WILK-JAKUBOWSKI, Jacek ;WILK-JAKUBOWSKI, Grzegorz ;LOBOICHENKO, Valentyna . Experimental attempts of using modulated and unmodulated waves in low-frequency acoustic wave flame extinguishing technology: a review of selected cases. Articles in Press, [S.l.], v. 0, n.0, p. , march 2024. ISSN 0039-2480. Available at: <https://www.sv-jme.eu/article/experimental-attempts-of-using-modulated-and-unmodulated-waves-in-low-frequency-acoustic-wave-flame-extinguishing-technology-a-review-of-selected-cases/>. Date accessed: 08 may. 2024. doi:http://dx.doi.org/.
Wilk-Jakubowski, J., Wilk-Jakubowski, G., & Loboichenko, V. (0). Experimental attempts of using modulated and unmodulated waves in low-frequency acoustic wave flame extinguishing technology: a review of selected cases. Articles in Press, 0(0), . doi:http://dx.doi.org/
@article{., author = {Jacek Wilk-Jakubowski and Grzegorz Wilk-Jakubowski and Valentyna Loboichenko}, title = {Experimental attempts of using modulated and unmodulated waves in low-frequency acoustic wave flame extinguishing technology: a review of selected cases}, journal = {Articles in Press}, volume = {0}, number = {0}, year = {0}, keywords = {acoustic flame extinguishing; firefighting systems; deep neural networks; electrical and mechanical engineering; fire extinguisher; flame suppression; }, abstract = {In practice, some undesired signals perceived as noise (because of sound sensation) can be effectively used to extinguish flames. This article provides information on the applicability of acoustic waves (a case of using sine waves and sine waves amplitude modulated by a square waveform) in low-frequency acoustic wave flame extinguishing technology based on experimental results obtained from a laboratory stand, which is a scientific novelty. The benefits of using deep neural networks for flame detection on the basis of dedicated solutions developed through international cooperation are also recognized. In addition, the potential advantages of combining both technologies (use in fully automatic systems), limitations, open problems, and future plans for further research are identified. The paper concludes that it is possible to extinguish flames as soon as they appear (firebreaks) and prevent large fires from breaking out. This feature may effectively reduce material losses and increase widespread safety.}, issn = {0039-2480}, pages = {}, doi = {}, url = {https://www.sv-jme.eu/article/experimental-attempts-of-using-modulated-and-unmodulated-waves-in-low-frequency-acoustic-wave-flame-extinguishing-technology-a-review-of-selected-cases/} }
Wilk-Jakubowski, J.,Wilk-Jakubowski, G.,Loboichenko, V. 0 March 0. Experimental attempts of using modulated and unmodulated waves in low-frequency acoustic wave flame extinguishing technology: a review of selected cases. Articles in Press. [Online] 0:0
%A Wilk-Jakubowski, Jacek %A Wilk-Jakubowski, Grzegorz %A Loboichenko, Valentyna %D 0 %T Experimental attempts of using modulated and unmodulated waves in low-frequency acoustic wave flame extinguishing technology: a review of selected cases %B 0 %9 acoustic flame extinguishing; firefighting systems; deep neural networks; electrical and mechanical engineering; fire extinguisher; flame suppression; %! Experimental attempts of using modulated and unmodulated waves in low-frequency acoustic wave flame extinguishing technology: a review of selected cases %K acoustic flame extinguishing; firefighting systems; deep neural networks; electrical and mechanical engineering; fire extinguisher; flame suppression; %X In practice, some undesired signals perceived as noise (because of sound sensation) can be effectively used to extinguish flames. This article provides information on the applicability of acoustic waves (a case of using sine waves and sine waves amplitude modulated by a square waveform) in low-frequency acoustic wave flame extinguishing technology based on experimental results obtained from a laboratory stand, which is a scientific novelty. The benefits of using deep neural networks for flame detection on the basis of dedicated solutions developed through international cooperation are also recognized. In addition, the potential advantages of combining both technologies (use in fully automatic systems), limitations, open problems, and future plans for further research are identified. The paper concludes that it is possible to extinguish flames as soon as they appear (firebreaks) and prevent large fires from breaking out. This feature may effectively reduce material losses and increase widespread safety. %U https://www.sv-jme.eu/article/experimental-attempts-of-using-modulated-and-unmodulated-waves-in-low-frequency-acoustic-wave-flame-extinguishing-technology-a-review-of-selected-cases/ %0 Journal Article %R %& %P 1 %J Articles in Press %V 0 %N 0 %@ 0039-2480 %8 2024-03-11 %7 2024-03-11
Wilk-Jakubowski, Jacek, Grzegorz Wilk-Jakubowski, & Valentyna Loboichenko. "Experimental attempts of using modulated and unmodulated waves in low-frequency acoustic wave flame extinguishing technology: a review of selected cases." Articles in Press [Online], 0.0 (0): . Web. 08 May. 2024
