Identity Provider Shibboleth per il servizio di federazione e Single Sign-On di Ateneo

L’università di Bologna, da sempre attenta alle nuove tecnologie e all’innovazione, si è dotata nel 2010 di un Identity Provider (IDP), ovvero un servizio per la verifica dell’identità degli utenti dell’organizzazione tramite username e password in grado di sollevare le applicazioni web (anche esterne all’organizzazione) dall’onere di verificare direttamente le credenziali dell’utente delegando totalmente la responsabilità sul controllo dell’identità digitale all’IDP. La soluzione adottata (Microsoft ADFS) si è dimostrata generalmente semplice da configurare e da gestire, ma ha presentato problemi di integrazione con le principali federazioni di identità regionali e italiane (FedERa e IDEM) a causa di una incompatibilità con il protocollo SAML 1.1, ancora utilizzato da alcuni dei servizi federati. Per risolvere tale incompatibilità il "CeSIA – Area Sistemi Informativi e Applicazioni" dell’Università di Bologna ha deciso di dotarsi di un Identity Provider Shibboleth, alternativa open source ad ADFS che presenta funzionalità equivalenti ed è in grado di gestire tutte le versioni del protocollo SAML (attualmente rilasciato fino alla versione 2.0). Il mio compito è stato quello di analizzare, installare, configurare e integrare con le federazioni IDEM e FedERa un’infrastruttura basata sull’IDP Shibboleth prima in test poi in produzione, con la collaborazione dei colleghi che in precedenza si erano occupati della gestione della soluzione Microsoft ADFS. Il lavoro che ho svolto è stato suddiviso in quattro fasi: - Analisi della situazione esistente - Progettazione della soluzione - Installazione e configurazione di un Identity Provider in ambiente di test - Deploy dell’Identity Provider in ambiente di produzione

Sea level measurement using single GNSS antenna SNR signals

This thesis presents a possible method to calculate sea level variation using geodetic-quality Global Navigate Satellite System (GNSS) receivers. Three antennas are used: two small antennas and a choke ring one, analyzing only Global Positioning System signals. The main goal of the thesis is to test a modified configuration for antenna set up. In particular, measurements obtained tilting one antenna to face the horizon are compared to measurements obtained from antennas looking upward. The location of the experiment is a coastal environment nearby the Onsala Space Observatory in Sweden. Sea level variations are obtained using periodogram analysis of the SNR signal and compared to synthetic gauge generated from two independent tide gauges. The choke ring antenna provides poor result, with an RMS around 6 cm and a correlation coefficients of 0.89. The smaller antennas provide correlation coefficients around 0.93. The antenna pointing upward present an RMS of 4.3 cm and the one pointing the horizon an RMS of 6.7 cm. Notable variation in the statistical parameters is found when modifying the length of the interval analyzed. In particular, doubts are risen on the reliability of certain scattered data. No relation is found between the accuracy of the method and weather conditions. Possible methods to enhance the available data are investigated, and correlation coefficient above 0.97 can be obtained with small antennas when sacrificing data points. Hence, the results provide evidence of the suitability of SNR signal analysis for sea level variation in coastal environment even in the case of adverse weather conditions. In particular, tilted configurations provides comparable result with upward looking geodetic antennas. A SNR signal simulator is also tested to investigate its performance and usability. Various configuration are analyzed in combination with the periodogram procedure used to calculate the height of reflectors. Consistency between the data calculated and those received is found, and the overall accuracy of the height calculation program is found to be around 5 mm for input height below 5 m. The procedure is thus found to be suitable to analyze the data provided by the GNSS antennas at Onsala.

Formula Zero: Traduzione trilingue inglese-italiano-spagnolo di un policy statement sulla sicurezza stradale della Federazione Internazionale dell'Automobile (FIA)

The aim of this dissertation is to provide a trilingual translation from English into Italian and from Italian into Spanish of a policy statement from the Fédération Internationale de l’Automobile (FIA) regarding road safety. The document, named “Formula Zero: a strategy for reducing fatalities and injuries on track and road”, was published in June 2000 and involves an approach about road safety inspired by another approach introduced in Sweden called ‘Vision Zero’. This work consists of six sections. The first chapter introduces the main purposes and activities of the Federation, as well as the institutions related to it and Vision Zero. The second chapter presents the main lexical, morphosyntactic and stylistic features of the institutional texts and special languages. In particular, the text contains technical nomenclature of transports and elements of sport language, especially regarding motor sport and Formula One. In the third chapter, the methodology is explained, with all the resources used during the preliminary phase and the translation, including corpora, glossaries, expert consultancy and specialised sites. The fourth chapter focuses on the morphosyntactic and terminology features contained in the text, while the fifth chapter presents the source text and the target texts. The final chapter deals with all the translation strategies that are applied, alongside with all the challenging elements detected. Therefore, the dissertation concludes with some theoretical and practical considerations about the role of inverse translation and English as Lingua Franca (ELF), by comparing the text translated into Spanish to the original in English, using Italian as a lingua franca.