Author
Listed:
- Jesus Olivares-Mercado
(Instituto Politecnico Nacional, ESIME Culhuacan, Mexico City 04440, Mexico)
- Karina Toscano-Medina
(Instituto Politecnico Nacional, ESIME Culhuacan, Mexico City 04440, Mexico)
- Gabriel Sánchez-Perez
(Instituto Politecnico Nacional, ESIME Culhuacan, Mexico City 04440, Mexico)
- Aldo Hernandez-Suarez
(Instituto Politecnico Nacional, ESIME Culhuacan, Mexico City 04440, Mexico)
- Hector Perez-Meana
(Instituto Politecnico Nacional, ESIME Culhuacan, Mexico City 04440, Mexico)
- Ana Lucila Sandoval Orozco
(Group of Analysis, Security and Systems (GASS), Department of Software Engineering and Artificial Intelligence (DISIA), Faculty of Computer Science and Engineering, Office 431, Universidad Complutense de Madrid (UCM), Calle Profesor José García Santesmases, 9, Ciudad Universitaria, 28040 Madrid, Spain)
- Luis Javier García Villalba
(Group of Analysis, Security and Systems (GASS), Department of Software Engineering and Artificial Intelligence (DISIA), Faculty of Computer Science and Engineering, Office 431, Universidad Complutense de Madrid (UCM), Calle Profesor José García Santesmases, 9, Ciudad Universitaria, 28040 Madrid, Spain)
Abstract
This paper proposes a methodology for early fire detection based on visual smoke characteristics such as movement, color, gray tones and dynamic texture, i.e., diverse but representative and discriminant characteristics, as well as its ascending expansion, which is sequentially processed to find the candidate smoke regions. Thus, once a region with movement is detected, the pixels inside it that are smoke color are estimated to obtain a more detailed description of the smoke candidate region. Next, to increase the system efficiency and reduce false alarms, each region is characterized using the local binary pattern, which analyzes its texture and classifies it by means of a multi-layer perceptron. Finally, the ascending expansion of the candidate region is analyzed and those smoke regions that maintain or increase their ascending growth over a time span are considered as a smoke regions, and an alarm is triggered. Evaluations were performed using two different classifiers, namely multi-Layer perceptron and the support vector machine, with a standard database smoke video. Evaluation results show that the proposed system provides fire detection accuracy of between 97.85% and 99.83%.
Suggested Citation
Jesus Olivares-Mercado & Karina Toscano-Medina & Gabriel Sánchez-Perez & Aldo Hernandez-Suarez & Hector Perez-Meana & Ana Lucila Sandoval Orozco & Luis Javier García Villalba, 2019.
"Early Fire Detection on Video Using LBP and Spread Ascending of Smoke,"
Sustainability, MDPI, vol. 11(12), pages 1-16, June.
Handle:
RePEc:gam:jsusta:v:11:y:2019:i:12:p:3261-:d:239362
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