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- Title
Internet of Things Based Oil Pipeline Spill Detection System Using Deep Learning and LAB Colour Algorithm.
- Authors
Obaid, Muhammad H.; Hamad, Ali H.
- Abstract
Given the role that pipelines play in transporting crude oil, which is considered the basis of the global economy and across different environments, hundreds of studies revolve around providing the necessary protection for it. Various technologies have been employed in this pursuit, differing in terms of cost, reliability, and efficiency, among other factors. Computer vision has emerged as a prominent technique in this field, albeit requiring a robust image-processing algorithm for spill detection. This study employs image segmentation techniques to enable the computer to interpret visual information and images effectively. The research focuses on detecting spills in oil pipes caused by leakage, utilizing images captured by a drone equipped with a Raspberry Pi and Pi camera. These images, along with their global positioning system (GPS) location, are transmitted to the base station using the message queuing telemetry transport Internet of Things (MQTT IoT) protocol. At the base station, deep learning techniques, specifically Holistically-Nested Edge Detection (HED) and extreme inception (Xception) networks, are employed for image processing to identify contours. The proposed algorithm can detect multiple contours in the images. To pinpoint a contour with a black color, representative of an oil spill, the CIELAB color space (LAB) algorithm effectively removes shadow effects. If a contour is detected, its area and perimeter are calculated to determine whether it exceeds a certain threshold. The effectiveness of the proposed system was tested on Iraqi oil pipeline systems, demonstrating its capability to detect spills of different sizes.
- Subjects
PETROLEUM pipelines; OIL spills; BASE oils; INTERNET of things; COLOR space; IMAGE segmentation; DEEP learning
- Publication
Iraqi Journal for Electrical & Electronic Engineering, 2024, Vol 20, Issue 1, p137
- ISSN
1814-5892
- Publication type
Article
- DOI
10.37917/ijeee.20.1.14