系统工程与电子技术
繫統工程與電子技術
계통공정여전자기술
Systems Engineering and Electronics
2015年
12期
2835-2841
,共7页
雷维嘉%江雪%左莉杰%谢显中
雷維嘉%江雪%左莉傑%謝顯中
뢰유가%강설%좌리걸%사현중
保密速率%能量收集%放大转发中继%协同干扰%储能-发送
保密速率%能量收集%放大轉髮中繼%協同榦擾%儲能-髮送
보밀속솔%능량수집%방대전발중계%협동간우%저능-발송
secrecy rate%energy harvesting%amplify-and-forward relay%cooperative jamming%save-then-transmit
在由一个源节点、中继节点、目的节点和窃听节点组成的两跳中继窃听信道模型中,假定各节点均具有能量收集能力,采用“储能—发送”模式工作,即先收集能量,然后再发送数据。中继节点采用放大转发方式,目的节点发送人工噪声协同干扰。首先分析得到目的端协同干扰方式下获得正的保密容量的条件;然后给出以最大化保密速率Rs为目标的吸收比例系数ρ和干扰功率分配因子α的迭代优化算法;最后对算法性能进行仿真。仿真结果表明,优化算法收敛速度快,能有效提高系统的保密传输速率。
在由一箇源節點、中繼節點、目的節點和竊聽節點組成的兩跳中繼竊聽信道模型中,假定各節點均具有能量收集能力,採用“儲能—髮送”模式工作,即先收集能量,然後再髮送數據。中繼節點採用放大轉髮方式,目的節點髮送人工譟聲協同榦擾。首先分析得到目的耑協同榦擾方式下穫得正的保密容量的條件;然後給齣以最大化保密速率Rs為目標的吸收比例繫數ρ和榦擾功率分配因子α的迭代優化算法;最後對算法性能進行倣真。倣真結果錶明,優化算法收斂速度快,能有效提高繫統的保密傳輸速率。
재유일개원절점、중계절점、목적절점화절은절점조성적량도중계절은신도모형중,가정각절점균구유능량수집능력,채용“저능—발송”모식공작,즉선수집능량,연후재발송수거。중계절점채용방대전발방식,목적절점발송인공조성협동간우。수선분석득도목적단협동간우방식하획득정적보밀용량적조건;연후급출이최대화보밀속솔Rs위목표적흡수비례계수ρ화간우공솔분배인자α적질대우화산법;최후대산법성능진행방진。방진결과표명,우화산법수렴속도쾌,능유효제고계통적보밀전수속솔。
A two-hop relay-eavesdropper channel model with one transmitter,one relay,one receiver and one eavesdropper is considered,where the nodes harvest energy and the save-then-transmit protocol is em-ployed.That is,the nodes harvest energy first,which is then used to transmit the data.The relay is operated as an amplify-and-forward relay,and the destination sends an intended jamming noise to protect information, which is referred as cooperative jamming.First,the condition that ensures the promotion of secrecy capacity is derived.Second,an optimization algorithm to maximize secrecy rate Rs is given,which is based on the optimiza-tion of the energy saving time ratioρand the jamming power allocation scaling factorα.Simulation results show that the algorithm has a high convergence speed,and can effectively improve secrecy rate.
