assessing the capabilities of a new linear inversion method for quantitative microwave imaging

We investigate the imaging capabilities of a new linear microwave imaging approach, which allows to quantitative retrieve the complex permittivity distribution of unknown nonweak targets. To this end, we carry out a parametric numerical analysis for a canonical scatterer (a homogeneous dielectric cylinder with circular cross section) and derive a quantitative criterion to foresee the method's applicability. The reliability of the criterion is then tested against noncanonical scatterers to show the effectiveness of the method in imaging nonweak targets and in outperforming the linearized inversion method based on the standard Born approximation

An Effective Method for Borehole Imaging of Buried Tunnels

Detection and imaging of buried tunnels is a challenging problem which is relevant to both geophysical surveys and security monitoring. To comply with the need of exploring large portions of the underground, electromagnetic measurements carried out under a borehole configuration are usually exploited. Since this requires to drill holes in the soil wherein the transmitting and receiving antennas have to be positioned, low complexity of the involved apparatus is important. On the other hand, to effectively image the surveyed area, there is the need for adopting efficient and reliable imaging methods. To address these issues, in this paper we investigate the feasibility of the linear sampling method (LSM), as this inverse scattering method is capable to provide almost real-time results even when 3D images of very large domains are built, while not requiring approximations of the underlying physics. In particular, the results of the reported numerical analysis show that the LSM is capable of performing the required imaging task while using a quite simple measurement configuration consisting of two boreholes and a few number of multiview-multistatic acquisitions

Strategies and Techniques for Powering Wireless Sensor Nodes through Energy Harvesting and Wireless Power Transfer

The continuous development of the internet of things (IoT) infrastructure and applications is paving the way for advanced and innovative ideas and solutions, some of which are pushing the limits of state-of-the-art technology. The increasing demand for Wireless Sensor Nodes (WSNs) able to collect and transmit data through wireless communication channels, while often positioned in locations that are difficult to access, is driving research into innovative solutions involving energy harvesting (EH) and wireless power transfer (WPT) to eventually allow battery-free sensor nodes. Due to the pervasiveness of radio frequency (RF) energy, RF EH and WPT are key technologies with the potential to power IoT devices and smart sensing architectures involving nodes that need to be wireless, maintenance free, and sufficiently low in cost to promote their use almost anywhere. This paper presents a state-of-the-art, ultra-low power 2.5 W highly integrated mixed-signal system on chip (SoC), for multi-source energy harvesting and wireless power transfer. It introduces a novel architecture that integrates an ultra-low power intelligent power management, an RF to DC converter with very low power sensitivity and high power conversion efficiency (PCE), an Amplitude-Shift-Keying/Frequency-Shift-Keying (ASK/FSK) receiver and digital circuitry to achieve the advantage to cope, in a versatile way and with minimal use of external components, with the wide variety of energy sources and use cases. Diverse methods for powering wireless Sensor Nodes through energy harvesting and wireless power transfer are implemented providing related system architectures and experimental results

Analysis of viral nucleic acids in duodenal biopsies from adult patients with active celiac disease: in search for an etiological relationship

BACKGROUND AND AIM: Celiac Disease (CD) is a multisystemic chronic inflammatory autoimmune disease which develops in genetically predisposed subjects and it is triggered by the ingestion of gluten. After the interaction between HLA-DQ2/DQ8 and gluten-derived peptides, lymphocytes T CD4+ start a specific immune response which ends in a chronic inflammation and mucosal damage. CD pathogenesis is complex and not entirely understood, probably due to an alteration in the gastrointestinal immune system or to its aberrant regulation. Furthermore, many environmental and immune factors could be involved, particularly viral infections. The aim of the study was to observe possible relationships between CD and infections from HHV-6 A/B, EBV, CMV, adenovirus and rotavirus. MATERIAL AND METHODS: Thirty-nine adult patients (aged 18-65 yrs) have been enrolled: specifically, 24 duodenal biopsies from active CD patients and 15 biopsies from non-CD patients were analyzed. CD diagnosis has been performed by means of serological antibodies, histology of duodenal biopsies and duodenal biopsy organ culture. Viral nucleic acids were extracted from duodenal biopsies and then amplified using Real-Time PCR technique. RESULTS: HHV-6B was found in 62.5% of CD patients and in 73.3% of non-CD patients (p=0.13). EBV was found in 4.5% of CD patients and 6.7% of non-CD patients (p=0.35). Nucleic acids from HHV-6A, CMV, adenovirus and rotavirus were not detected in any group. HHV-6B viral load in CD patients was higher than in non-CD patients, but data were not statistically significant (p=0.54). CD patients with HHV-6B viral load >50000 copies/ml resulted to be younger and had lower anti-tTG antibody titers found at organ culture than patients with lower HHV-6B viral load (p>0.05). CONCLUSIONS: There seems to be no difference in viral load and/or in the detection of viruses between CD and non-CD patients. Thus, our data do not support the possible relationship between CD and viral infections, although a larger population is needed to confirm our study results

