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Analysis of methods for reducing the number of false alarms in video-based fire detection systems

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EN
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The article focuses on a review and analysis of methods for reducing false alarms in video-based fire detection systems (VBFDS). The author of the article has designed a neural network and video-based flame detection algorithm to evaluate the effectiveness of methods found in the literature and other sources. The video-based flame detection algorithm was designed using a CIFAR-10-NET convolutional neural network. The D-Fire database, which contains 50000 fire images, was used to learn and test the algorithm. An error matrix was used to determine the effectiveness of the algorithm and methods to reduce the number of false alarms in video-based fire detection systems to determine parameters such as sensitivity (True Positive Rate, TPR), precision (Positive Predictive Value, PPV) and accuracy (ACC).
Twórcy
  • Military University of Technology, Faculty of Electronics, gen. Sylwestra Kaliskiego 2, 00-908 Warsaw, Poland
Bibliografia
  • [1] Klimczak T., Paś J., Duer S., Rosiński A., Wetoszka P., Białek K., Mazur M., „Selected Issues Associated with the Operational and Power Supply Reliability of Fire Alarm Systems”, Energies 2022, 15(22), 8409; DOI: 10.3390/en15228409.
  • [2] Zhang X., Qian K., Jing K., Yang J., Yu H., “Fire Detection based on Convolutional Neural Networks witch Channel Attention”, Chinese Automation Congress, China, 2020, DOI: 10.1109/CAC51589.2020.9327309.
  • [3] Chen T., Guo X., Jia J., Xiao F., “Frequency and Phase Characteristics of Candle Flame Oscillation”, Nature, 2019, DOI: 10.1038/s41598-018-36754-w.
  • [4] Paś J. Klimczak T., Rosiński A., et al. „The analysis of the operational process of a complex fire alarm systems used in transport facilities”, Build. Simul. 15, 615-629 (2022). DOI: 10.1007/s12273-021-0790-y.
  • [5] Abidha T.E., Mathai Paul P., “Reducing False Alarms in Vision Based Fire Detection with NB Classifier in EADF Framework”, Federal Institute of Science and Technology, Angmaly 2020, http://www.ijsrp.org/research-paper-0813.php?rp=P201579, accessed 10/06/2023.
  • [6] Khalil A., Rahman S. U., Alam F., Khalil I., “Fire Detection Using Multi Color Space and Background Modeling”, University of Malakand, Pakistan 2020, DOI: 10.1007/s10694-020-01030-9.
  • [7] Almeida P.V., Rezende T.M., Lisboa A.C., Barbosa A.V., “Fire Detection based on Two-Dimensional Convolutional Neural Network and Temporal Analysis”, 7th IEE LA-CCI, Temuco 2021, DOI: 10.1109/LA-CCI48322.2021.9769824.
  • [8] Lee Y., Shim J., “False Positive Decremented Research for Fire and Smoke Detection In Surveillance Camera using Spatial and Temporal Features Based on Deep Learning”, Andong National University, Andong 2019, DOI: 10.3390/electronics8101167.
  • [9] Paś J., Rosiński A., Wetoszka P., Białek K., Klimczak T., Siergiejczyk M., “Assessment of the Impact of Emitted Radiated Interference Generated by a Selected Rail Traction Unit on the Operating Process of Trackside Video Monitoring Systems”, Electronics 2022, 11, 2554. DOI: 10.3390/electronics11162554.
  • [10] Antos J., Basiak M., Kręciwilk D., “Influence of false fire alarms on the effectiveness of the fire monitoring system”, Częstochowa 2016, DOI: 10.15199/48.2016.02.48.
  • [11] Klimczak T., Paś J., “Basics of exploitation of fire alarm systems in transport facilities., Military University of Technology”, Warsaw 2020, ISBN 978-83-7938-294-1, pp.1-267.
  • [12] Karasev P., Kolesov I., Tannenbaum A., “Optical Flow Estimation for Flame Detection In Videos, IEEE Transactions on Image Processing”, 2013, DOI: 10.1109/TIP.2013.2258353.
  • [13] Jakubowski K., Paś J., Duer, S., Bugaj J., “Operational Analysis of Fire Alarm Systems with a Focused, Dispersed and Mixed Structure in Critical Infrastructure Buildings”, Energies 2021, DOI: 10.3390/en14237893.
  • [14] Paś J., Rosiński A., Wiśnios M., Stawowy M., “Assessing the Operation System of Fire Alarm Systems for Detection Line and Circuit Devices with Various Damage Intensities”, Energies 2022, 15, 3066. DOI: 10.3390/en15093066.
  • [15] A. Żyluk, M. Zieja, A. Szelmanowski, J. Tomaszewska, M. Perlińska, K. Głyda, „Electrical Disturbances in Terms of Methods to Reduce False Activation of Aerial Fire Protection Systems”, Sensors 2022, 22(20), 8059, DOI: 10.3390/s22208059.
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Bibliografia
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bwmeta1.element.baztech-2ed71016-8f2e-4922-b4d9-a0c3b04b4537
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