Investigation of Machine Learning-Based Acoustic 2D Gas Pyrometer

Fu Sung Lin, Man Ching Huang, Chia Hsi Wu, Jia Ling Lin, Chih Ying Li, Hsiao Chi Lin, Soma Pal, Chih Hsien Huang

研究成果: Conference contribution

摘要

Acoustic tomography (AT) is considered a promising visualization technique for gas temperature distribution (TD) in various industrial applications. The gas TD of the region of interest (ROI) can be reconstructed according to the sound velocities of multiple routes between transmitters and receivers. To improve the accuracy of the reconstruction, increasing the number of iterations is inevitable with the cost of being time-consuming. Recently, serval machine learning techniques are used to speed up the imaging reconstruction process, such as X-ray, CT, or MRI. However, to our knowledge, using machine learning on reconstructing gas TD from acoustic velocities is rarely reported. Therefore, in this research, a convolution neural network (CNN) is developed to examine the capability of reconstructing gas TD with a machine learning approach. Two models would be trained using two different datasets. One model was trained with ideal TD, the other one was trained with reconstructed TD. Besides, acoustic velocities from two gas TDs were applied to evaluate the 2D visualization performance. One TD was similar to the training data and the other were different. The results indicated that the model trained with ideal gas TD could track the hot spot more closely. However, the 2D visualization results using the model trained with ideal gas TD were poor compared to the other one trained with reconstructed TD when the input acoustic velocities of the TD with two hot spots. It indicated that the proposed method could successfully learn the relationship between TD and acoustic velocities from an ordinary reconstruction algorithm. Besides, the execution time of the proposed model was 0.109s, which is 96% less than the selected iterative reconstruction method. Consequently, the proposed neural networks should be considered as a reliable and efficient 2D gas TD reconstruction methodology.

原文English
主出版物標題IUS 2022 - IEEE International Ultrasonics Symposium
發行者IEEE Computer Society
ISBN(電子)9781665466578
DOIs
出版狀態Published - 2022
事件2022 IEEE International Ultrasonics Symposium, IUS 2022 - Venice, Italy
持續時間: 2022 10月 102022 10月 13

出版系列

名字IEEE International Ultrasonics Symposium, IUS
2022-October
ISSN(列印)1948-5719
ISSN(電子)1948-5727

Conference

Conference2022 IEEE International Ultrasonics Symposium, IUS 2022
國家/地區Italy
城市Venice
期間22-10-1022-10-13

All Science Journal Classification (ASJC) codes

  • 聲學與超音波

指紋

深入研究「Investigation of Machine Learning-Based Acoustic 2D Gas Pyrometer」主題。共同形成了獨特的指紋。

引用此