[1] Li W, Li H X, Yang L et al. Study on heating characteristics of composite insulators in EHV transmission lines under different position defects[J]. Journal of Electric Power Science and Technology, 38, 246-252(2023).

[2] Huang Z, Zhang Z H, Peng X Y et al. Analysis on surface abnormal heating and the countermeasure for composite insulators[J]. Insulators and Surge Arresters, 171-175, 186(2020).

[3] Li X R, Huang Q L, Chen X L et al. Ageing analysis of composite insulators based on different heating characteristics[J]. Insulating Materials, 56, 100-107(2023).

[4] Lu M, Liu Z H, Zhang Z H et al. Laboratory simulation and mechanism study on abnormal heating of composite insulator[J]. Smart Power, 47, 66-71(2019).

[5] Ju Y F, Jiang Q, Yang H M et al. Study on influence factors of temperature rise on composite insulator with abnormal heating[J]. Smart Power, 48, 86-91(2020).

[6] Hu Q, Liu L, Xu X et al. Classification model of abnormal heating composite insulator based on random forest algorithm[J]. Power System Technology, 48, 416-425(2024).

[7] Dong Y F, Wang X J, Wang R S et al. Thermal defect detection of composite insulator based on one-dimensional residual network[J]. Infrared Technology, 45, 663-670(2023).

[8] Li T, Tao R X, Zhang R et al. Infrared characteristic of typical composite insulator heating defects and selection of field unmanned aerial vehicle infrared test parameters[J]. High Voltage Engineering, 48, 865-875(2022).

[9] Zhang D D, Wan W Y, Huang X N et al. Heat generation characteristics of mandrel carbonized composite insulators based on heat-electricity-flow coupling[J]. Power System Technology, 47, 3010-3018(2023).

[10] Wang Z H, Wang D Q, Li H T et al. Retrieval of mesospheric ozone profiles based on airglow radiation in O2 infrared atmospheric band[J]. Acta Optica Sinica, 45, 0628011(2025).

[11] Du Y X, Hu Z Q, Ge Y H et al. Distance influence and compensation of infrared temperature measurement with different intensity heat sources[J]. Infrared Technology, 41, 976-981(2019).

[12] Dai S S, Wu J H. Study on influence of ambient temperature on the accuracy of infrared temperature measurement and compensation methods[J]. Semiconductor Optoelectronics, 42, 551-555(2021).

[13] He Z P, Wei X, Li B C et al. Influence of distance and fog on infrared temperature measurement accuracy[J]. Infrared Technology, 46, 681-690(2024).

[14] Li B, Mao L H, Zhang S L et al. An wide temperature measuring range CMOS temperature sensor integrated in passive UHF RFID tag[J]. Chinese Journal of Sensors and Actuators, 27, 581-586(2014).

[15] Feng Q, Liu Y L, Xia H et al. Emissivity-correctable global detection method for infrared thermography[J]. Journal of Electronic Measurement and Instrumentation, 38, 123-130(2024).

[16] Zhang Y, Zhang X W, Li L N et al. Research progress on infrared low-emissivity thermal photonic materials (invited)[J]. Acta Optica Sinica, 44, 1925007(2024).

[17] Lü X Y, Chen Z S, Li Z G et al. Influence of environmental radiation on temperature measurement of thermal imager[J]. Infrared and Laser Engineering, 51, 20210159(2022).

[18] Xu C Y, Cao J, Yang F et al. Advances in long-range low-slow-small target detection technology (Invited)[J]. Laser & Optoelectronics Progress, 61, 2011004(2024).

[19] Tao X T, Zhang W, Gong H et al. Research on inversion calculation method of cable temperature based on RFID thermometers[J]. High Voltage Apparatus, 59, 116-124(2023).

[20] Li S Y, Xie R B, Jin B et al. Passive wireless temperature measurement system for switchgear cabinet based on radio frequency technology[J]. High Voltage Apparatus, 60, 138-147(2024).

[21] Huang L J, Pan Y J, Shen D L et al. Design of a novel CMOS temperature sensor for RFID application[J]. Microelectronics, 53, 181-188(2023).

[22] Si Y, Feng P, Yu S M et al. Embedded temperature monitoring system based on RFID temperature tag[J]. Application of Electronic Technique, 42, 57-59, 63(2016).

[23] Qiu R W, Yuan J D. A compact directional radiation ring antenna for UHF RFID reader application[J]. Journal of Fuzhou University (Natural Science Edition), 49, 39-43(2021).

[24] Wu X Y, Guan G Y, Liu Z W et al. Quantitative analysis of CO2 infrared absorption spectrum based on improved particle swarm optimization-back propagation neural network[J]. Acta Optica Sinica, 44, 1130003(2024).

[25] Yu S A, Kong W, Ma R J et al. Photon-counting lidar point cloud filtering using a backpropagation neural network[J]. Laser & Optoelectronics Progress, 61, 2415001(2024).