RF Systems Design for Simultaneous Wireless Information and Power Transfer (SWIPT) in Automation and Transportation

This work presents some recent solutions that exploit the wireless power transfer (WPT) technology for energizing moving vehicles and machinery tools. Such technology is currently experiencing unprecedented interests in non-traditional RF/microwave sectors fields, such the industrial automation and the railway transportation safety. Near-field electromagnetic coupling solutions are presented showing that, in order to obtain efficient performances for broad ranges of operating conditions, the nonlinear electromagnetic co-design of the entire WPT system, from the energy source to the receiver load, needs to be carried out. This technology can be combined with wireless data transfer, thus realizing integrated systems able to simultaneously control the energy transfer and the transmission of data. The adopted operating frequencies are in the MHz range, which is only recently considered for this kind of applications. In particular this work focuses on three different systems: the first one demonstrates the constant powering of “on the move” industrial charts at 6.78 MHz, regardless of the relative position of the transmitter and the receiver sub-systems; the second one presents a novel design of a balise transportation system adopting a high efficiency GaN-based transmitter designed to keep its performance over a wide range of loading conditions; the last one consists of the simultaneous wireless power and data transfer, to a rotating machinery tool, automatically controlled by the powering system based on the coexistence of frequency-diverse inductive and capacitive couplings

A web of things approach for indoor position monitoring of elderly and impaired people

Helping, assisting and taking care of the elderly and of impaired people is one of the greatest challenges in our society. Within this paper, we propose a new approach for indoor position monitoring of people, aiming to identify in real time dangerous situations. In order to boost interoperability and continuous adaptation of the devices used, a Web Of Things based solution will be proposed and evaluated. Our contribution, in particular, consists of a portable and user friendly Radio Frequency IDentification (RFID) reader exploiting monopulse radar and beam-steering capabilities. Such hardware, exploiting a set of software modules, will be located in an environment easily accessible and extensible to a growing number of devices. The application will be the result of the cooperation between software and hardware, eventually outlining a real and completely flexible Web Of Things environment

The 2016–2017 earthquake sequence in Central Italy: macroseismic survey and damage scenario through the EMS-98 intensity assessment

In this paper we describe the macroseismic effects produced by the long and destructive seismic sequence that hit Central Italy from 24 August 2016 to January 2017. Starting from the procedure adopted in the complex field survey, we discuss the characteristics of the building stock and its classification in terms of EMS-98 as well as the issues associated with the intensity assessment due to the evolution of damage caused by multiple shocks. As a result, macroseismic intensity for about 300 localities has been determined; however, most of the intensities assessed for the earthquakes following the first strong shock on 24 August 2016, represent the cumulative effect of damage during the sequence. The earthquake parameters computed from the macroseismic datasets are compared with the instrumental determinations in order to highlight critical issues related to the assessment of macroseismic parameters of strong earthquakes during a seismic sequence. The results also provide indications on how location and magnitude computation can be strongly biased when dealing with historical seismic sequences.Presidenza del Consiglio dei Ministri - Dipartimento della Protezione Civile (DPC)Published2407–24314T. Sismicità dell'Italia1SR TERREMOTI - Sorveglianza Sismica e Allerta Tsunami2SR TERREMOTI - Gestione delle emergenze sismiche e da maremoto5SR TERREMOTI - Convenzioni derivanti dall'Accordo Quadro decennale INGV-DPCJCR Journa

HABITAT: An IoT Solution for Independent Elderly

In this work, a flexible and extensive digital platform for Smart Homes is presented, exploiting the most advanced technologies of the Internet of Things, such as Radio Frequency Identification, wearable electronics, Wireless Sensor Networks, and Artificial Intelligence. Thus, the main novelty of the paper is the system-level description of the platform flexibility allowing the interoperability of different smart devices. This research was developed within the framework of the operative project HABITAT (Home Assistance Based on the Internet of Things for the Autonomy of Everybody), aiming at developing smart devices to support elderly people both in their own houses and in retirement homes, and embedding them in everyday life objects, thus reducing the expenses for healthcare due to the lower need for personal assistance, and providing a better life quality to the elderly users

Association of kidney disease measures with risk of renal function worsening in patients with type 1 diabetes

Background: Albuminuria has been classically considered a marker of kidney damage progression in diabetic patients and it is routinely assessed to monitor kidney function. However, the role of a mild GFR reduction on the development of stage 653 CKD has been less explored in type 1 diabetes mellitus (T1DM) patients. Aim of the present study was to evaluate the prognostic role of kidney disease measures, namely albuminuria and reduced GFR, on the development of stage 653 CKD in a large cohort of patients affected by T1DM. Methods: A total of 4284 patients affected by T1DM followed-up at 76 diabetes centers participating to the Italian Association of Clinical Diabetologists (Associazione Medici Diabetologi, AMD) initiative constitutes the study population. Urinary albumin excretion (ACR) and estimated GFR (eGFR) were retrieved and analyzed. The incidence of stage 653 CKD (eGFR < 60 mL/min/1.73 m2) or eGFR reduction > 30% from baseline was evaluated. Results: The mean estimated GFR was 98 \ub1 17 mL/min/1.73m2 and the proportion of patients with albuminuria was 15.3% (n = 654) at baseline. About 8% (n = 337) of patients developed one of the two renal endpoints during the 4-year follow-up period. Age, albuminuria (micro or macro) and baseline eGFR < 90 ml/min/m2 were independent risk factors for stage 653 CKD and renal function worsening. When compared to patients with eGFR > 90 ml/min/1.73m2 and normoalbuminuria, those with albuminuria at baseline had a 1.69 greater risk of reaching stage 3 CKD, while patients with mild eGFR reduction (i.e. eGFR between 90 and 60 mL/min/1.73 m2) show a 3.81 greater risk that rose to 8.24 for those patients with albuminuria and mild eGFR reduction at baseline. Conclusions: Albuminuria and eGFR reduction represent independent risk factors for incident stage 653 CKD in T1DM patients. The simultaneous occurrence of reduced eGFR and albuminuria have a synergistic effect on renal function worsening

