Stefano Turchi scite author profile

The Web of Things is as an active research field which aims at promoting the easy access and handling of smart things' digital representations through the adoption of Web standards and technologies. While huge research and development efforts have been spent on lower-level networks and software technologies, it has been recognized that little experience exists instead in modeling and building applications for the Web of Things. Although several works have proposed REST-inspired approaches for the Web of Things, a main limitation is that poor support is provided to web developers for speeding up the development of Web of Things applications, while taking full advantage of REST benefits. In this work we propose a framework which supports developers in modeling smart things as web resources, exposing them through RESTful APIs, and developing applications on top of them. The framework consists of a Web Resource information model, a middleware and tools for developing and publishing smart things' digital representations on the Web. We discuss main framework implementation choices and its compliance with REST guidelines. Finally, we report on our test activities carried out within the SmartSantander European Project to evaluate the use and proficiency of our framework in a smart city scenario.

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Latency-aware composition of Virtual Functions in 5G

Martini

Paganelli

Cappanera

et al. 2015

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The adoption of the virtualization paradigm in both computing and networking domains portends a landscape of heterogeneous service capabilities and resources pervasively distributed and interconnected and deeply integrated through the 5G network infrastructure. In this service ecosystem, dynamic service demand can be flexibly and elastically accomplished by composing heterogeneous services provisioned over a distributed and virtualized resource infrastructure. Indeed, with the term Virtual Functions we refer to virtual computing as well as network service capabilities (e.g., routers and middlebox functions provided as Virtual Network Functions). In order to cope with the increasingly resource intensive demand, these virtual functions will be deployed in distributed clusters of small-scale datacenters typically located in current exchanges at the network edge and will supplement those deployed in traditional large cloud datacenters. In this work we formulate the problem of composing, computing and networking Virtual Functions to select those nodes along the path that minimizes the overall latency (i.e. network and processing latency) in the above mentioned scenario. The optimization problem is formulated as a Resource Constrained Shortest Path problem on an auxiliary layered graph accordingly defined. The layered structure of the graph ensures that the order of VFs specified in the request is preserved. Additional constraints can be also taken into account in the graph construction phase. Finally, we provide a use case preliminary evaluation of the proposed model.

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Implementing FingerCode-based identity matching in the encrypted domain

Bianchi

Turchi

Piva

et al. 2010

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In this paper, we address the problem of FingerCode-based identity matching using encrypted templates. Instead of the classical approach of combining secure signal processing (SSP) tools to mimic the behavior of some wellknown identity matching algorithm, we will investigate the possibility of using a SSP-friendly biometric implementation, i.e., an implementation based on SSP tools. We will propose two alternative strategies for reducing the size of the FingerCode templates, to make them compatible with existing SSP solutions. Experimental results show that feature size reduction has a very limited impact on the accuracy of the biometric system, demonstrating that encrypted domain identity matching can be implemented without sacrificing biometric performance.

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An information-centric and REST-based approach for EPC Information Services

Paganelli¹,

Turchi

Bianchi

et al. 2013

JCOMSS

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Radio Frequency Identification (RFID) techniques are considered relevant building blocks for the Internet of Things. The interoperability across different RFID software and hardware infrastructures is a key requirement for achieving effective and wide-scale Internet of Thing deployments. In this context, the EPC Information Service (EPCIS) is a set of standard specifications for sharing RFID-related data (i.e., EPC events) both within and across enterprises. Although the EPCIS specifies a set of HTTP and Web Service interfaces for querying and adding EPC events, interoperability and easiness of use is hindered by the fact that client applications should be aware of the repositories that are authoritative for one or more given queries and links among related events are not explicitly represented in response messages. In this paper we argue that, by leveraging emerging REST and Linked Data paradigms, EPC events can be handled as a graph of globally-addressable information resources that can be navigated, queried, and aggregated through a uniform interface and seamlessly across organization domains. To validate this approach, we have developed a prototype that exposes the EPCIS interfaces as a set of REST APIs. The prototype implementation exploits the information modeling and management capabilities provided by a framework, called InterDataNet (IDN), that we conceived and developed to ease the realization of the Web of Data and Linked Data applications.

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The Dark Side of the Interconnection: Security and Privacy in the Web of Things

Catuogno

Turchi

2015

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The Web of Things (WoT) promises to dramatically boost the potentiality of interconnecting smart and physical devices over the Internet as it not only enhances ergonomics and productivity of the Internet of Things (IoT), but it also introduces new capabilities for device interoperation and data aggregation and analysis. These advances pose the challenge of preserving data security and privacy (S&P), as well as the reliability of the overall infrastructure. Deploying existing S&P solutions and technologies in the WoT is not straightforward because of its potential vastness, its intrinsic in homogeneity and the wide variety of involved entities and interests. In such scenario, every choice comes from a non-trivial trade-off among different aspects including security, availability and legal issues. In this paper, we investigate the nature of this trade-off, pointing out the different kinds of S&P issues and surveying some of the available solutions. In addition, we discuss the major issues raised while securing an existing WoT infrastructure

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Stefano Turchi

A Web of Things Framework for RESTful Applications and Its Experimentation in a Smart City

Latency-aware composition of Virtual Functions in 5G

Implementing FingerCode-based identity matching in the encrypted domain

An information-centric and REST-based approach for EPC Information Services

The Dark Side of the Interconnection: Security and Privacy in the Web of Things

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