电力通信网现场运维模式及运维场景建模与优化
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摘要
网络运维作为电力通信系统最基本也是最重要的职能,能够为电网的安全稳定运行提供保证与支撑。随着电力通信网络的迅速发展,完善其现场运维管理手段,对提高电力通信系统的保障水平尤为重要。针对电力通信网的现场运行维护,论文分析了影响现场运维的三类影响因素,在此基础上提出了一种包含业务模式和运维场景的一体化综合评估模型,最后利用改进AHP评估算法阐述了运维作业场景最优化途径。
As the most basic and important function of power communication system,network operation and maintenance can provide guarantee and support for the safe and stable operation of power grid. With the rapid development of power communication network,it is very important to improve the management of field operation and maintenance to improve the security level of power communication system. Maintenance for field operation of the electric power communication network,this paper analyzes the three factors which influence the effect of on-site maintenance,this paper puts forward a comprehensive evaluation model including integration business model and operation and maintenance of the scene,finally using the improved AHP evaluation algorithm describes the operation and maintenance of scene optimization approach.
As the most basic and important function of power communication system,network operation and maintenance can provide guarantee and support for the safe and stable operation of power grid. With the rapid development of power communication network,it is very important to improve the management of field operation and maintenance to improve the security level of power communication system. Maintenance for field operation of the electric power communication network,this paper analyzes the three factors which influence the effect of on-site maintenance,this paper puts forward a comprehensive evaluation model including integration business model and operation and maintenance of the scene,finally using the improved AHP evaluation algorithm describes the operation and maintenance of scene optimization approach.
引文
[1]鲁春丛.现代电信运维体系(上)[J].电信技术,2007(1):1-9.LU Chuncong.Modern telecom operation and maintenance system(up)[J].Telecom technology,2007(1):1-9.
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[6]张忠浩,董小亚,赵西林,等.信息系统运维精益化体系建设研究[J].电力信息与通信技术,2015,13(7):107-111.ZHANG Zhonghao,DONG Xiaoya,ZHAO Xilin,et al.Research on Lean Construction of information system operation and maintenance[J].Electric power information and communication technology,2015,13(7):107-111.
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[9]施健,王世文,徐士元.基于改进FAHP的电力通信网可靠性评估方法研究[J].计算机与数字工程,2015,43(04):613-617.SHI Jian,WANG Shiwen,XU Shiyuan.Research on reliability evaluation method of power communication network based on improved FAHP[J].Computer and digital engineering,2015,43(04):613-617.
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[11]W.Ying-Ming,E.Taha,H.Zhongsheng.A modified fuzzy logarithmic least squares method for fuzzy analytic hierarchy process[J].Fuzzy Sets and Systems,2006,157(2):3055-3071.
[12]施健,缪巍巍,吴海洋.基于LS-SVM的电力通信网性能劣化评估与预测模型研究[J].计算机与数字工程,2016,44(4):610-614.SHI Jian,MIAO Wei,WU Haiyang.Research on performance degradation assessment and prediction model of power communication network based on[J].LS-SVMcomputer and digital engineering,2016,44(4):610-614.
[13]Gao HS,Ran JX,Sun YQ.Risk Evaluation of Communication Network of Electric Power Based on Improved FAHP[C]//International Conference on Fuzzy Systems and Knowledge Discovery.IEEE Computer Society,2007:653-659.
[14]Hu A H,Hsu C W,Kuo T C,et al.Risk evaluation of green components to hazardous substance using FMEAand FAHP[J].Expert Systems with Applications,2009,36(3):7142-7147.
[15]Lu L,Shi Z H,Wei Y,et al.A fuzzy analytic hierarchy process(FAHP)approach to eco-environmental vulnerability assessment for the Danjiangkou reservoir area,China[J].Ecological Modelling,2009,220(23):3439-3447.
[2]鲁春丛.现代电信运维体系(下)[J].电信技术,2007(2):58-63.LU Chuncong.Modern telecom operation and maintenance system(under)[J].Telecom technology,2007(2):58-63.
[3]鲁春丛.通信运维管理发展趋势[J].中兴通讯技术,2010,16(2):34-38.LU Chuncong.The development trend of communication management[J].ZTE technology,2010,16(2):34-38.
[4]舒辉宇.电信运营商网络运维新模式初探[J].电信技术,2008(3):64-66.SHU Huiyu.Preliminary study on new mode of network operation and maintenance for telecom operators[J].Telecom technology,2008(3):64-66.
[5]李志强.整合资源创建基站维护精细管理新模式[J].电信技术,2010,1(3):78-81.LI Zhiqiang.Integration of resource creation,base station maintenance,fine management,new model[J].Telecom technology,2010,1(3):78-81.
[6]张忠浩,董小亚,赵西林,等.信息系统运维精益化体系建设研究[J].电力信息与通信技术,2015,13(7):107-111.ZHANG Zhonghao,DONG Xiaoya,ZHAO Xilin,et al.Research on Lean Construction of information system operation and maintenance[J].Electric power information and communication technology,2015,13(7):107-111.
[7]赵子岩,张书林,李扬,等.电力通信运维体系建设的思考[J].电力信息与通信技术,2013,11(12):58-61.ZHAO Ziyan,ZHANG Shulin,LI Yang,et al.Reflections on the construction of power communication and operation and maintenance system[J].Power information and communication technology,2013,11(12):58-61.
[8]谷明英,张雁,魏明海.陕西电力通信网运维管理模型研究[J].电力系统通信,2012,33(5):70-75.GU Gang,ZHANG Yan,WEI Minghai.Study on operation and maintenance management model of Shaanxi electric power communication network[J].Communication of electric power systems,2012,33(5):70-75.
[9]施健,王世文,徐士元.基于改进FAHP的电力通信网可靠性评估方法研究[J].计算机与数字工程,2015,43(04):613-617.SHI Jian,WANG Shiwen,XU Shiyuan.Research on reliability evaluation method of power communication network based on improved FAHP[J].Computer and digital engineering,2015,43(04):613-617.
[10]G.Zulal,S.Gurkan,E.K.Saadettin.A fuzzy AHP approach to personnel selection problem[J].Applied Soft Computing,2009,9(2):641-646.
[11]W.Ying-Ming,E.Taha,H.Zhongsheng.A modified fuzzy logarithmic least squares method for fuzzy analytic hierarchy process[J].Fuzzy Sets and Systems,2006,157(2):3055-3071.
[12]施健,缪巍巍,吴海洋.基于LS-SVM的电力通信网性能劣化评估与预测模型研究[J].计算机与数字工程,2016,44(4):610-614.SHI Jian,MIAO Wei,WU Haiyang.Research on performance degradation assessment and prediction model of power communication network based on[J].LS-SVMcomputer and digital engineering,2016,44(4):610-614.
[13]Gao HS,Ran JX,Sun YQ.Risk Evaluation of Communication Network of Electric Power Based on Improved FAHP[C]//International Conference on Fuzzy Systems and Knowledge Discovery.IEEE Computer Society,2007:653-659.
[14]Hu A H,Hsu C W,Kuo T C,et al.Risk evaluation of green components to hazardous substance using FMEAand FAHP[J].Expert Systems with Applications,2009,36(3):7142-7147.
[15]Lu L,Shi Z H,Wei Y,et al.A fuzzy analytic hierarchy process(FAHP)approach to eco-environmental vulnerability assessment for the Danjiangkou reservoir area,China[J].Ecological Modelling,2009,220(23):3439-3447.