Dynamic Multi-criteria Classifier Selection for Illegal Tapping Detection in Oil Pipelines

Dynamic Multi-criteria Classifier Selection for Illegal Tapping Detection in Oil Pipelines

Illegal tapping of fuel pipelines has recently become one of the most relevant safety problems faced by the industry. Hundreds of illegal interventions have been reported around the world, causing a significant number of deaths, relevant impacts on the environment, and capital loss. Therefore, it is...

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Bibliographic Details
Published in:2020 International Joint Conference on Neural Networks (IJCNN) pp. 1 - 8
Main Authors: Ribeiro, Victor Henrique Alves, Domingues, Pedro Henrique, Cavalin, Paulo Rodrigo, Reynoso-Meza, Gilberto, Ayala, Helon Vicente Hultmann, Azevedo, Luis Fernando Alzuguir
Format: Conference Proceeding
Language:English
Published: IEEE 01-07-2020
Subjects:
Biological system modeling
Decision making
dynamic classifier selection
Ensemble learning
Feature extraction
illegal tapping
Leak detection
multi-criteria decision making
oil pipelines
Oils
Pipelines
Task analysis
time series classification
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Summary:Illegal tapping of fuel pipelines has recently become one of the most relevant safety problems faced by the industry. Hundreds of illegal interventions have been reported around the world, causing a significant number of deaths, relevant impacts on the environment, and capital loss. Therefore, it is important to develop systems that are able to detect such scenarios at an early stage, enabling a fast counteract. To this end, machine learning algorithms can train models on available data for detecting future issues. Most recently, ensemble learning and dynamic classifier selection (DCS) techniques have been achieving promising results in supervised learning tasks. Such models are usually trained based on a single criterion. However, it is desirable to take into account both the number of false positives (FP) and false negatives (FN) for the illegal tapping detection task, since they are conflicting and both lead to financial losses and/or accidents. Therefore, this work proposes a novel DCS technique based on multiple criteria, namely overall local class-specific accuracy (OLCA), which employs multi-criteria decision making for dynamically selecting the best classifier for a new sample given the local true positive and negative ratios. A numerical experiment is conducted for assessing the generalization performance of the proposed method in an oil pipeline, with the goal of detecting illegal taping using pressure transient signals. Results show that OLCA is able to reduce the number of both FP and FN when dynamically selecting the classifiers of a baseline Random Forest ensemble.
ISSN:2161-4407
DOI:10.1109/IJCNN48605.2020.9206602