Principi di funzionamento dei laser chirurgici

L'elaborato è volto ad analizzare i principi di funzionamento e le molteplici applicazioni dei laser chirurgici nei vari campi della medicina. Viene fatta una classificazione in base alla potenza d'uscita delle apparecchiature, al mezzo attivo utilizzato e alla disciplina medica in cui ne viene fatto uso. Particolare attenzione è posta sui numerosi rischi che potrebbero occorrere e le misure di sicurezza da adottare all'interno di una sala operatoria o di un laboratorio, con l'esempio specifico di alcune schede di verifica funzionale, periodica particolare e di manutenzione conservativa su laser chirurgici e terapeutici, che devono essere completate per superare con esito positivo i vari test di sicurezza

SAR ed effetti termici su Cheratinociti sottoposti a Radiofrequenze

Negli ultimi anni, la popolazione è stata esposta a vari tipi di campi elettromagnetici generati da strumentazioni elettroniche e dispositivi di telecomunicazione. In questa tesi, si valutano SAR ed effetti termici prodotti da tre antenne patch a radiofrequenza sia su Cheratinociti (cellule dell'epidermide) in vitro che sull'epidermide umana in vivo caratterizzata in un modello multistrato contenente tessuti biologici. Le antenne progettate hanno frequenze di risonanza di 1.8 e 2.4 GHz, tipiche delle bande utilizzate rispettivamente da LTE (Long Term Evolution, la più recente evoluzione degli standard di telefonia mobile cellulare) e dalle moderne tecnologie Wi-Fi, e di 60 GHz, propria delle cosiddette onde millimetriche. Vengono valutati quindi il SAR (Specific Absorption Rate, grandezza che fornisce una misura dell'assorbimento delle onde da parte dei tessuti biologici) e le variazioni di temperatura prodotte dall'applicazione del campo elettromagnetico: ciò viene realizzato attraverso l'equazione del calore stazionaria e, nel caso dell'epidermide in vivo, con la Bioheat Equation, che contempla anche la circolazione sanguigna ed il calore generato nei processi metabolici che avvengono nell'organismo

Microwave Radar and Wireless Power Transfer Systems for Biomedical and Industrial Applications

Over the last years, modern technologies such as radiofrequency identification (RFID), wireless sensor networks (WSN), and wireless power transfer (WPT) are increasingly gaining attraction, both for the biomedical and the industrial fields of study, intending to achieve the paradigm of the internet of things (IoT). Within this research, different systems have been designed and realized by exploiting these typical IoT applications. For what concerns the biomedical sphere of interest, it is proving to be more and more urgent to continuously monitor the behaviors and the vital parameters of elderly people to detect as soon as possible any sort of disease or problem. Therefore, a customized 2.45 GHz RFID localization system has been realized in order to simultaneously perform 3-D tracking of multiple tagged people, static or dynamic, in indoor environments, i.e., the retirement homes. Moreover, a 5.8 GHz wearable device for human breath detection has been conceived, making use of the self-injection locked (SIL) radar technique. Finally, focusing on predictive maintenance, which is increasingly playing a crucial role for industrial, and in particular automotive, applications, it has been presented the design and the validation of a WPT system seamlessly integrated with a WSN platform for remote monitoring of important parts of the engine, placed in a typical electromagnetically harsh, metal-rich environment, e.g., the engine compartment of a car. Energy is provided wirelessly by means of an RF power source at 2.45 GHz to the low-power wireless sensor nodes located in difficult-to-be-reached positions, allowing to eliminate their periodic battery replacement

Simulated Effects of Specific Absorption Rate and Thermal Variations on Keratinocytes and Epidermis Exposed to Radio-Frequency

Wearable wireless sensors are nowadays intensively investigated for continuous monitoring of biomedical parameters and are expected to be pervasively distributed on-body in the next future. In this work, a simulation model for the prediction of the Specific Absorption Rate (SAR) and the temperature variations of keratinocytes in vitro and epidermis in vivo is developed as a preliminary tool for predicting exposure effects of these wearable electronics. Skin cells in a culture medium and in a multi-layered tissue model consisting of epidermis, fat and muscle, have been exposed to electromagnetic (EM) fields generated by patch antennas at 1.8, 2.4 and 60 GHz, that are the most probable frequency bands that will be exploited for wearable applications, accounting for the dispersive models of the different tissues