Proposta di sottotitolaggio del video "Race on Screen" e analisi della rappresentazione delle minoranze etniche nei media britannici

Nonostante sia pubblicamente riconosciuto il potere dei media di influenzare e creare opinioni, pochi studi si sono occupati del loro ruolo in quanto possibili promotori di ideologie improntate al razzismo o, al contrario, ad una visione multiculturale della società. Se tuttavia, si analizzano i dati che fanno riferimento al modo in cui le minoranze etniche sono rappresentate dai media e alla posizione lavorativa che esse ricoprono nell'industria televisiva e cinematografica, si può evincere come siano determinanti i mezzi di comunicazione di massa, sia nella percezione di sé che acquisiscono le minoranze etniche stesse, sia nella considerazione che di loro ha la popolazione autoctona di un Paese. Questo studio cercherà di mettere in luce la situazione attuale in Gran Bretagna in cui, nonostante esistano programmi televisivi dedicati alle minoranze etniche e queste siano impiegate nei media, è necessario un maggiore impegno perché queste siano più equamente rappresentate. Verrà commentata e analizzata, inoltre, la proposta di sottotitolaggio del video “Race on Screen” realizzato dall'organizzazione britannica Runnymede Trust che tratta, appunto, il tema dei BAME nei media britannici.

Finite Element Modeling of Spiral Frequency Steerable Acoustic Transducers (FSATs) for guided waves based Structural Health Monitoring of plate-like structures

Structural Health Monitoring (SHM) is an emerging area of research associated to improvement of maintainability and the safety of aerospace, civil and mechanical infrastructures by means of monitoring and damage detection. Guided wave structural testing method is an approach for health monitoring of plate-like structures using smart material piezoelectric transducers. Among many kinds of transducers, the ones that have beam steering feature can perform more accurate surface interrogation. A frequency steerable acoustic transducer (FSATs) is capable of beam steering by varying the input frequency and consequently can detect and localize damage in structures. Guided wave inspection is typically performed through phased arrays which feature a large number of piezoelectric transducers, complexity and limitations. To overcome the weight penalty, the complex circuity and maintenance concern associated with wiring a large number of transducers, new FSATs are proposed that present inherent directional capabilities when generating and sensing elastic waves. The first generation of Spiral FSAT has two main limitations. First, waves are excited or sensed in one direction and in the opposite one (180 ̊ ambiguity) and second, just a relatively rude approximation of the desired directivity has been attained. Second generation of Spiral FSAT is proposed to overcome the first generation limitations. The importance of simulation tools becomes higher when a new idea is proposed and starts to be developed. The shaped transducer concept, especially the second generation of spiral FSAT is a novel idea in guided waves based of Structural Health Monitoring systems, hence finding a simulation tool is a necessity to develop various design aspects of this innovative transducer. In this work, the numerical simulation of the 1st and 2nd generations of Spiral FSAT has been conducted to prove the directional capability of excited guided waves through a plate-like structure.