Customizing system and customizing method for graph real-time monitoring interface based on SVG (Scalable Vector Graphics)

Abstract

The invention relates to a customizing system and a customizing method for a graph real-time monitoring interface based on SVG (Scalable Vector Graphics). The customizing system comprises a monitoring system, a SVG graph configuration tool and a graph and information storage system, wherein the SVG graph configuration tool comprises a file manager, a graph editing manager, a basic graph drawer, a pixel editing manager, a monitoring interface manager, a configuration project manager, a canvas manager, a view interface manager and a help system module. The customizing method comprises the following steps: establishing a new project and a file and configuring environmental parameters; selecting graphs in a local configuration library or selecting a pixel from a pixel library or drawing the pixel and generating the graph; editing the graph, associating data points and distributing the interface; checking the SVG graph file and configuration information; issuing the graph, interacting with the local configuration library and generating the SVG graph file and corresponding configuration information; and delivering to the monitoring system. The customizing system and the customizing method provided by the invention can be utilized to increase the flexibility, universality, expandability and adaptability of a monitoring service.

Description

technical field [0001] The invention relates to an interface customization system and method, in particular to an SVG-based graphical real-time monitoring interface customization system and a customization method thereof. Background technique [0002] SVG (Scalable Vector Graphics, Scalable Vector Graphics) is an XML-based scalable two-dimensional vector graphics format formulated by the W3C organization. Its XML-based syntax and structure make it have inherent advantages, and it is different from existing and future ones. There is a natural integration among other XML applications, and it has been widely used in real-time monitoring fields such as energy, electric power, mines, and railways, and has broad application prospects. The advantages of the SVG graphic format are: (1) Based on XML; (2) Use text to describe objects; (3) Interactive and dynamic; (4) Fully support DOM; (5) Stepless scaling without distortion. Because of this, the central monitoring platform of the in...

AI Technical Summary

Problems solved by technology

[0020] (2) In the current central monitoring platform, the customization of the monitoring interface is integrated in a functional module under the platform, rather than as an independent configuration tool. The independence is poor, and the configuration steps are cumbersome and complicated

[0021] (3) The SVG monitoring graphic element is single, and it is not conducive to expansion

[0022] (4) The SVG graphics file is too large, and the efficiency of loading files and real-time refresh is low

At present, the display of each data classification in the real-time information moni

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