@article {10.4108/cs.1.1.e4, title = {Achieving Assistive Technology Systems Based on IoT Devices in Cloud Computing}, journal = {EAI Endorsed Transactions on Cloud Systems}, volume = {15}, number = {1}, year = {2015}, month = {2}, publisher = {ICST}, keywords = {Assistive Technology, cloud computing, embedded systems, human computer interaction, Internet of Things, Users with disabilities.}, issn = {2410-6895}, doi = {10.4108/cs.1.1.e4}, author = {Davide Mulfari and Antonio Celesti and Maria Fazio and Massimo Villari and Antonio Puliafito} } @proceedings {345, title = {Identity Management in IoT Clouds: a FIWARE Case of Study}, journal = {2015 IEEE Conference on Communications and Network Security (CNS) - 1st Workshop on Security and Privacy in the Cloud (SPC 2015)}, year = {2015}, pages = {680-684}, publisher = {IEEE Computer Society}, address = {Florence, Italy, September 30th, 2015}, abstract = {

Nowadays, the combination between Cloud computing and Internet of Things (IoT) is pursuing new levels of efficiency in delivering services, representing a tempting business opportunity for ICT operators of increasing their revenues. However, security is seen as one of the major factors that slows down the rapid and large scale adoption and deployment of both the IoT and Cloud computing.\ 
In this paper, considering such an IoT Cloud scenario, we present an authentication model that allow IoT devices to join IoT Clouds and users to access the system. Moreover, we discuss the issues involved in applying our authentication models in a real IoT Cloud based on the FIWARE technology.

}, keywords = {authentication, cloud computing, FIWARE, Internet of Things, security}, issn = {978-1-4673-7876-5}, url = {http://www.zurich.ibm.com/spc2015/}, author = {Luciano Barreto and Antonio Celesti and Massimo Villari and Maria Fazio and Antonio Puliafito} } @proceedings {348, title = {A Sustainable Energy-Aware Resource Management Strategy for IoT Cloud Federation}, journal = {The first IEEE International Symposium on Systems Engineering (ISSE)}, volume = {IEEE First International Symposium on Systems Engineering 2015 Proceedings}, year = {2015}, month = {09/2015}, pages = {170-175}, publisher = {IEEE Computer Society}, address = {Roma, Italy}, abstract = {

The advent of both Cloud computing and Internet of Things (IoT) is changing the way to conceive distributed systems. Nowadays, we can talk about IoT Cloud to indicate a new type of distributed system consisting of a set of smart IoT devices or sensors interconnected with a remote Cloud infrastructure, platform, or software. Energy sustainability in IoT Cloud providers offers new tempting business opportunities for organizations, but at the same time it raises new challenges. In this paper, a flexible IoT Cloud federation energy management strategy is presented for optimizing the allocation of geographically localized smart sensors. We define the concept of IoT Cloud Federation as a mesh of IoT Cloud providers that are interconnected to provide a universal decentralized sensing and actuating environment where everything is driven by constraints and agreements in a ubiquitous infrastructure.\ In particular, a dynamic algorithm able to improve energy sustainability in a federated IoT Cloud ecosystem is discussed. In addition, we analyze a use-case driven strategy that allows both IoT Cloud providers and brokers to determine the paths to reach possible destination IoT devices in which computational resources should be dynamically migrated in order to push down the energy consumption due to IoT distributed applications.

}, keywords = {cloud computing, Energy Efficiency, Energy Sustainability, federation, Green Computing, Internet of Things, Virtual Sensors}, issn = {978-1-4799-1919-2}, author = {Maurizio Giacobbe and Antonio Celesti and Maria Fazio and Massimo Villari and Antonio Puliafito} } @proceedings {31, title = {Using Embedded Systems to Spread Assistive Technology on Multiple Devices in Smart Environments}, journal = {IEEE International Conference on Bioinformatics and Biomedicine (BIBM)}, year = {2014}, month = {2014}, pages = {5-11}, publisher = {IEEE Computer Society}, address = {Belfast}, abstract = {

Nowadays, Assistive Technology (AT) systems are\ closely tied to the devices that they control. Considering a smart
environment where a person with a disability needs to interact\ with multiple devices, the user is forced to rely on AT software
tools available on the each used platform. Therefore, computer\ skills are required to adjust any different computing environment
configuration according to the user{\textquoteright}s needs and preferences.\ To address such issues, in this paper, we discuss the usage of
embedded systems able to interface sensors and existing AT\ software tools running on user{\textquoteright}s personal equipments, in order
to natively interact with many platforms. Thus, our work aims to\ decouple AT software tools from the accessed computer systems,
allowing us to control various kinds of computer systems, even\ those that do not provide any AT features, by using just a\ personal assistive equipment.

}, keywords = {Assistive Technology, embedded systems, human computer interaction, Internet of Things, Users with disabilities}, issn = {978-1-4799-5669-2}, doi = {10.1109/BIBM.2014.6999234}, author = {Davide Mulfari and Antonio Celesti and Maria Fazio and Massimo Villari and Antonio Puliafito} }