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首页> 外文会议>CIGRE Session >BENEFITS OF INTEGRATED INFORMATIONAL, GEOGRAPHICAL AND ASSET MANAGEMENT SYSTEM FOR POWER UTILITY NETWORKS
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BENEFITS OF INTEGRATED INFORMATIONAL, GEOGRAPHICAL AND ASSET MANAGEMENT SYSTEM FOR POWER UTILITY NETWORKS

机译:电力公用事业网络综合信息,地理和资产管理系统的好处

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摘要

The paper provides practical application results of creating and proper use of the multipurpose information complex for electrical grid company. The complex combines technical information on scope, attitude and condition of such electrical grid objects as overhead transmission lines (OHTL), substations (SS) and theirs components. It includes geographic and geodetic data (GIS elements) adducing precise location of network elements, two- and three-dimensional terrain models (plans, profiles), frequently used data on vegetation, civil networks, communication facilities etc in the overhead lines influence area. Flexible module structure of the information complex provides for an option to enter, correct and operatively use OHTL technical condition data, semantic, reference information, norms and standard data, as well as to form and present in any actual format accompanying documentation, references and reports. The complex has been developed using up-to-date information technologies (Internet, Intranet, etc), that provides for access to databases including data entering and modifying, both interactively from user's local network workplace, and remotely (from other network facilities), via Internet. Information complex provides possibilities for analysis of OHTL actual condition, defects, damages and malfunction, detected by application of the most recent diagnostic, survey and assessment means. Availability of integration the actual survey data with the design and analytical package (such as PLS-CADD, TL-PRO or original corporate software), opens to the users a wide window of opportunities for development or operative application of engineering solutions and optimal methods of overcoming emergency and extreme situations. The report covers various ways of creating and actualizing databases for information and geo-information systems. It shows that the most prospective and productive method of capturing network infrastructure objects data is application of aerial laser survey (ALS) technology followed by mathematic post-processing of digital survey data.
机译:本文提供了实际应用结果,用于创建和适当使用电网公司的多功能信息复合物。该复杂将这些电网对象的范围,姿态和条件结合了技术信息,作为架空传输线(OHTL),变电站(SS)及其组件。它包括地理和大地测量数据(GIS元素),包括网络元件,二维和三维地形模型(计划,配置文件),常用数据,架空线路影响面积的植被,民用网络,通信设施等数据的精确定位。信息复合体的灵活模块结构提供了输入,正确和可操作地使用OHTL技术条件数据,语义,参考信息,规范和标准数据的选项,以及在附带文档,参考和报告的任何实际格式中形成和存在。已经使用最新的信息技术(Internet,Intranet等)开发了该复杂,该技术提供对数据库的访问,包括从用户的本地网络工作场所交互地输入和修改的数据库,并远程(来自其他网络设施),通过互联网。信息复合体提供了分析OHTL实际情况,缺陷,损坏和故障的可能性,该可能性通过应用最新的诊断,调查和评估手段的应用而检测到。与设计和分析封装(如PLS-CADD,TL-PRO或ORIGURT CORPORTS软件)集成的可用性,为用户开放了一个宽敞的发展机会,用于开发或操作应用的工程解决方案和最佳方法克服紧急情况和极端情况。该报告涵盖了各种方式来创建和实现信息和地理信息系统的数据库。它表明,捕获网络基础设施对象数据的最前景和生产方法是应用空中激光测量(ALS)技术,然后是数字调查数据的数学后处理。

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