Caratterizzazione sperimentale di sistemi di localizzazione a banda ultra-larga

Il processo di localizzazione risponde all'esigenza dell'uomo di avere una percezione sempre più dettagliata e precisa del contesto in cui si trova, con l'intento di migliorare e semplificare l'interazione con oggetti e cose ivi presenti. L'idea attuale è quella di progettare sistemi di posizionamento con particolare riguardo agli ambienti indoor, caratterizzati da proprietà e densità di elementi che limitano fortemente le prestazioni dei consolidati sistemi di tracking, particolarmente efficienti in spazi aperti. Consapevole di questa necessità, il seguente elaborato analizza le prestazioni di un sistema di localizzazione sviluppato dall'Università di Bologna funzionante in tecnologia Ultra-Wide Bandwidth (UWB) e installato nei laboratori DEI dell'Alma Mater Studiorum con sede a Cesena. L'obiettivo è quello di caratterizzare l'accuratezza di localizzazione del sistema, suggerendo nuovi approcci operativi e de�finendo il ruolo dei principali parametri che giocano nel meccanismo di stima della posizione, sia in riferimento a scenari marcatamente statici sia in contesti in cui si ha una interazione dinamica degli oggetti con lo spazio circostante. Una caratteristica della tecnologia UWB è, infatti, quella di limitare l'errore di posizionamento nel caso di localizzazione indoor, grazie alle caratteristiche fisiche ed elettriche dei segnali, aprendo nuovi scenari applicativi favorevoli in termini economici, energetici e di minore complessità dei dispositivi impiegati.

Komputerowe gry edukacyjne dla dzieci z trudnościami w czytaniu – doświadczenia polskie i irlandzkie.

W latach 2011-13 przeprowadziliśmy projekt badawczy, którego celem była ocena skuteczności komputerowych gier edukacyjnych jako narzędzia do treningu tempa czytania w pracy z dziećmi wolno czytającymi. W projekcie napotkaliśmy szereg nieprzewidzianych trudności; niniejszy artykuł stanowi refleksję nad nimi z perspektywy praktycznych możliwości i ograniczeń korzystania z komputerowych gier edukacyjnych w terapii pedagogicznej. Powolne czytanie rozumiemy jako trudność w automatyzacji procesu dekodowania. Zakładamy, że natura treningu komputerowego może służyć zaprojektowaniu skutecznego narzędzia do poprawy automatyzacji dekodowania. W tekście opisujemy przebieg trzykrotnej próby wdrożenia treningu tempa czytania dla dzieci z klas 3-6 na podstawie edukacyjnej gry komputerowej GraphoGame-Fluent. Okazało się, że zebrane w rezultacie dane były niewystarczające do odpowiedzi na postawione przez nas pytania dotyczące efektywności treningu i jego poszczególnych parametrów (tj. rodzaj trenowanego materiału – sylaba / wyraz, frekwencja w języku pisanym). W związku z powyższym, przedstawiamy krytyczne uwagi na temat trudności stojących przed badaczem (a także terapeutą) chcącym stosować edukacyjne gry komputerowe w terapii. Trudności mogą dotyczyć etapu wyboru gry (czy jest odpowiednia do problemu ucznia, skuteczna i motywująca), technicznych trudności ze sprzętem (dostępność komputerów i akcesoriów) oraz organizacji treningu (ograniczenia wynikające ze sztywnego stosowania systemu klasowo-lekcyjnego). Opis trudności w prowadzeniu badań w polskich szkołach zestawiamy z opisem takiego samego badania prowadzonego przez nas w szkołach w Irlandii.

Inkjet-Printed Filtennas with Triple Bandnotch

This paper presents the layout and results of a compact inkjet-printed filtenna operating at the S-band, ISM and UWB frequencies. The filtenna has a wide passband and, alongside, rejects WiMAX 3.5 GHz, WLAN 5.8 GHz and ITU service 8.2 GHz bands. The filtenna is simulated, printed using silver nanoparticle ink on flexible Kapton substrate and measured. Obtained simulation and measurement results agree well with each other. Measured return loss of the filtenna is more than 10 dB for 1.6–10.85 GHz and triple bandnotch, measuring at an average of 1.87 dB, are present at the unwanted bands. Radiation patterns, as well as the gain and efficiency of the filtenna have also been presented; with the average values being 3.4 dBi and 90 % respectively for the passband and averaging at −1.0 dBi and 22 % respectively for the three rejected bands.

Applications of Microwave Antenna Array for Wireless Power Transmission and Radar Imaging in Complex Environment

Thesis (Ph.D.)--University of Washington, 2016-08

Digital design of an EPC Gen2 controller for enhanced RFID tags

This thesis presents an improvement of the long range battery-less UHF RFID platform for sensor applications which is based on the open source Wireless Identification and Sensing Platform (WISP) project. The purpose of this work is to design a digital logic that performs the RFID EPC gen2 protocol communication, is able to acquire information by sensors and provide an accurate estimation of tag location ensuring low energy consumption. This thesis will describe the hardware architecture on which the digital logic was inserted, the Verilog code developed, the methods by which the digital logic was tested and an explorative study of chip synthesis on Cadence.

Radiation characteristics enhancement of planar structures using metasurfaces

In this thesis, the focus is on utilizing metasurfaces to improve radiation characteristics of planar structures. The study encompasses various aspects of metasurface applications, including enhancing antenna radiation characteristics and manipulating electromagnetic (EM) waves, such as polarization conversion and anomalous reflection. The thesis introduces the design of a single-port antenna with dual-mode operation, integrating metasurfaces. This antenna serves as the front-end for a next-generation tag, functioning as a position sensor with identification and energy harvesting capabilities. It operates in the lower European Ultra-Wideband (UWB) frequency range for communication/localization and the UHF band for wireless energy reception. The design aims for a low-profile stack-up that remains unaffected by background materials. Researchers worldwide are drawn to metasurfaces due to their EM wave manipulation capabilities. The thesis also demonstrates how a High-Impedance Surface (HIS) can enhance the antenna's versatility through metasurface application, including conformal design using 3D-printing technology, ensuring adaptability for various deformation and tracking/powering scenarios. Additionally, the thesis explores two distinct metasurface applications. One involves designing an angularly stable super-wideband Circular Polarization Converter (CPC) operating from 11 to 35GHz with an impressive relative impedance bandwidth of 104.3%. The CPC shows a stable response even at oblique incidences up to 40 degrees, with a Peak Cross-Polarization Ratio (PCR) exceeding 62% across the entire band. The second application focuses on an Intelligent Reflective Surface (IRS) capable of redirecting incoming waves in unconventional directions. Tunability is achieved through an artificially developed ferroelectric material (HfZrO) and distributed capacitive elements (IDC) to fine-tune impedance and phase responses at the meta-atom level. The IRS demonstrates anomalous reflection for normal incident waves. These innovative applications of metasurfaces offer promising advancements in antenna design, EM wave manipulation, and versatile wireless communication systems.