Transformer fault diagnosis method based on deep forest model

A transformer fault and forest model technology, applied in computing models, biological models, instruments, etc., can solve problems such as low work efficiency, easy over-fitting, falling into local minimum, etc., to achieve improved accuracy, high training efficiency, The effect of reliable identification

Active Publication Date: 2020-09-29
KUNMING UNIV OF SCI & TECH
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Problems solved by technology

For example, the expert system cannot learn independently, the work efficiency is low, and it is difficult to obtain accurate diagnosis results; the neural network has strong self-learning ability, but requires a large amount of sample data for training, hyperparameter adjustment is complicated and the learning cycle is long, and it is easy to fall into a local minimum ;The decision tree relies on optimizing the local optimum to achieve the overall optimum, and it is difficult to ensure that it returns to the global optimum, and it is easy to overfit. The above diagnostic methods all have the problem that it is difficult to effectively deal with high-dimensional data and feature information extraction.

Method used

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  • Transformer fault diagnosis method based on deep forest model
  • Transformer fault diagnosis method based on deep forest model
  • Transformer fault diagnosis method based on deep forest model

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Embodiment

[0065] Collecting the historical online monitoring operation data of the transformers of Yunnan Power Grid Corporation and the oil chromatographic data in published papers, a total of 2127 cases of transformer fault information were obtained. After data preprocessing, 2040 cases of data were obtained. The training set data sample and the test set were divided in a ratio of 8:2 Data samples, including 1632 cases of data for supervised training, to adjust the parameters of the model to improve the fit of the model; 408 cases of data to evaluate the performance and generalization ability of the model, so as to achieve transformer fault diagnosis. The sample data distribution of each fault type is shown in Table 1.

[0066] Table 1 Data distribution of transformer fault samples

[0067] Fault type Training samples Test sample normal18947 Low energy discharge11429 High-energy discharge30276 Partial Discharge17042 Low temperature overheating25062 Overheating28671 Overheating6...

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Abstract

The invention discloses a transformer fault diagnosis method based on a deep forest model. The method comprises the steps that a non-coding ratio of analysis data of dissolved gas in transformer oil is taken as a characteristic parameter of the deep forest model, and sample data is divided into a training set and a test set; and then a deep forest model DF is constructed, the deep forest model DFextracts more feature information from multi-dimensional data of a transformer fault through multi-granularity scanning, and the effect of diagnosing and identifying the fault type of the transformeris optimal through cascade forest training. According to the method, the fault diagnosis accuracy of the transformer is effectively improved, and a reliable basis is provided for operation and maintenance personnel to correctly judge the operation condition of the transformer.

Description

Technical field [0001] The invention relates to the technical field of power equipment monitoring, in particular to a transformer fault diagnosis method based on a deep forest model. Background technique [0002] With the development of energy interconnection, transformer failure will endanger the safe and stable operation of the entire power system. Therefore, a quick and accurate understanding of the fault type of the transformer, so as to perform maintenance work, can provide an important guarantee for the normal operation of the power system. [0003] Dissolved Gas Analysis (DGA) is mainly used in the online monitoring of oil-immersed transformers. Based on DGA characteristic gas for data correlation analysis, domestic and foreign researchers have proposed three-ratio method, Rogers ratio method, Dornenburg ratio method, and electrical research method, but the traditional DGA method only gives the threshold of fault diagnosis. , Cannot faithfully represent the law between cha...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01R31/00G06N3/00G06N20/00
CPCG01R31/00G06N3/006G06N20/00
Inventor 刘可真吴世浙李鹤健徐玥苟家萁和婧王骞刘通陈镭丹陈雪鸥阮俊枭
Owner KUNMING UNIV OF SCI & TECH
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