passive uhf rfid tag as a sensor for crack depths This paper proposes the design of an Ultra High-frequency (UHF) based passive radio frequency identification (RFID) passive tag-sensor to monitor the structural crack of a . The Auburn Sports Network broadcast can be heard locally on 94.3 FM, on affiliate stations throughout the Southeast, or streamed anywhere on the Auburn Tigers app or on .
0 · Passive UHF RFID tag as a sensor for crack depths
1 · Passive UHF RFID Tag as a Sensor for Crack Depths
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In this paper, we investigated and developed a new technique for crack depth sensing by using a passive UHF RFID tag as a sensor which interrogated by the ThingMagic . This paper proposes the design of an Ultra High-frequency (UHF) based passive radio frequency identification (RFID) passive tag-sensor to monitor the structural crack of a .
In this paper, we investigated and developed a new technique for crack depth sensing by using a passive UHF RFID tag as a sensor which interrogated by the ThingMagic M6e platform. The wireless power transfer level and the frequency sweeping are used to match between tag impedance and metal induction effect. This paper proposes the design of an Ultra High-frequency (UHF) based passive radio frequency identification (RFID) passive tag-sensor to monitor the structural crack of a coal mining.In this article, we investigated and developed a new technique for crack depth sensing by using a passive UHF RFID tag as a sensor which interrogated by thingmagic M6e platform. Wireless power transfer WPT level and the frequency sweeping are used to match between tag impedance and metal induction effect. Overall, this investigation presents the design of a passive RFID tag antenna sensor that is sensitive to sub-millimeter-resolution surface cracks with varying crack depths and widths using a cascaded ML algorithm.
Passive UHF RFID tag as a sensor for crack depths
Passive UHF RFID Tag as a Sensor for Crack Depths by Mugahid Omer, Gui Yun Tian, Bin Gao, Dongming Su published in IEEE Sensors Journal.
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The sensor based on ultra-high frequency radio frequency identification (UHF RFID) antenna has the advantages of passive wireless, low cost, and great potential in the field of metallic structure health monitoring. This paper introduces an ultra-high frequency (UHF) passive RFID sensor system for crack detection and potential structural monitoring. The working principles and major research challenges are presented for the new concept of NDT&E sensor systems.
In this paper, we investigated and developed a new technique for crack depth sensing by using a passive UHF RFID tag as a sensor which interrogated by the ThingMagic M6e platform. The wireless power transfer level and the frequency sweeping are used to match between tag impedance and metal induction effect. This work mainly presents a novel passive, wireless RFID-based tag antenna sensor for localized surface crack characterization on metal. A rigid circular patch antenna sensor was designed to operate in the ultra-high frequency (UHF) range of 902–––928 MHz using HFSS®, Ansys Inc., USA software. In this paper, aimed at the key parts of a metallic structure, a dual-tag system is used for crack monitoring. In conjunction with mode analysis, the principles of the sensing tag and the coupling principles of the dual-tag are analyzed.
In this paper, we investigated and developed a new technique for crack depth sensing by using a passive UHF RFID tag as a sensor which interrogated by the ThingMagic M6e platform. The wireless power transfer level and the frequency sweeping are used to match between tag impedance and metal induction effect. This paper proposes the design of an Ultra High-frequency (UHF) based passive radio frequency identification (RFID) passive tag-sensor to monitor the structural crack of a coal mining.In this article, we investigated and developed a new technique for crack depth sensing by using a passive UHF RFID tag as a sensor which interrogated by thingmagic M6e platform. Wireless power transfer WPT level and the frequency sweeping are used to match between tag impedance and metal induction effect. Overall, this investigation presents the design of a passive RFID tag antenna sensor that is sensitive to sub-millimeter-resolution surface cracks with varying crack depths and widths using a cascaded ML algorithm.
Passive UHF RFID Tag as a Sensor for Crack Depths by Mugahid Omer, Gui Yun Tian, Bin Gao, Dongming Su published in IEEE Sensors Journal. The sensor based on ultra-high frequency radio frequency identification (UHF RFID) antenna has the advantages of passive wireless, low cost, and great potential in the field of metallic structure health monitoring. This paper introduces an ultra-high frequency (UHF) passive RFID sensor system for crack detection and potential structural monitoring. The working principles and major research challenges are presented for the new concept of NDT&E sensor systems.
In this paper, we investigated and developed a new technique for crack depth sensing by using a passive UHF RFID tag as a sensor which interrogated by the ThingMagic M6e platform. The wireless power transfer level and the frequency sweeping are used to match between tag impedance and metal induction effect. This work mainly presents a novel passive, wireless RFID-based tag antenna sensor for localized surface crack characterization on metal. A rigid circular patch antenna sensor was designed to operate in the ultra-high frequency (UHF) range of 902–––928 MHz using HFSS®, Ansys Inc., USA software.
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passive uhf rfid tag as a sensor for crack depths|Passive UHF RFID tag as a sensor for crack depths