面向大地测量监测系统高效开发的企业服务总线解决方案

A. Itu
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引用次数: 0

摘要

现代建筑通常采用测地线监测系统进行监测。对于这些系统来说,最重要的挑战之一就是从已经建立的实例开发新实例的复杂性。本文介绍的解决方案基于面向服务的体系结构,而该体系结构又依赖于企业服务总线作为其主要组件。监测系统由三个主要部分组成:测量系统、数据清洗与集成、变形分析工具。通过采用本文提出的方法,这三个组件变得松散耦合。在这里,重点放在执行数据清理和集成的组件上,它由三个主要的服务链组成,这些服务链可以按顺序链接,也可以按顺序链接。第一个链管理文件,其中包含执行对象监测的转速计记录的观察结果。第二条链管理湿度和温度传感器发送的数据。第三个链条执行初步分析功能,并将结果公布在网站上。总线级别的错误管理由ESB中的第四个链执行:它管理语言级别的错误处理问题并提高透明度。由于系统的松耦合特性,各部件可以并行开发。再加上改进的灵活性和更强的可重用性,这是面向服务体系结构的一个关键方面。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enterprise Service Bus Solution for an Efficient Development of Geodesic Monitoring Systems
Modern constructions are typically monitored with geodesic monitoring systems. One the most important challenges for these systems is represented by the complexity of developing new instance from the ones already set up. The solution introduced herein is based on a service oriented architecture, which in turn relies on an enterprise service bus as its principal component. The monitoring system consists of three principal components: measurement system, data cleaning and integration, and the deformation analysis tool. By employing the herein proposed approach these three components become loosely coupled. Herein, the focus lies on the component performing data cleaning and integration, consisting of three principal chains of services linked either serially or sequentially. The first chain manages the files containing the observations recorded by the tachymeters which perform the object monitoring. The second chain manages the data sent by the humidity and temperature sensors. The third chain performs preliminary analysis functions, and also makes the results public on a website. Error management at bus level is performed by a fourth chain in the ESB: it manages the issues of language level error handling and improves the transparency. Due to the loose coupling characteristics of the system, the components can be developed in parallel. Together with the improved flexibility and the greater reusability, this is a key aspect of a service oriented architecture.
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