dc.description.abstract | The current reality is characterized by a solid technological and pervasive component. These elements are
expressed through smart devices, which make the environments we live in pervasive and able to exchange
information. An example is represented by Smart Cities, complex environments able to leverage large
amounts of data from sensors based on the Internet of Things (IoT) paradigm. One of the current
challenges is using this information to transform scenarios from complex to helpful for increasing human
well-being. This objective can be achieved by acquiring Context-Awareness, analyzing information, and
managing the environment through the Situation-Awareness paradigm.
This Thesis aims to introduce a methodology with predictive capabilities and context adaptability for
managing complex scenarios. The added value of the proposed approach is the introduction of the
semantic value acquired from the Context and Situation Awareness through graph approaches, which,
unlike many strategies used, leads to better integration of knowledge, obtaining higher system
performance. In particular, a methodology for merging Ontologies, Context Dimension Trees, and
probabilistic approaches based on Bayesian Networks will be presented to help experts and end-users
handle events and provide suggestions for improving the liveability of smart complex scenarios. The
proposed methodology has been validated and applied to several complex scenarios based on the IoT
paradigm obtaining promising results. [edited by Author] | it_IT |