Machine Learning Based Hybrid Model for Fault Detection in Wireless Sensors Data

Authors

  • P. Raghu Vamsi Jaypee Institute of Information Technology image/svg+xml
  • Anjali Chahuan Inderprastha Engineering College

DOI:

https://doi.org/10.4108/eai.13-7-2018.161368

Keywords:

Anomaly Detection, Outliers, Fault Detection, Wireless Sensor Networks, Internet Of Things (IOT), Intel Berkeley Research lab (IBRL), Knowledge Discovery, Time-series data, Pattern Recognition, Histogram Based Outlier Score (HBOS), Minimum Covariant Determinant (MCD), Isolation Forests (IF)

Abstract

Wireless Sensor Networks (WSN) refers to a group of spatially deployed and dedicated sensors for sending, recording, and monitoring the physical conditions of the environment and transmitting the collected data to a central location. The major challenge is to extract high level knowledge from such data. Detecting abnormality in such data can help finding the faulty sensor and also the sensor collecting the most interesting reading from the dataset. This paper proposes a machine learning based hybrid model for knowledge discovery that works best with multivariate time-series data. The Intel Berkeley Research lab (IBRL) dataset is one of the most trending dataset collected by a WSN is considered for the study. The spatial-temporal correlation was also taken as reference to find anomalies in the dataset using three models - 1) Histogram Based Outlier Score (HBOS), 2) Minimum Covariant Determinant (MCD) and 3) Isolation Forests (IF). Further, the electrical configuration about components of WSN has been used to find faults among the outliers found in the dataset. The results show that the proposed hybrid model with Isolation Forest outperformed with a precision of 94.86%. The experiment was also able to spot the least trustful or faulty sensors among the deployed sensors in IBRL dataset.

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Published

05-11-2019

How to Cite

1.
Vamsi PR, Chahuan A. Machine Learning Based Hybrid Model for Fault Detection in Wireless Sensors Data. EAI Endorsed Scal Inf Syst [Internet]. 2019 Nov. 5 [cited 2024 Dec. 23];7(24):e6. Available from: https://publications.eai.eu/index.php/sis/article/view/2146