Microwave reflectometric systems and monitoring apparatus for
                        diffused-sensing applications

Cataldo, Andrea; Benedetto, Egidio De; Schiavoni, Raissa; Tedesco, Annarita; Masciullo, Antonio; Cannazza, Giuseppe

doi:10.21014/acta_imeko.v10i3.1143

Cited by 7 publications

(5 citation statements)

References 21 publications

(21 reference statements)

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“…Microwave Reflectometry (MR) is a versatile technique used for various monitoring and diagnostic applications in numerous fields, including non-destructive evaluation [ 35 , 36 ], medical diagnostics [ 37 , 38 , 39 ], geophysical investigation [ 40 , 41 , 42 ], and remote sensing. This method is advantageous for its cost-effectiveness, prompt feedback, the capability for remote control, and high measurement accuracy.…”

Section: Foundations and Materialsmentioning

confidence: 99%

A Method for Sensing Dielectric Properties of Thin and Flexible Conductive Biocomposites

Cataldo,

Demitri,

Lamanna

et al. 2024

Sensors

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This study investigates the dielectric properties of conductive biocomposites (CBs), which are integral to the development of advanced materials for flexible electronics and medical devices. A novel method employing Microwave Reflectometry (MR) is introduced, utilizing a miniaturized Vector Network Analyzer (m-VNA) and a dedicated sensing element (SE), to extract the dielectric properties of CBs. The method is grounded in a minimization principle, aligning the measured S11 reflection scattering parameter with its electromagnetic (EM) simulation, facilitating a refined process for determining the dielectric properties. The experimental setup was meticulously engineered, optimized, and validated using reference dielectric samples (RDSs) with known dielectric properties. The method was then applied to three innovative CBs, resulting in an accurate extrapolation of their dielectric properties. The findings highlight the method’s versatility, cost-efficiency, and applicability to ultra-thin and flexible biopolymer films, offering significant potential for advancements in flexible electronics and bio-sensing applications.

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Section: Foundations and Materialsmentioning

confidence: 99%

A Method for Sensing Dielectric Properties of Thin and Flexible Conductive Biocomposites

Cataldo,

Demitri,

Lamanna

et al. 2024

Sensors

Self Cite

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“…Microwave reflectometry (MR) is a powerful tool for several monitoring and diagnostic applications [48]- [61]. Typically, in MR, an electromagnetic test signal is propagated through a sensing element.…”

Section: Theoretical Backgroundmentioning

confidence: 99%

Microwave Reflectometry Sensing System for Low-Cost in-vivo Skin Cancer Diagnostics

et al. 2023

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Skin cancer is one of the most commonly diffused cancers in the world and its incidence rates have constantly increased in recent years. At the current state of the art, there is a lack of objective, quick and non-invasive methods for diagnosing this condition; this, combined with hospital crowding, may lead to late diagnosis. Starting from these considerations, this paper addresses the implementation of a microwave reflectometry based-system that can be used as a non-invasive method for the in-vivo diagnosis and early detection of biological abnormalities, such as skin cancer. This system relies on the dielectric contrasts existing between normal and anomalous skin tissues at microwave frequencies (in a frequency range up to 3 GHz). In particular, a truncated open-ended coaxial probe was designed, manufactured and tested to sense (in combination with a miniaturized Vector Network Analyzer) the variations of skin dielectric properties in a group of volunteer patients. The specific data processing demonstrated the suitability of the system for discriminating malignant and benign lesions from healthy skin, ensuring simultaneously effectiveness, low cost, compactness, comfortability and high sensitivity.INDEX TERMS cancer diagnostics, dielectric permittivity, frequency-domain measurements, in-vivo measurements, microwave reflectometry, open ended coaxial probe, pca, skin abnormalities, skin cancer

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“…MR technique is a powerful method for a wide range of monitoring and diagnostic applications [21][22][23][24][25][26][27][28][29]. The principle behind this technique relies on measuring the reflection scattering parameter, S11(f) [30], of the sensing element (SE) when this is placed in contact with the material under test, and in relating it to the water content.…”

Section: A Microwave Reflectometry: Theoretical Backgroundmentioning

confidence: 99%

Microwave reflectometry system for non-invasive wood moisture content monitoring

Cataldo,

Masciullo,

Piuzzi

et al. 2023

Proceedings of the 2022 IMEKO TC4 International Conference on Metrology for Archaeology and Cultural Heritage

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The environmental conditions and the humidity level are crucial factors in caring for artworks. The aim of this work is to propose a method for on-site non-invasive moisture monitoring of wooden artworks or structures. In this regard, a truncated open-ended coaxial probe was designed, implemented, and tested to sense (in combination with a miniaturized Vector Network Analyzer) the variations of water content in woods and stones. More in detail, for the experimental tests, two types of wood (seasoned fir and not seasoned fir) and a limestone, used in Italian Artworks and structures, were analyzed at different moisture levels.

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Microwave reflectometric systems and monitoring apparatus for diffused-sensing applications

Cited by 7 publications

References 21 publications

A Method for Sensing Dielectric Properties of Thin and Flexible Conductive Biocomposites

A Method for Sensing Dielectric Properties of Thin and Flexible Conductive Biocomposites

Microwave Reflectometry Sensing System for Low-Cost in-vivo Skin Cancer Diagnostics

Microwave reflectometry system for non-invasive wood moisture content monitoring

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