Recurrence of gastrointestinal and extra-intestinal symptoms in celiac patients affected by nickel allergic contact mucositis: when proper gluten-free diet is not enough

BACKGROUND AND AIM: Nickel (Ni) is a metal widely present in nature and the prevalence of Ni allergy is increasing. Allergic contact mucositis (MAC) induced by Ni-rich foods is often responsible for IBS-like disorders and it can be diagnosed by means of a Ni oral mucosa patch test (omPT). It has been observed that, after several months of correct gluten-free diet (GFD), many celiac disease (CD) patients show a recrudescence of gastrointestinal and extra-intestinal symptoms, although serological and histological remission has been achieved. This can be due to a Ni load induced by GFD: a greater consumption of Ni-rich foods (e.g. corn) would lead to a consequent intestinal sensitization to Ni in predisposed subjects. Our study aimed to assess the role played by Ni in the recurrence of symptoms in CD subjects after strict GFD. MATERIAL AND METHODS: Twenty celiac patients (all female, age 23-65 yrs) in serological and histological remission after at least 12 months of GFD have been consecutively included: they all were complaining recurrence gastrointestinal and extra-intestinal symptoms. Subjects with organic gastrointestinal pathologies were excluded. A symptom questionnaire (GSRS modified according to the Salerno Experts' Criteria) has been administered to all patients in 4 stages: T0 (during free diet - active CD); T1 (after 12 months of GFD - CD remission); T2 (during GFD - recurrence of symptoms); T3 (during GFD and after 3 months of low-Ni diet). Ni omPT was performed at T2. Statistical analysis was performed using Wilcoxon signed rank test. RESULTS: All 20 patients showed positive Ni omPT, with local and/or systemic alterations confirming Ni ACM diagnosis. The analysis obtained by comparing T2-T3 showed p-value <0.01 for: abdominal pain, bloating, swelling, increased number of evacuations, dermatitis, asthenia; p-value values <0.05 for: heartburn, acid regurgitation, borborygmus, flatulence, loose stools, urgent need for defecation, headache. The other variables were statistically not significant. CONCLUSIONS: Our data suggest that gastrointestinal and extra-intestinal symptoms observed in CD subjects after prolonged and correct GFD may be due to the necessary dietary change and an increased Ni intake. Specifically, these patients developed Ni MAC, diagnosed by specific Ni omPT. We also observed that regression of symptoms may occur after a proper low-Ni diet. We can conclude that GFD may lead to an increased consumption of Ni-rich foods and this could explain the recurrence of apparently gluten-dependent symptoms

Role of extracellular microvesicles in celiac disease as potential pathogenetic agents and biomarkers of intestinal inflammation

