Fire detection using video sequences in urban out-door environment

karimi zarchi, faeze; derhami, vali; Latif, Alimohammad; ebrahimi, ali

doi:10.29252/jsdp.16.3.78

Volume 16, Issue 3 (12-2019) JSDP 2019, 16(3): 78-61 | Back to browse issues page

‎ 10.29252/jsdp.16.3.78

Mendeley

Zotero

RefWorks

karimi zarchi F, derhami V, Latif A, ebrahimi A. Fire detection using video sequences in urban out-door environment. JSDP 2019; 16 (3) :78-61
URL: http://jsdp.rcisp.ac.ir/article-1-605-en.html

Fire detection using video sequences in urban out-door environment

Faeze Karimi zarchi

, Vali Derhami ^*

, Alimohammad Latif

, Ali Ebrahimi

Yazd University

Abstract: (3049 Views)

Nowadays automated early warning systems are essential in human life. One of these systems is fire detection which plays an important role in surveillance and security systems because the fire can spread quickly and cause great damage to an area. Traditional fire detection methods usually are based on smoke and temperature detectors (sensors). These methods cannot work properly in large space and out-door environments. They have high false alarm rates, and to cover the entire area, many smoke or temperature fire detectors are required, that is expensive. Due to the rapid developments in CCTV (Closed Circuit Television) surveillance system in recent years and video processing techniques, there is a big trend to replace conventional fire detection techniques with computer vision-based systems. This new technology can provide more reliable information and can be more cost-effective. The main objective of fire detection systems is high detection accuracy, low error rate and reasonable time detect. The video fire detection technology uses CCD cameras to capture images of the observed scene, which provides abundant and intuitive information for fire detection using image processing algorithms.
This paper presents an efficient fire detection system which detects fire areas by analyzing the videos that are acquired by surveillance cameras in urban out-door environment, especially in storage of Yazd Gas Company.
Proposed method uses color, spatial and temporal information that makes a good distinction between the fire and objects which are similar to the fire. The purpose is achieved using multi- filter. The first filter separates red color area as a primary fire candidate. The second filter operates based on the difference between fire candidate areas in the sequence of frames. In the last filter, variation of red channel in the candidate area is computed and compared with the threshold which is updating continuously. In the experiments, the performance of these filters are evaluated separately. The proposed final system is a combination of all filters. Experimental results show that the precision of the final proposed system in urban out-door environment is 100%, and our technique achieves the average detection rate of 87.35% which outperforms other base methods.

Keywords: Fire Detection, Video Sequences, Image Processing, Detection Time

Full-Text [PDF 4285 kb] (1231 Downloads)

Type of Study: Applicable | Subject: Paper
Received: 2016/11/4 | Accepted: 2019/06/19 | Published: 2020/01/7 | ePublished: 2020/01/7

References

1. [1] Kh. Rezaee, M. Ghezelbash, and J. hadadnia, ”Accurate and intelligent fire monitoring system in various environments using image processing,” 20th Iranian Conference on Electric, 2012.

2. [2] J. Chen, Y. He, and J. Wang, ”Multi-feature fusion based fast video flame detection, ”Building Environment Journal, vol. 45, no. 5, pp. 1113–1122, 2010.

3. [3] W. Wang, and H. Zhou, “Fire detection based on flame color and area,” International Conference on Computer Science and Automation Engineering, vol. 3, pp. 222–226,2012.

4. [4] Q. Zhou, X. Yang, and L. Bu, “Analysis of shape features of flame and interference image in video fire detection,” Chinese Automation Congress (CAC, pp. 633–637), 2015.

5. [5] A. E Cetin, et al,”Video fire detection - review,” Digital Signal Processes A Reveiw Journal, vol. 23, no.6, pp. 1827–1843, 2013.

6. [6] H. Chao, and K. Tzu-Hsin, “Real-time video-based fire smoke detection system,” International Conference on Advanced Inteliigent Mechatronics, pp.1845-1850, 2009.

7. [7] B. Ko, K. Cheong, and J, Nam,”Early fire detection algorithm based on irregular patterns of flames and hierarchical Bayesian Networks,” Fire Safety Journal, vol. 45, no.4, pp. 262-270, 2010.

8. [8] B. C. KO, K. H. Cheong, and J-. Nam,”Fire detection based on vision sensor and support vector machines,”Fire Safety Journal, vol. 44, no. 3, pp. 322–329, 2009.

9. [9] W. Phillips, and M. Shah, and N. D. V. Lob, “Flame recognition in video,” Pattern Recognition Letters, vol. 23, pp. 319-327, 2002.

