科技通报
科技通報
과기통보
BULLETIN OF SCIENCE AND TECHNOLOGY
2015年
8期
195-197
,共3页
复杂社团网络%漏洞修复%路由探测
複雜社糰網絡%漏洞脩複%路由探測
복잡사단망락%루동수복%로유탐측
complex community network%vulnerability remediation%route probe
对复杂社团网络的漏洞有效修复能保证网络的安全和稳定.传统的修复算法采用多分层和多标准的超网络平衡修复算法,社团区划在多路由转发情况下漏洞修复效果不好.提出一种基于多路由探测的复杂社团网络漏洞修复算法.使用线性预测模型对漏洞进行多路由网格划分,采用链路模型重组方案对数据进行攻击相位重组,得到漏洞数据生成和关联性分析结果,通过多路由探测,提取网络传输的数据多路复用器输出端口的数据,找到经过最短路径数目最多的边并将漏洞数据从网络中移除,提高了漏洞修复的性能,实现算法改进.仿真实验表明,该算法的漏洞修复效果较好,通过漏洞修复能有效提高网络数据传输的吞吐量和网络分组数据传输成功率,展示了算法的优越性能,在网络安全等领域具有较大的应用价值.
對複雜社糰網絡的漏洞有效脩複能保證網絡的安全和穩定.傳統的脩複算法採用多分層和多標準的超網絡平衡脩複算法,社糰區劃在多路由轉髮情況下漏洞脩複效果不好.提齣一種基于多路由探測的複雜社糰網絡漏洞脩複算法.使用線性預測模型對漏洞進行多路由網格劃分,採用鏈路模型重組方案對數據進行攻擊相位重組,得到漏洞數據生成和關聯性分析結果,通過多路由探測,提取網絡傳輸的數據多路複用器輸齣耑口的數據,找到經過最短路徑數目最多的邊併將漏洞數據從網絡中移除,提高瞭漏洞脩複的性能,實現算法改進.倣真實驗錶明,該算法的漏洞脩複效果較好,通過漏洞脩複能有效提高網絡數據傳輸的吞吐量和網絡分組數據傳輸成功率,展示瞭算法的優越性能,在網絡安全等領域具有較大的應用價值.
대복잡사단망락적루동유효수복능보증망락적안전화은정.전통적수복산법채용다분층화다표준적초망락평형수복산법,사단구화재다로유전발정황하루동수복효과불호.제출일충기우다로유탐측적복잡사단망락루동수복산법.사용선성예측모형대루동진행다로유망격화분,채용련로모형중조방안대수거진행공격상위중조,득도루동수거생성화관련성분석결과,통과다로유탐측,제취망락전수적수거다로복용기수출단구적수거,조도경과최단로경수목최다적변병장루동수거종망락중이제,제고료루동수복적성능,실현산법개진.방진실험표명,해산법적루동수복효과교호,통과루동수복능유효제고망락수거전수적탄토량화망락분조수거전수성공솔,전시료산법적우월성능,재망락안전등영역구유교대적응용개치.
For the complex associations of the vulnerability of the network effectively repair can guarantee the security and stability of network. Super network equilibrium repair algorithm restoration algorithm using multi layered traditional and multi standard, multi route forwarding Association Division in case the vulnerabilities repair effect is not good. Presents a complex community network vulnerabilities repair algorithm based on multi route detection. The vulnerability of multiple routing mesh using linear prediction model, using the program model of recombinant link attack phase reorganization of the data, get the vulnerability data generation and correlation analysis results, through the multi route detection, extraction of network transmission data multiplexer output port of the data, find the shortest path and the largest number of edge the vul-nerability data is removed from the network, improves the performance of bug fixes, improved algorithm. Simulation results show that, the better effect of the algorithm fixes, through this bug fixes can effectively improve the network throughput and packet data transmission of network data transmission success rate, show the superior performance of the algorithm, and has great application value in the fields of network security.