IoT Prism Lab
Research Lab at University of Bologna
Research Lab at University of Bologna
Theses
2019 |
Curto, Alessio Progettazione ed Implementazione di una Piattaforma web per la gestione di un laboratorio Didattico Universitario Masters Thesis 2019. Abstract | Links | BibTeX | Tags: api, database, javascript, mysql, Node.js, nodejs, restapi, sql @mastersthesis{amslaurea17480, title = {Progettazione ed Implementazione di una Piattaforma web per la gestione di un laboratorio Didattico Universitario}, author = {Alessio Curto}, url = {https://amslaurea.unibo.it/id/eprint/17480}, year = {2019}, date = {2019-01-01}, abstract = {L’obiettivo di questa tesi è quello di sviluppare una piattaforma web per la gestione dei materiali destinati ad un laboratorio didattico, ovvero ”UniBookingItems”. Tramite l’utilizzo di UBI l’utente, in questo caso un responsabile di laboratorio, potrà interagire con l’applicativo tramite un’interfaccia grafica semplice ed intuitiva, la quale permetterà di tener traccia dei materiali e di gestire le prenotazioni.}, keywords = {api, database, javascript, mysql, Node.js, nodejs, restapi, sql}, pubstate = {published}, tppubtype = {mastersthesis} } L’obiettivo di questa tesi è quello di sviluppare una piattaforma web per la gestione dei materiali destinati ad un laboratorio didattico, ovvero ”UniBookingItems”. Tramite l’utilizzo di UBI l’utente, in questo caso un responsabile di laboratorio, potrà interagire con l’applicativo tramite un’interfaccia grafica semplice ed intuitiva, la quale permetterà di tener traccia dei materiali e di gestire le prenotazioni. |
2015 |
Montori, Federico Integration of a simulation platform for electrical mobility within the arrowhead interoperability framework Masters Thesis 2015. Abstract | Links | BibTeX | Tags: api, Arrowhead, Internet of Things, interoperability, simulation, smart spaces, soa @mastersthesis{amslaurea8385, title = {Integration of a simulation platform for electrical mobility within the arrowhead interoperability framework}, author = {Federico Montori}, url = {https://amslaurea.unibo.it/id/eprint/8385}, year = {2015}, date = {2015-01-01}, abstract = {This dissertation document deals with the development of a project, over a span of more than two years, carried out within the scope of the Arrowhead Framework and which bears my personal contribution in several sections. The final part of the project took place during a visiting period at the university of Luleå. The Arrowhead Project is an European project, belonging to the ARTEMIS association, which aims to foster new technologies and unify the access to them into an unique framework. Such technologies include the Internet of Things phe- nomenon, Smart Houses, Electrical Mobility and renewable energy production. An application is considered compliant with such framework when it respects the Service Oriented Architecture paradigm and it is able to interact with a set of defined components called Arrowhead Core Services. My personal contribution to this project is given by the development of several user-friendly API, published in the project's main repository, and the integration of a legacy system within the Arrowhead Framework. The implementation of this legacy system was initiated by me in 2012 and, after many improvements carried out by several developers in UniBO, it has been again significantly modified this year in order to achieve compatibility. The system consists of a simulation of an urban scenario where a certain amount of electrical vehicles are traveling along their specified routes. The vehicles are con-suming their battery and, thus, need to recharge at the charging stations. The electrical vehicles need to use a reservation mechanism to be able to recharge and avoid waiting lines, due to the long recharge process. The integration with the above mentioned framework consists in the publication of the services that the system provides to the end users through the instantiation of several Arrowhead Service Producers, together with a demo Arrowhead- compliant client application able to consume such services.}, keywords = {api, Arrowhead, Internet of Things, interoperability, simulation, smart spaces, soa}, pubstate = {published}, tppubtype = {mastersthesis} } This dissertation document deals with the development of a project, over a span of more than two years, carried out within the scope of the Arrowhead Framework and which bears my personal contribution in several sections. The final part of the project took place during a visiting period at the university of Luleå. The Arrowhead Project is an European project, belonging to the ARTEMIS association, which aims to foster new technologies and unify the access to them into an unique framework. Such technologies include the Internet of Things phe- nomenon, Smart Houses, Electrical Mobility and renewable energy production. An application is considered compliant with such framework when it respects the Service Oriented Architecture paradigm and it is able to interact with a set of defined components called Arrowhead Core Services. My personal contribution to this project is given by the development of several user-friendly API, published in the project's main repository, and the integration of a legacy system within the Arrowhead Framework. The implementation of this legacy system was initiated by me in 2012 and, after many improvements carried out by several developers in UniBO, it has been again significantly modified this year in order to achieve compatibility. The system consists of a simulation of an urban scenario where a certain amount of electrical vehicles are traveling along their specified routes. The vehicles are con-suming their battery and, thus, need to recharge at the charging stations. The electrical vehicles need to use a reservation mechanism to be able to recharge and avoid waiting lines, due to the long recharge process. The integration with the above mentioned framework consists in the publication of the services that the system provides to the end users through the instantiation of several Arrowhead Service Producers, together with a demo Arrowhead- compliant client application able to consume such services. |
2014 |
Galavotti, Serena Contacts Sharing: integrazione tra CRM e il cloud Google Masters Thesis 2014. Abstract | Links | BibTeX | Tags: api, App Engine, Cloud Google, Contacts Sharing, CRM, SugarCRM, web service @mastersthesis{amslaurea6747, title = {Contacts Sharing: integrazione tra CRM e il cloud Google}, author = {Serena Galavotti}, url = {https://amslaurea.unibo.it/id/eprint/6747}, year = {2014}, date = {2014-01-01}, abstract = {Sviluppo applicazione per condividere contatti da SugarCRM con Google Contacts}, keywords = {api, App Engine, Cloud Google, Contacts Sharing, CRM, SugarCRM, web service}, pubstate = {published}, tppubtype = {mastersthesis} } Sviluppo applicazione per condividere contatti da SugarCRM con Google Contacts |
Babini, Mirco Progetto e sviluppo di un network informativo per dispositivi mobili sull'alimentazione senza glutine Masters Thesis 2014. Abstract | Links | BibTeX | Tags: android, api, celiachia, client, network, senzaglutine, server, webapp @mastersthesis{amslaurea6655, title = {Progetto e sviluppo di un network informativo per dispositivi mobili sull'alimentazione senza glutine}, author = {Mirco Babini}, url = {https://amslaurea.unibo.it/id/eprint/6655}, year = {2014}, date = {2014-01-01}, abstract = {La tesi descrive la progettazione e lo sviluppo di un network informativo accessibile come Web App e come app sullo store Android, sviluppato con architettura Client / Server grazie ad un sistema di API sviluppato parzialmente ad-hoc.}, keywords = {android, api, celiachia, client, network, senzaglutine, server, webapp}, pubstate = {published}, tppubtype = {mastersthesis} } La tesi descrive la progettazione e lo sviluppo di un network informativo accessibile come Web App e come app sullo store Android, sviluppato con architettura Client / Server grazie ad un sistema di API sviluppato parzialmente ad-hoc. |