基于深度学习和图匹配的接线图检测与校核

传统的厂站一次接线图的绘制和管理主要依靠电网运行人员，费时费力且缺乏科学可校核的参考标准。提出了一种基于深度神经网络和数字图像处理相结合的厂站一次接线图的自动检测、识别和校核算法。首先，使用目标检测Faster R-CNN模型检测厂站接线图中的电器元件，并达到92%的检测准确率，同时使用端到端的文字检测识别模型识别厂站接线图中的文字信息，并达到94.2%的文字检测准确率和92%的文字识别准确率；然后，使用数字图像处理技术进行厂站接线图连接线、拓扑关系识别；最后，使用改进的VF2算法进行厂站一次接线图和人工维护的厂站一次接线图拓扑关系匹配校核，将拓扑数据抽象为无向图，通过轮廓序号得到元件的相对位置信息，根据改进的VF2算法得到2张图的匹配率，并通过匹配率与设定好的阈值来帮助核验，相比于节点遍历的匹配方法，核验准确率提高了37.5%。基于某供电公司提供的部分变电站的厂站一次接线图标注了接线图电器元件，贡献了一个小型接线图数据集。 

Wiring diagram detection and check based on deep learning and graph matching

The drawing and management of the traditional primary wiring diagram of plant and station mainly depend on the operators of power grid, which wastes time and labor and lacks scientific and verifiable reference standards. Towards this problem, based on the deep neural networks and digital image processing, we propose an algorithm for automatic detection, recognition and verification. Specifically, Faster R-CNN is first adopted to detect the electrical components of wiring diagram with 92% detection accuracy. In the meantime, an end-to-end text detection and recognition model is used to recognize the text with 94.2% detection accuracy and 92% character recognition accuracy. Then we take advantage of digital image processing technique to identify the connection of wiring diagram and topological relation. Finally, improved graph matching algorithm VF2 is used to check the difference between the electronic and manually maintained diagrams. The topological data is abstracted into an undirected graph, and the relative position information of components is obtained through the outline number. Based on the improved VF2 algorithm, we can compute the matching rate of two graphs to help the verification. Compared with the matching method of node traversal, the verification accuracy can be improved by 37.5%. Based on the first wiring diagram of some substations provided by a power supply company, this paper marks the electrical components of wiring diagram and contributes a small wiring diagram dataset.