telecommunication Engineering
2015年
9期
964-971
,共8页
郑诗庭%蒙云番%邢杰%万海斌%覃团发
鄭詩庭%矇雲番%邢傑%萬海斌%覃糰髮
정시정%몽운번%형걸%만해빈%담단발
认知无线电%频谱感知%网络编码%累积和能量检测%衰落信道
認知無線電%頻譜感知%網絡編碼%纍積和能量檢測%衰落信道
인지무선전%빈보감지%망락편마%루적화능량검측%쇠락신도
cognitive radio%spectrum sensing%network coding%cumulative summation%fading channel
针对传统认知无线电网络中频谱状态转换频繁和频谱检测时延长的问题,提出基于随机线性网络编码的累积和能量检测频谱感知算法。该算法在主用户信道中引入随机线性网络编码,利用网络编码对频谱的整形作用,使频谱状态转换稀疏,频谱结构更规律化,减小频谱检测时延,提高系统吞吐率。此外,针对传统累积和能量检测算法抗衰落性能差的问题,通过比较该算法在五种衰落信道下的检测时延和吞吐率,研究该算法的抗衰落性能。实验结果表明,在一定的虚警概率下,该算法有效降低了检测时延,提高了吞吐率及抗衰落能力,能够更好地适应复杂的衰落信道环境。
針對傳統認知無線電網絡中頻譜狀態轉換頻繁和頻譜檢測時延長的問題,提齣基于隨機線性網絡編碼的纍積和能量檢測頻譜感知算法。該算法在主用戶信道中引入隨機線性網絡編碼,利用網絡編碼對頻譜的整形作用,使頻譜狀態轉換稀疏,頻譜結構更規律化,減小頻譜檢測時延,提高繫統吞吐率。此外,針對傳統纍積和能量檢測算法抗衰落性能差的問題,通過比較該算法在五種衰落信道下的檢測時延和吞吐率,研究該算法的抗衰落性能。實驗結果錶明,在一定的虛警概率下,該算法有效降低瞭檢測時延,提高瞭吞吐率及抗衰落能力,能夠更好地適應複雜的衰落信道環境。
침대전통인지무선전망락중빈보상태전환빈번화빈보검측시연장적문제,제출기우수궤선성망락편마적루적화능량검측빈보감지산법。해산법재주용호신도중인입수궤선성망락편마,이용망락편마대빈보적정형작용,사빈보상태전환희소,빈보결구경규률화,감소빈보검측시연,제고계통탄토솔。차외,침대전통루적화능량검측산법항쇠락성능차적문제,통과비교해산법재오충쇠락신도하적검측시연화탄토솔,연구해산법적항쇠락성능。실험결과표명,재일정적허경개솔하,해산법유효강저료검측시연,제고료탄토솔급항쇠락능력,능구경호지괄응복잡적쇠락신도배경。
A cumulative summation( CUSUM) spectrum sensing algorithm based on random linear network coding( RLNC) is proposed to address the problem that spectrum states transfer frequently and the detec-tion delay is large in the traditional cognitive radio( CR) network. In the proposed algorithm,RLNC is in-troduced to primary user( PU) subnetwork in the CR network and shapes traffic. Consequently,transitions between spectrum states are expected to be less frequent and the spectrum structure is of more regularity, which,in turn,results in great improvement in detection delay and throughput rate. In addition,since the anti-fading performance of the traditional CUSUM algorithm is poor,this paper investigates the anti-fading performance of the proposed algorithm by comparing the detection delay and throughput rate when the re-ceived signal experiences five kinds of fading channels. Simulation results show that the proposed algorithm provides great improvement in detection delay, throughput rate and anti-fading performance at a certain false alarm probability,and it can be better adapted to the complex fading channel environment.