chipless rfid sensor tag for metal crack detection and characterization

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This paper presents a novel use of the frequency signature-based chipless RFID for metal crack detection and characterization operating in ultra-wideband frequency. The vision is to . We demonstrate that the multiresonance chipless RFID sensor tag in conjunction with PCA-based feature extraction and selection can be applied for the characterization of .

This paper presents a novel use of the frequency signature-based chipless RFID for metal crack detection and characterization operating in ultra-wideband frequency. The vision is to implement a low-cost and high-temperature-resistant passive wireless sensor able to monitor the crack on a metallic structure with multiparameter detection. We demonstrate that the multiresonance chipless RFID sensor tag in conjunction with PCA-based feature extraction and selection can be applied for the characterization of metal crack with different widths and orientations. We propose a chipless RFID sensor tag integrating four tip-loaded dipole resonators as a 4-bit ID encoder and a circular microstrip patch antenna (CMPA) resonator as a crack sensor.This paper introduces a depolarizing chipless RFID sensor tag design for characterization of metal cracks based on dual resonance features. The proposed chipless RFID sensor tag integrates a modified circular patch antenna with notched edges as .

signature based chipless RFID for metal crack detection and characterization operating in ultra-wideband (UWB) frequency. The vision is to implement a low-cost and high-temperature-resistant passive wireless sensor able to monitor the crack on a metallic structure with multi-parameter detection. We propose a chipless RFID sensor tag integrating . For concrete crack monitoring based on RFID technology, this study introduces the realization of UHPC beam crack detection based on RFID technology and a new wireless RFID sensor tag to measure the opening of the crack, as well as some UHF RFID sensors for concrete crack monitoring.Chipless RFID Sensor Tag for Metal Crack Detection and Characterization. Marindra, Adi Mahmud Jaya. ; Tian, Gui Yun. Publication: IEEE Transactions on Microwave Theory Techniques. Pub Date: May 2018. DOI:

This research aims to deploy crack detection on metallic surfaces using passive chipless RFID sensors, analyze the amplitude-frequency characteristics of crack formation and distinguish cracks of varying widths and orientations.marindra and tian: chipless rfid sensor tag for metal crack detection and characterization vi. C ONCLUSION A novel use of the frequency signature-based chipless RFID for metal crack detection and characterization has been demonstrated and validated by both simulation and experimental studies.This paper presents a development of the chipless RFID tag for the metal crack detection. A circular microstrip patch antenna (CMPA) resonator was employed as a main part of the chipless RFID tag.This paper presents a novel use of the frequency signature-based chipless RFID for metal crack detection and characterization operating in ultra-wideband frequency. The vision is to implement a low-cost and high-temperature-resistant passive wireless sensor able to monitor the crack on a metallic structure with multiparameter detection.

We demonstrate that the multiresonance chipless RFID sensor tag in conjunction with PCA-based feature extraction and selection can be applied for the characterization of metal crack with different widths and orientations. We propose a chipless RFID sensor tag integrating four tip-loaded dipole resonators as a 4-bit ID encoder and a circular microstrip patch antenna (CMPA) resonator as a crack sensor.

This paper introduces a depolarizing chipless RFID sensor tag design for characterization of metal cracks based on dual resonance features. The proposed chipless RFID sensor tag integrates a modified circular patch antenna with notched edges as .signature based chipless RFID for metal crack detection and characterization operating in ultra-wideband (UWB) frequency. The vision is to implement a low-cost and high-temperature-resistant passive wireless sensor able to monitor the crack on a metallic structure with multi-parameter detection. We propose a chipless RFID sensor tag integrating . For concrete crack monitoring based on RFID technology, this study introduces the realization of UHPC beam crack detection based on RFID technology and a new wireless RFID sensor tag to measure the opening of the crack, as well as some UHF RFID sensors for concrete crack monitoring.Chipless RFID Sensor Tag for Metal Crack Detection and Characterization. Marindra, Adi Mahmud Jaya. ; Tian, Gui Yun. Publication: IEEE Transactions on Microwave Theory Techniques. Pub Date: May 2018. DOI:

This research aims to deploy crack detection on metallic surfaces using passive chipless RFID sensors, analyze the amplitude-frequency characteristics of crack formation and distinguish cracks of varying widths and orientations.marindra and tian: chipless rfid sensor tag for metal crack detection and characterization vi. C ONCLUSION A novel use of the frequency signature-based chipless RFID for metal crack detection and characterization has been demonstrated and validated by both simulation and experimental studies.

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Multiresonance Chipless RFID Sensor Tag for Metal Defect

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Chipless RFID Sensor Tag for Metal Crack Detection and

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chipless rfid sensor tag for metal crack detection and characterization|Multiresonance Chipless RFID Sensor Tag for Metal Defect

chipless rfid sensor tag for metal crack detection and characterization|Multiresonance Chipless RFID Sensor Tag for Metal Defect .

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