基于红外图像配准下的GIS设备发热缺陷智能检测

    Intelligent detection of heating defects in GIS equipment based on infrared image registration

    • 摘要: 传统的电力GIS (gas insulated switchgear)设备发热缺陷检测方法,以传感器远侧信号监测为主,但其信号抗干扰能力不强,识别虚警率高。因此,提出基于红外图像配准的电力GIS设备发热缺陷智能检测方法。利用Harris角点检测算法,在电力GIS设备红外图像内提取特征点;通过基于距离约束的特征点匹配算法粗匹配特征点,得到粗匹配特征点对集合;利用随机抽样一致算法,剔除特征点对集合内的误匹配点对,并进行特征点精匹配,完成电力GIS设备红外图像配准;通过阈值法初步标识配准后的电力GIS设备红外图像内的过热区域;通过相对温差法,计算过热区域的温升比,分析过热区域是否为发热缺陷,实现电力GIS设备发热缺陷智能检测。实验结果表明:该方法可有效提取电力GIS设备红外图像的特征点并剔除误匹配特征点,获取配准后的电力GIS设备红外图像;同时可有效标识过热区域,且缺陷误检率最大值为3.22%,漏检率最大值为4.35%,具有实际应用价值。

       

      Abstract: The traditional method for detecting heating defects in power GIS(gas insulated switchgear) equipment mainly focuses on monitoring the far side signals of sensors, but its signal anti-interference ability is not strong, and the recognition false alarm rate is high. Therefore, an intelligent detection method for heating defects in power GIS equipment based on infrared image registration was proposed. The Harris corner detection algorithm was used to extract feature points from infrared images of power GIS equipment. By using the distance constrained feature point matching algorithm to roughly match feature points, a set of rough matching feature point pairs was obtained.And by using the random sampling consensus algorithm, the mismatched point pairs were eliminated in the set of feature point pairs, and the precise feature point matching was performed to complete the registration of infrared images of power GIS equipment. Then the preliminary identification of the overheated area in infrared image of registered power GIS equipment was carried out through threshold method. By using the relative temperature difference method, the temperature rise ratio of the overheated area was calculated, whether the overheated area is a heating defect was analyzed, and the intelligent detection of heating defects was achieve in power GIS equipment. The experimental results show that this method can effectively extract feature points from infrared images of power GIS equipment and eliminate mismatched feature points, obtaining registered infrared images of power GIS equipment. At the same time, it can effectively identify overheated areas, the maximum defect false detection rate is 3.22%, and the maximum missed detection rate is 4.35%, which has practical application value.

       

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