Analysis of filtering problem based on online infrared continuous temperature measurement system of smelting furnace

Yue Gu; Gehua Chen; Rumao Qi; Jie Yang; Wenjing Li

doi:10.1117/12.2622910

1 December 2021 Analysis of filtering problem based on online infrared continuous temperature measurement system of smelting furnace

Yue Gu, Gehua Chen, Rumao Qi, Jie Yang, Wenjing Li

Author Affiliations +

Proceedings Volume 12079, Second IYSF Academic Symposium on Artificial Intelligence and Computer Engineering; 120792W (2021) https://doi.org/10.1117/12.2622910
Event: 2nd IYSF Academic Symposium on Artificial Intelligence and Computer Engineering, 2021, Xi'an, China

Abstract

Non-contact temperature measurement is one of the more effective methods for measuring high-temperature targets. As the front end of the entire temperature measurement system, the optical path system is responsible for receiving infrared light. The ability of the optical system to receive infrared light directly affects the accuracy of the final temperature measurement result. It is necessary to conduct an experimental analysis on the optical path system to improve the measurement accuracy of the smelting furnace's online infrared continuous temperature measurement system, which has a very important role.

Citation Download Citation

Yue Gu, Gehua Chen, Rumao Qi, Jie Yang, and Wenjing Li "Analysis of filtering problem based on online infrared continuous temperature measurement system of smelting furnace", Proc. SPIE 12079, Second IYSF Academic Symposium on Artificial Intelligence and Computer Engineering, 120792W (1 December 2021); https://doi.org/10.1117/12.2622910

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