青海省电力公司客户索赔管理系统设计研究

IF 3.1 Q1 Mathematics
Bingsheng Li, Hongbang Su, Yongxiang Lin, Baowei Zhou, Shengping Yan, Guisheng Ma
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引用次数: 0

摘要

摘要本文利用SOA框架实现系统结构设计,结合索赔处理的总流程,设计了受理与审核处理、责任确定和提醒管理4个模块,构成了一个整体的客户索赔管理系统。采用改进的LEACH算法对网络拓扑进行控制,采用聚类树与数据融合相结合的方法降低网络中节点的能量损失。在加权排队调度算法的基础上,设计反馈处理模块,确定分组规则和计算方法,采用决策树算法建立需求管理预测模型。验证了决策树算法预测的准确性,实现了案例信息管理统计。分析了改进后的LEACH算法的实用性,并对系统性能进行了测试。实验结果表明,改进后的LEACH算法在[0,100]死节点范围内更加均衡,能耗平衡良好。总延迟为16.13时隙,是四种算法中延迟最低的。节点死亡时间为1045轮,具有最长的网络生命周期。使用IO和内存密集型负载测试系统性能。在写入16GB的文件之前,系统时间响应性保持在80%左右,系统CPU利用率和磁盘IO利用率随着文件的写入而增加。系统性能良好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Design Study on the Design of Customer Claims Management System for Qinghai Electric Power Company
Abstract This paper utilizes the SOA framework to realize the system structure design, combined with the total flow of the claim processing, the design of the acceptance and audit processing, responsibility determination and reminder management of 4 modules, constituting the customer claim management system as a whole. The improved LEACH algorithm is utilized to control the network topology, and the cluster tree combined with data fusion is used to reduce the energy loss of the nodes in the network. Based on the weighted queuing scheduling algorithm, the feedback processing module is designed to determine the grouping rules and calculation methods, and the decision tree algorithm is used to build the demand management prediction model. The accuracy of the prediction of the decision tree algorithm is verified to realize the case information management statistics. Analyze the utility of the improved LEACH algorithm and test the system’s performance. The experimental results show that the improved LEACH algorithm is more balanced in the range of [0,100] dead nodes, and the energy consumption is well balanced. The total delay is 16.13-time slots, which is the lowest delay among the four algorithms. The node death time is 1045 rounds, having the longest network life cycle. The system performance is tested using IO and memory-intensive loads. Before writing a file of 16GB, the system time responsiveness stays around 80%, and the system CPU utilization and disk IO utilization increase as the file is written. The system performance is good.
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来源期刊
Applied Mathematics and Nonlinear Sciences
Applied Mathematics and Nonlinear Sciences Engineering-Engineering (miscellaneous)
CiteScore
2.90
自引率
25.80%
发文量
203
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