TY - JOUR AU - Wilk-Jakubowski, Jacek AU - Wilk-Jakubowski, Grzegorz AU - Loboichenko, Valentyna PY - 0 TI - Experimental attempts of using modulated and unmodulated waves in low-frequency acoustic wave flame extinguishing technology: a review of selected cases JF - Articles in Press DO - KW - acoustic flame extinguishing; firefighting systems; deep neural networks; electrical and mechanical engineering; fire extinguisher; flame suppression; N2 - In practice, some undesired signals perceived as noise (because of sound sensation) can be effectively used to extinguish flames. This article provides information on the applicability of acoustic waves (a case of using sine waves and sine waves amplitude modulated by a square waveform) in low-frequency acoustic wave flame extinguishing technology based on experimental results obtained from a laboratory stand, which is a scientific novelty. The benefits of using deep neural networks for flame detection on the basis of dedicated solutions developed through international cooperation are also recognized. In addition, the potential advantages of combining both technologies (use in fully automatic systems), limitations, open problems, and future plans for further research are identified. The paper concludes that it is possible to extinguish flames as soon as they appear (firebreaks) and prevent large fires from breaking out. This feature may effectively reduce material losses and increase widespread safety. UR - https://www.sv-jme.eu/article/experimental-attempts-of-using-modulated-and-unmodulated-waves-in-low-frequency-acoustic-wave-flame-extinguishing-technology-a-review-of-selected-cases/
@article{{}{.}, author = {Wilk-Jakubowski, J., Wilk-Jakubowski, G., Loboichenko, V.}, title = {Experimental attempts of using modulated and unmodulated waves in low-frequency acoustic wave flame extinguishing technology: a review of selected cases}, journal = {Articles in Press}, volume = {0}, number = {0}, year = {0}, doi = {}, url = {https://www.sv-jme.eu/article/experimental-attempts-of-using-modulated-and-unmodulated-waves-in-low-frequency-acoustic-wave-flame-extinguishing-technology-a-review-of-selected-cases/} }
TY - JOUR AU - Wilk-Jakubowski, Jacek AU - Wilk-Jakubowski, Grzegorz AU - Loboichenko, Valentyna PY - 2024/03/11 TI - Experimental attempts of using modulated and unmodulated waves in low-frequency acoustic wave flame extinguishing technology: a review of selected cases JF - Articles in Press; Vol 0, No 0 (0): Articles in Press DO - KW - acoustic flame extinguishing, firefighting systems, deep neural networks, electrical and mechanical engineering, fire extinguisher, flame suppression, N2 - In practice, some undesired signals perceived as noise (because of sound sensation) can be effectively used to extinguish flames. This article provides information on the applicability of acoustic waves (a case of using sine waves and sine waves amplitude modulated by a square waveform) in low-frequency acoustic wave flame extinguishing technology based on experimental results obtained from a laboratory stand, which is a scientific novelty. The benefits of using deep neural networks for flame detection on the basis of dedicated solutions developed through international cooperation are also recognized. In addition, the potential advantages of combining both technologies (use in fully automatic systems), limitations, open problems, and future plans for further research are identified. The paper concludes that it is possible to extinguish flames as soon as they appear (firebreaks) and prevent large fires from breaking out. This feature may effectively reduce material losses and increase widespread safety. UR - https://www.sv-jme.eu/article/experimental-attempts-of-using-modulated-and-unmodulated-waves-in-low-frequency-acoustic-wave-flame-extinguishing-technology-a-review-of-selected-cases/
Wilk-Jakubowski, Jacek, Wilk-Jakubowski, Grzegorz, AND Loboichenko, Valentyna. "Experimental attempts of using modulated and unmodulated waves in low-frequency acoustic wave flame extinguishing technology: a review of selected cases" Articles in Press [Online], Volume 0 Number 0 (11 March 2024)
Articles in Press
In practice, some undesired signals perceived as noise (because of sound sensation) can be effectively used to extinguish flames. This article provides information on the applicability of acoustic waves (a case of using sine waves and sine waves amplitude modulated by a square waveform) in low-frequency acoustic wave flame extinguishing technology based on experimental results obtained from a laboratory stand, which is a scientific novelty. The benefits of using deep neural networks for flame detection on the basis of dedicated solutions developed through international cooperation are also recognized. In addition, the potential advantages of combining both technologies (use in fully automatic systems), limitations, open problems, and future plans for further research are identified. The paper concludes that it is possible to extinguish flames as soon as they appear (firebreaks) and prevent large fires from breaking out. This feature may effectively reduce material losses and increase widespread safety.