10. [10] J. Seebamrungsat, S. Praising, and P. Riyamongkol,”Fire detection in the buildings using image processing,” Third ICT International Student Project Conference, pp. 95–98, 2014.

11. [11] G. F. Shidik, et al., “Multi color feature background subtraction and time frame selection for fire detection,” IEEE International Con-ference on Robotics, Biomimetics, and Inte-lligent Computational Systems (ROBIONETICS), pp. 115-120, 2013.

12. [12] T. Ceilik, H. Ozkaramanli, and H. Demirel, ”Fire pixel classification using fuzzy logic and statistical color model,” in IEEE Inter-national Conference on Acoustics, Speech and Signal Processing (ICASSP), vol. 1, pp. 1000–1205, 2007.

13. [13] B.-H. Cho, J.-W. Bae, and S.-H. Jung, ”Image processing-based fire detection system using statistic color model,” 8th International Conference on Advanced Language Processing and Web Information Technology, pp. 245–250, 2008.

14. [14] T-H. Chen, P-H. Wu, and Y. Chiou,”An early fire-detection method based on image processing,” in International Conference on Image Processing, (ICIP ’04), vol. 3, pp. 1707–1710, 2004.

15. [15] S. C. Pol, et al., "Fire detection using image processing and sensors," International Journal of Engineering Trends and Applications, vol. 3, pp. 85–87, 2016.

16. [16] B. U. Toreyin, Y. Dedeoglu, U. Gudukbay, and A. E. Cetin,”Computer vision based method for real-time fire and flame detection,” Pattern Recognition Letters, vol. 27, pp. 49–58, 2006.

17. [17] T. X. Truong, and J. Kim, ”Fire flame detection in video sequences using multi-stage pattern re-cognition techniques,” Engineering Applications of Artificial Intelligence, vol. 25, no. 7, pp. 1365-1372, 2012.

18. [18] Y. Zhao, and G. Tang, ”Fire video recognition based on flame and smoke characteristics,” in The 2nd International Conference on Systems and Informatics (ICSAI 2014),pp. 113–118, 2014.

19. [19] K. Dimitropolos, P. Barmpoutis, N. Grammalidis, “Spatio-temporal flame modeling and dynamic texture analysis for automatic video-based fire detection,” IEEE transactions on circuits and systems for video technology, vol. 25, no. 2, pp.339-351, 2015.

20. [20] X-L. Zhou, et al.,”Early fire detection based on flame contours in video,” Information Tech-nology Journal, vol. 9, no. 5, pp. 899-908, 2010.

21. [21] M. Akarami, “Study and improvement of fire detection algorithm in video images”, M.S. Thesis, Faculty of Electrical and Computer Engineering, Yazd University, 2012.

22. [22] B. U. Toreyin, Y. Dedeoglu, and A. E. Cetin, ”Flame detection in video using hidden Markov models, ” in IEEE International Conference on Image Processing, vol. 2, pp. 1230–1233, 2005.

23. [23] J. Rong, et al.,”Fire flame detection based on GICA and target tracking,” Optics &. Laser Technology, vol. 47, pp. 283–291, 2013.

24. [24] H. SunJae. ,K. Byoungchul, and N. Jae, “Fire-flame detection based on fuzzy finite automation,” 20th International Conference on Pattern Recognition(ICPR), pp.3919-3922, 2010.

25. [25] J. Z, et al., ”SVM based forest fire detection using static and dynamic features, ” Computer Science Information Systems Journal, vol. 8, no. 3, pp. 821–841, 2011.

26. [26] J. Antony, and J. C. Prasad, “Real Time Fire and smoke detection using multi-expert system for video-surveillance,” international journal for innovative research in science & technology, vol. 3, 2016.

27. [27] K. Muhammad, J. Ahmad, and S. Wookbaik, “Early fire detection using convolutional neural networks duringnsurveillance for effective disaster management,” Neurocomputing, vol. 288, pp. 30-42, 2018.

28. [28] H. Xian-Feng, et al., “Video fire detection based on gaussian mixture model and multi-color features,” Signal, Image and Video Processing, vol. 11, no. 8, pp. 1419-1425, 2017.

29. [29] M. Mahdavi, H. Ahaki, and B, NaserSharif, “Design of a currency recognition system based on neural network using image texture and color ”, Signal and Date Processing Journal, Issue. 7, No. 2, 2011.

30. [30] A. Feizy, “Application of Sparse representation and camera collaboration in visual surveillance systems,” Signal and Date Processing Journal, Issue. 15, No. 3, 2018.

Send email to the article author

Rights and permissions
	This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

Signal and Data Processing

Vote