BACKGROUND AND AIM: Celiac Disease (CD) is a chronic intestinal disease caused by the ingestion of gluten. Microvesicles (MVs) belong to a heterogeneous population, released by cells both in homeostasis and pathological conditions. MVs can be considered mediators of inflammation and potential biomarkers. The aim of this study is: 1) to evaluate the possible role of MVs in the propagation of inflammation in CD, using MVs purified by supernatant of duodenal biopsies from CD patients; 2) to identify potential biomarkers by proteomic analysis of pasma-derived MVs from CD patients. MATERIAL AND METHODS: MVs were isolated by molecular exclusion chromatography and ultracentrifugation respectively from plasma and culture supernatant of duodenal biopsies of 10 active CD, 5 remission CD and 6 controls. Proteomic analysis of plasma-derived MVs was performed by mass spectrometry. The possible effects of duodenal-derived MVs on confluent Caco-2 cells were evaluated by measuring Transepithelial Electrical Resistance (TEER) and analyzing the expression of actin, tissue transglutaminase (TG2) and Zonula Occludens-1 (ZO-1). The dosage of IL-8 in the Caco-2 culture supernatant was carried out by ELISA test. The statistical analysis of the data obtained was performed using the Student's t-test. RESULTS: The proteomic analysis of circulating MVs showed 8 proteins from desmosome and cytoskeleton (desmoglein-1 and gamma-enteric actin) associated with the active phase of the disease. Caco-2 cells, treated with the MVs purified from the duodenal biopsies of active CD patients showed: 1) rearrangement of actin filaments; 2) increased expression of TG2; 3) decreased expression of the ZO-1 protein, although an alteration of intestinal permeability was not observed. The analysis of Caco-2 cell supernatants showed a statistically significant increase in IL-8 (p <0.05), in the presence of MVs isolated from biopsies of active CD patients, compared to remission CD patients and controls. CONCLUSIONS: MVs isolated from plasma of active CD patients could represent potential diagnostic and prognostic biomarkers. Although they don’t induce changes in intestinal permeability, MVs could contribute to inflammatory cascade increasing IL-8 production

Microwave Imaging and Electromagnetic Inverse Scattering Problems

Microwave imaging techniques allow for the development of systems that are able to inspect, identify, and characterize in a noninvasive fashion under different scenarios, ranging from biomedical to subsurface diagnostics as well as from surveillance and security applications to nondestructive evaluation. Such great opportunities, though, are actually severely limited by difficulties arising from the solution of the underlying inverse scattering problem. As a result, ongoing research efforts in this area are devoted to developing inversion strategies and experimental apparatus so that they are as reliable and accurate as possible with respect to reconstruction capabilities and resolution performance, respectively. The intent of this Special Issue is to present the experiences of leading scientists in the electromagnetic inverse scattering community, as well as to serve as an assessment tool for people who are new to the area of microwave imaging and electromagnetic inverse scattering problems

Dielectric cloaks as analytical or numerical solutions of inverse scattering problems

In this paper, the synthesis of dielectric cloaks is solved in terms of an inverse scattering problem (ISP), where the overall solution is partially known (the object or collection of scatterers to be hidden) and partially unknown (the coating or cloak). In a 2D domain and for TMz incident polarization, the cloaking effect is first analytically demonstrated in quasi-static regime, confirming the plasmonic cloaking approach. The main novelty is numerically exploring, beyond the subwavelength limit, novel layouts of cloaks without any negative or near-zero dielectric value on the inside

Towards Printable Natural Dielectric Cloaks via Inverse Scattering Techniques

The synthesis of non-magnetic 2D dielectric cloaks as proper solutions of an inverse scattering problem is addressed in this paper. Adopting the relevant integral formulation governing the scattering phenomena, analytic and numerical approaches are exploited to provide new insights on how frequency and direction of arrival of the incoming wave may influence the cloaking mechanism in terms of permittivity distribution within the cover region. In quasi-static (subwavelength) regime a solution is analytically derived in terms of homogeneous artificial dielectric cover with ε < ε0, which is found to be a necessary and sufficient condition for achieving omnidirectional cloaking. On the other hand, beyond quasi-static regime, the cloaking problem is addressed as an optimization task looking for only natural dielectric coatings with ε > ε0 able to hide the object for a given number of directions of the incident field. Simulated results confirm the validity of both analytic and numerical methodologies and allow to estimate effective bandwidths both in terms of frequency range and direction of arrival of the impinging field

Second Harmonic Beam Shaping and Sensing in Dielectric Bow-Tie Antenna via Convex Optimization Array Synthesis Approach

We propose a convex optimization approach for an array synthesis pattern to enhance the electromagnetic field in the gap region of a dielectric bow-tie antenna. This method allows the induction of the desired antenna modes by exploiting the concurrent excitation of the structure with plane waves with different propagation directions and complex amplitudes. By engineering the excitation coefficients of the array, different modes are excited in the bow-tie antenna and the radiation pattern of the generated second harmonic (SH) field is modified accordingly. Using our approach, we demonstrate both the feasibility of performing synthesis of the SH radiation pattern in dielectric antennas and the possibility of developing innovative sensing applications in photonics