Mechanical equipment diagnosis classification method based on probability confidence convolutional neural network

The invention discloses a mechanical equipment diagnosis classification method based on a probability confidence convolutional neural network, and relates to the field of mechanical equipment state monitoring and fault diagnosis. The method comprises the following steps: training a CNN-based diagnos...

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Hauptverfasser:	MA BO, LIANG LIBING, CAI WEIDONG
Format:	Patent
Sprache:	chi ; eng
Schlagworte:	CALCULATING COMPUTER SYSTEMS BASED ON SPECIFIC COMPUTATIONAL MODELS COMPUTING COUNTING HANDLING RECORD CARRIERS MEASURING PHYSICS PRESENTATION OF DATA RECOGNITION OF DATA RECORD CARRIERS TESTING TESTING STATIC OR DYNAMIC BALANCE OF MACHINES ORSTRUCTURES TESTING STRUCTURES OR APPARATUS NOT OTHERWISE PROVIDED FOR
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creator	MA BO LIANG LIBING CAI WEIDONG
description	The invention discloses a mechanical equipment diagnosis classification method based on a probability confidence convolutional neural network, and relates to the field of mechanical equipment state monitoring and fault diagnosis. The method comprises the following steps: training a CNN-based diagnosis classification model by taking known state category data of mechanical equipment state monitoringas a training sample, and outputting the probability that the sample belongs to each state category; and calculating the probability confidence of each state category of the diagnosis classificationmodel, testing the diagnosis classification model by utilizing the real-time operation data of the mechanical equipment, and judging the state category of the real-time operation data of the equipmentaccording to the probability confidence of each state category. Self-learning updating of the diagnosis classification model is carried out when an unknown state category appears. Whether the to-be-detected data is in an unkno
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The method comprises the following steps: training a CNN-based diagnosis classification model by taking known state category data of mechanical equipment state monitoringas a training sample, and outputting the probability that the sample belongs to each state category; and calculating the probability confidence of each state category of the diagnosis classificationmodel, testing the diagnosis classification model by utilizing the real-time operation data of the mechanical equipment, and judging the state category of the real-time operation data of the equipmentaccording to the probability confidence of each state category. Self-learning updating of the diagnosis classification model is carried out when an unknown state category appears. 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The method comprises the following steps: training a CNN-based diagnosis classification model by taking known state category data of mechanical equipment state monitoringas a training sample, and outputting the probability that the sample belongs to each state category; and calculating the probability confidence of each state category of the diagnosis classificationmodel, testing the diagnosis classification model by utilizing the real-time operation data of the mechanical equipment, and judging the state category of the real-time operation data of the equipmentaccording to the probability confidence of each state category. Self-learning updating of the diagnosis classification model is carried out when an unknown state category appears. 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The method comprises the following steps: training a CNN-based diagnosis classification model by taking known state category data of mechanical equipment state monitoringas a training sample, and outputting the probability that the sample belongs to each state category; and calculating the probability confidence of each state category of the diagnosis classificationmodel, testing the diagnosis classification model by utilizing the real-time operation data of the mechanical equipment, and judging the state category of the real-time operation data of the equipmentaccording to the probability confidence of each state category. Self-learning updating of the diagnosis classification model is carried out when an unknown state category appears. Whether the to-be-detected data is in an unkno</abstract><oa>free_for_read</oa></addata></record>
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subjects	CALCULATING COMPUTER SYSTEMS BASED ON SPECIFIC COMPUTATIONAL MODELS COMPUTING COUNTING HANDLING RECORD CARRIERS MEASURING PHYSICS PRESENTATION OF DATA RECOGNITION OF DATA RECORD CARRIERS TESTING TESTING STATIC OR DYNAMIC BALANCE OF MACHINES ORSTRUCTURES TESTING STRUCTURES OR APPARATUS NOT OTHERWISE PROVIDED FOR
title	Mechanical equipment diagnosis classification method based on probability confidence convolutional neural network
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