[1]韩伟杰 阎慧 王宇.航天测控系统容灾能力评估方法研究[J].计算机技术与发展,2011,(08):223-227.
 HAN Wei-jie,YAN Hui,WANG Yu.Research about Disaster Recovery Capability Evaluation of Space TT&C System[J].,2011,(08):223-227.
点击复制

航天测控系统容灾能力评估方法研究()
分享到:

《计算机技术与发展》[ISSN:1006-6977/CN:61-1281/TN]

卷:
期数:
2011年08期
页码:
223-227
栏目:
安全与防范
出版日期:
1900-01-01

文章信息/Info

Title:
Research about Disaster Recovery Capability Evaluation of Space TT&C System
文章编号:
1673-629X(2011)08-0223-05
作者:
韩伟杰 阎慧 王宇
装备指挥技术学院信息装备系
Author(s):
HAN Wei-jieYAN HuiWANG Yu
Department of Information Equipment,Academy of Equipment Command & Technology
关键词:
层次分析法模糊评判航天测控系统容灾能力评估
Keywords:
AHP fuzzy assessment space TT&C system disaster recovery capability evaluation
分类号:
TP391
文献标志码:
A
摘要:
航天测控系统容灾能力评估是建设航天测控容灾系统的关键环节。通过对航天测控系统容灾能力评估因素进行深入分析,建立评价指标体系,利用层次分析法(AHP)确定各指标的组合权重;利用模糊评判方法建立模糊评判模型,计算容灾能力的综合评判值并做出决策。按照以上方法评估,航天测控系统的总体容灾能力等级是"较强",但在灾难恢复管理、灾难恢复规划及灾难恢复技术措施等方面还需提高。结果表明,通过将层次分析法和模糊评判方法相结合对容灾能力进行评估,可以为容灾建设提供合理参考依据
Abstract:
Disaster recovery capability evaluation plays an important role in building the space TTC disaster recovery system.By analyzing the main factors which influence the disaster recovery capability of the space TTC system,the set of evaluated indexes was founded,whose weights were calculated by analytic hierarchy process(AHP).The model for assessment was founded by fuzzy comprehensive evaluation,based on which the comprehensive assessment value of the disaster recovery capability was computed and the decision to make up for the space CCT disaster recovery system was made furthermore.The actual calculated results show that the general disaster recovery capability of the space TTC is relatively strong.But the capability of disaster recovery management,disaster recovery plan and disaster recovery technologies and measures still needs to be strengthened.The application result shows that the approach could evaluate the disaster recovery capability efficiently and provide reasonable consults for building the space TTC disaster recovery system by combining AHP with fuzzy assessment

相似文献/References:

[1]包力伟 周俊.铸锻企业生产质量控制系统的开发[J].计算机技术与发展,2008,(04):174.
 BAO Li-wei,ZHOU Jun.Development of a Manufacture Quality Control System in Casting Company[J].,2008,(08):174.
[2]刘宁 高飞燕.基于AHP—FCE的供应商选择问题研究与应用[J].计算机技术与发展,2009,(11):11.
 LIU Ning,GAO Fei-yan.Research and Application of Supplier Selection Based on AHP and FCE[J].,2009,(08):11.
[3]吴国栋 吴忠.电子采购环境下汽车供应商选择方法研究[J].计算机技术与发展,2007,(06):210.
 WU Guo-dong,WU Zhong.Study of Automobile - Supplier Choice Based on E - Procurement[J].,2007,(08):210.
[4]曹黎侠 冯孝周.新的改进AHP算法研究及应用[J].计算机技术与发展,2010,(12):115.
 CAO Li-xia,FENG Xiao-zhou.A New Improved AHP Algorithm Research and Application[J].,2010,(08):115.
[5]张楠 严南南.结合DEA和AHP的合作伙伴选择系统[J].计算机技术与发展,2011,(10):186.
 ZHANG Nan,YAN Nan-nan.Partner Selection System Based on DEA/AHP[J].,2011,(08):186.
[6]赵云丰 肖继征 韦韬.一种有效的信息化效能评估模型研究与应用[J].计算机技术与发展,2011,(11):46.
 ZHAO Yun-feng,XIAO Ji-zheng,WEI Tao.Research-and Application of an Effective Model for Performance Measurement[J].,2011,(08):46.
[7]葛亚微 沈敏 庞阿霞.基于主成分和层次分析法的公安绩效考核系统[J].计算机技术与发展,2012,(01):161.
 GE Ya-wei,SHEN Min,PANG A-xia.Application of AHP-PCA to Police Performance Appraisal System[J].,2012,(08):161.
[8]汪涛 石润华 罗斌 汤进.基于SNMP和AHP的网络设备安全态势分析系统[J].计算机技术与发展,2012,(01):238.
 WANG Tao,SHI Run-hua,LUO Bin,et al.Analysis System of Network Device Security Situation Based on SNMP and AHP[J].,2012,(08):238.
[9]胡建悦 严洪森 刘楠楠.基于模拟退火粒子群算法的AHP排序权值计算[J].计算机技术与发展,2012,(06):14.
 HU Jian-yue,YAN Hong-sen,LIU Nan-nan.Computing Rank Weights in AHP of Simulated Annealing-particle Swarm Optimization Algorithm[J].,2012,(08):14.
[10]杨楠 曹雷 陈希亮 周云.模糊综合评价在战术训练模拟系统中的运用[J].计算机技术与发展,2012,(06):203.
 YANG Nan,CAO Lei,CHEN Xi-liang,et al.Fuzzy Comprehensive Evaluation Applied in Training Simulation System for Tactics[J].,2012,(08):203.

备注/Memo

备注/Memo:
总装备部基金项目(2008SY4108004)韩伟杰(1980-),男,河南周口人,讲师,硕士,CCF会员,研究方向为网络安全可视化;阎慧,副教授,博士,研究方向为软件装备;王宇,副教授,博士,研究方向为信息安全
更新日期/Last Update: 1900-01-01