Comparison of GPR and unilateral NMR for water content measurements in a laboratory scale experiment

Ferrara, Carlotta; Tullio, Valeria Di; Barone, Pier Matteo; Mattei, Elisabetta; Lauro, Sebastian; Proietti, Noemi; Capitani, Donatella; Pettinelli, Elena

doi:10.3997/1873-0604.2012051

Cited by 14 publications

(17 citation statements)

References 36 publications

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“…The waveform amplitude has an inverse linear dependence on the permittivity. In particular, [14] and [15] confirmed that because the first arrival of the GPR signals is strongly dependent on variations in the shallow subsurface permittivity, the signal to noise ratio can be maximized by minimizing the interference from reflections caused by shallow interfaces.…”

Section: Methodsmentioning

confidence: 50%

Detecting Moisture Damage in Archaeology and Cultural Heritage: a Brief Introduction

Ferrara¹,

Barone²

2015

IJA

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Abstract:Moisture damage is the most important issue in the preservation and integrity of cultural heritage. This paper discusses the ability of geophysical instruments to detect this problem. Non-destructive techniques (NDTs), such as Ground Penetrating Radar (GPR), use electromagnetic (EM) impulses to investigate archaeological sites and building structures that are affected by moisture and can be used to locate and estimate the extent of damage and to develop restoration plans before permanent damage occurs. The main objective of this paper is to introduce the capacity of surface GPR to rapidly and non-invasively estimate physical soil properties, develop novel processing strategies and provide valuable information about the investigated material in archaeological and cultural heritage sites. This new approach analyzes the amplitude attributes of the GPR pulse obtained from conventional single-offset surface-coupled profiling. To achieve the objective of this study, the technique is examined in two different experimental test settings to show that GPR analyses clearly highlight dampness as ringing anomalies with a very low EM signal amplitudes that are caused by high attenuation, poor antenna coupling, and temporal stretching. These indicators are important for diagnosing cultural heritage sites by allowing for the correct and precise visualization of radargrams and time-slices of the moisture anomalies.

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Section: Methodsmentioning

confidence: 50%

Detecting Moisture Damage in Archaeology and Cultural Heritage: a Brief Introduction

Ferrara¹,

Barone²

2015

IJA

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“…2). The choice of analysing the first half-cycle comes from previous experimental and theoretical studies [1,2], where it was found that the first half-cycle is the part of the signal which exhibits the best correlation with the soil dielectric properties, maximizing the signal-to-noise ratio and minimizing interference from reflections caused by shallow interfaces. To determine the uncertainty associated with the GPR envelope amplitudes, we acquired a total of 1000 traces for each measurement.…”

Section: Discussionmentioning

confidence: 99%

“…The TDR-derived average permittivity was also compared with the GPR-derived average permittivity, which was determined from the two-way travel (TWT) time according to standard procedures. Specifically, to extract the permittivity information from the GPR data, we have calculated the cross-correlation function between the direct and reflected wavelet envelopes [2,4], determining a permittivity average value of ε r_GPR =29±2.…”

Section: Experimental Setup and Data Acquisitionmentioning

confidence: 99%

“…It has recently been demonstrated [1,2] that the 'earlytime' portion of the GPR (Ground Penetrating Radar) signal, consisting of complex superposition of the direct air and ground wave events, is dependent on the bulk electromagnetic properties of the shallow subsurface material. The early-time technique [3] is a new radar approach, which correlates the radar signal amplitude with shallow-soil dielectric properties.…”

Section: Introductionmentioning

confidence: 99%

“…So far, however, the early-time technique has been tested on GPR data acquired in a laboratory and in natural test sites [2,3] with the aim of evaluating the effect of permittivity, while the influence of conductivity has never been analysed.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

An evaluation of the early-time GPR amplitude technique for electrical conductivity monitoring

Ferrara

Barone

Mattei

et al. 2013

2013 7th International Workshop on Advanced Ground Penetrating Radar

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"In the present paper we use the recently-proposed. early-time GPR (Ground Penetrating Radar) amplitude. technique with the aim of detecting the variations of electric. conductivity in a porous material having a uniform permittivity.. A specific laboratory setup has been realised to evaluate the. sensitivity of the early-time amplitudes to the variations of the. subsurface salt concentration (i.e., conductivity). To assess the. capacity of the early-time amplitude to follow the electrical. conductivity changes, we compare the early-time results. acquired using the envelope of the first part of GPR signals with. the concurrent conductivity measured with TDR (Time Domain. Reflectometry). The GPR survey has been carried out using a. bistatic radar unit (Sensors & Software, Inc) operating at 1 GHz.. Further useful information has been derived by suitably. implementing a full-wave numerical modelling, able to. accurately analyse the features of the waves detected by the GPR. with flexible parameterization. Our results indicate that the. near-surface electromagnetic properties of the material can be. directly extracted from the GPR early-time amplitude technique.. In particular, both experimental and numerical data show a very. high correlation coefficient between the radar signal amplitude. and the TDR-derived electrical conductivities.

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Automatic detection of moisture damages in asphalt pavements from GPR data with deep CNN and IRS method

Zhang

Yang

et al. 2020

Automation in Construction

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Comparison of GPR and unilateral NMR for water content measurements in a laboratory scale experiment

Cited by 14 publications

References 36 publications

Detecting Moisture Damage in Archaeology and Cultural Heritage: a Brief Introduction

Detecting Moisture Damage in Archaeology and Cultural Heritage: a Brief Introduction

An evaluation of the early-time GPR amplitude technique for electrical conductivity monitoring

Automatic detection of moisture damages in asphalt pavements from GPR data with deep CNN and IRS method

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