Methodology for a Security/Dependability Adaptive Protection Scheme Based on Data Mining

Bernabeu, E.; Thorp, James S.; Centeno, Virgilio

doi:10.1109/tpwrd.2011.2168831

Cited by 80 publications

(38 citation statements)

References 22 publications

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“…CART is an effective binary recursive partitioning algorithm that can automatically construct the ODT and complete feature selection according to the classification effect of the features at each node. Thereby, the feature computation is reduced, the structure of the classifier is simplified, and the classification efficiency and accuracy are improved [38][39][40]. The processing of the CART algorithm is described as follows (F indicates the current PQ sample set, and F_attributelist represents the current candidate feature set):…”

Section: Optimal Feature Selection and Automatic Dt Construction By Cmentioning

confidence: 99%

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Power Quality Disturbances Feature Selection and Recognition Using Optimal Multi-Resolution Fast S-Transform and CART Algorithm

et al. 2016

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Abstract:In order to improve the recognition accuracy and efficiency of power quality disturbances (PQD) in microgrids, a novel PQD feature selection and recognition method based on optimal multi-resolution fast S-transform (OMFST) and classification and regression tree (CART) algorithm is proposed. Firstly, OMFST is carried out according to the frequency domain characteristic of disturbance signal, and 67 features are extracted by time-frequency analysis to construct the original feature set. Subsequently, the optimal feature subset is determined by Gini importance and sorted according to an embedded feature selection method based on the Gini index. Finally, one standard error rule subtree evaluation methods were applied for cost complexity pruning. After pruning, the optimal decision tree (ODT) is obtained for PQD classification. The experiments show that the new method can effectively improve the classification efficiency and accuracy with feature selection step. Simultaneously, the ODT can be constructed automatically according to the ability of feature classification. In different noise environments, the classification accuracy of the new method is higher than the method based on probabilistic neural network, extreme learning machine, and support vector machine.

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Section: Optimal Feature Selection and Automatic Dt Construction By Cmentioning

confidence: 99%

“…With these CP values as the threshold, pruning is carried out in order. This can simplify the process of classifier design while effectively maintaining recognition accuracy [38,40].…”

Section: Automatic Odt Construction Via Ccp Pruningmentioning

confidence: 99%

Power Quality Disturbances Feature Selection and Recognition Using Optimal Multi-Resolution Fast S-Transform and CART Algorithm

et al. 2016

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“…DTs are grown through a systematic process known as recursive binary partitioning; a divide and conquer approach where successive questions with yes/no answers are asked in order to partition the sample space [15], [16]. Variable importance is one of the key performance indices of DT that provides information on the contribution of features to the decision making process and thus, selects the optimal numbers of features for final decision making.…”

Section: Proposed Differential Relaying Schemementioning

confidence: 99%

Data-Mining-Based Intelligent Differential Relaying for Transmission Lines Including UPFC and Wind Farms

Jena

Samantaray

2016

IEEE Trans. Neural Netw. Learning Syst.

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This paper presents a data-mining-based intelligent differential relaying scheme for transmission lines, including flexible ac transmission system device, such as unified power flow controller (UPFC) and wind farms. Initially, the current and voltage signals are processed through extended Kalman filter phasor measurement unit for phasor estimation, and 21 potential features are computed at both ends of the line. Once the features are extracted at both ends, the corresponding differential features are derived. These differential features are fed to a data-mining model known as decision tree (DT) to provide the final relaying decision. The proposed technique has been extensively tested for single-circuit transmission line, including UPFC and wind farms with in-feed, double-circuit line with UPFC on one line and wind farm as one of the substations with wide variations in operating parameters. The test results obtained from simulation as well as in real-time digital simulator testing indicate that the DT-based intelligent differential relaying scheme is highly reliable and accurate with a response time of 2.25 cycles from the fault inception.

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“…An algorithm to support relay zone 3 operation using synchrophasor data is proposed in [18]. Security of power system protection operation is defined as the measure of certainty that the relay will not operate incorrectly even under any stressed condition [19]. Use of modern technologies can reduce the risk of large systemwide disturbance and blackout by preserving system integrity under adverse situations.…”

mentioning

confidence: 99%

Enhanced Protection Security Using the System Integrity Protection Scheme (SIPS)

Kundu

Pradhan

2016

IEEE Trans. Power Delivery

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Events such as faults, loss of load or generation may cause unwanted relay operations which initiate cascade tripping leading to system collapse. Security of power system protection is a major concern for utilities. A System Integrated Protection Scheme (SIPS) based approach is proposed for improving security of protection operations. Identification of vulnerable points which may maloperate during a stressed condition and initiation of preventive strategy are proposed in this paper. Synchronized measurements obtained from strategic locations in the system are used for this purpose. It includes two algorithms; the first of which changes the operating characteristic of relays in accordance with system condition. The second one, identifies nodes in the system where load reduction can reduce the risk of maloperation. The proposed method is tested for New England 39 bus system and found to be accurate.

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Methodology for a Security/Dependability Adaptive Protection Scheme Based on Data Mining

Cited by 80 publications

References 22 publications

Power Quality Disturbances Feature Selection and Recognition Using Optimal Multi-Resolution Fast S-Transform and CART Algorithm

Power Quality Disturbances Feature Selection and Recognition Using Optimal Multi-Resolution Fast S-Transform and CART Algorithm

Data-Mining-Based Intelligent Differential Relaying for Transmission Lines Including UPFC and Wind Farms

Enhanced Protection Security Using the System Integrity Protection Scheme (SIPS)

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