Litcius/Paper detail

Transfer Entropy-Based Automated Fault Traversal and Root Cause Identification in Complex Nonlinear Industrial Processes

Kalyani Zope, Tanmaya Singhal, Sri Harsha Nistala, Venkataramana Runkana

2023Industrial & Engineering Chemistry Research14 citationsDOI

Abstract

Root cause identification (RCI) of faults in industrial processes enables plant operators to pinpoint the source(s) of the fault and take appropriate corrective actions to prevent failures. Conventional techniques for RCI are not particularly suited for causal maps having cycles and time lags that are characteristic of industrial operations. We propose a fault traversal and root cause identification (FTRCI) algorithm for automatic identification of fault traversal pathways and root cause variables from causal maps. Multivariate time delayed transfer entropy between fault variable states is calculated to model the causal dependencies that are represented as a causal map. Then, using FTRCI, the fault traversal paths within the causal map are traced and the corresponding root cause variables are identified. The proposed methodology was applied to complex faults in the Tennessee Eastman process and an industrial coal pulverizer, and the root cause variables identified using this methodology were in accordance with the process knowledge.

Topics & Concepts

Tree traversalRoot causeTransfer entropyRoot cause analysisComputer scienceIdentification (biology)Fault tree analysisFault (geology)Entropy (arrow of time)Data miningAlgorithmArtificial intelligenceEngineeringPrinciple of maximum entropyReliability engineeringGeologyBotanyPhysicsSeismologyBiologyQuantum mechanicsFault Detection and Control SystemsMineral Processing and GrindingAdvanced Data Processing Techniques