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199 results on '"Pasquale Pace"'

1. Lifetime Maximization of Sensor Networks Through Optimal Data Collection Scheduling of Mobile Sink

Author

Md. Ahsan Habib, Sajeeb Saha, Md. Abdur Razzaque, Md. Mamun-Or-Rashid, Mohammad Mehedi Hassan, Pasquale Pace, and Giancarlo Fortino

Subjects
Network-lifetime, data collection schedule, obstructed sensor networks, starfish routing backbone, mobile sink, sojourn location, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

The problem of maximizing lifetime of a sensor network is still challenging mainly due to the stringent delay-deadline of real-time applications and heterogeneity of sensor devices. The problem is further complicated when the network contains many obstacles. In maximizing network lifetime, existing literature works either merely address issues of application delay-deadline and presence of obstacles, or analyze primitive data collection approaches for such an environment. In this paper, we formulate optimal data collection schedule of a mobile sink in an obstructed sensor network as a mixed-integer linear programming (MILP) problem. The proposed data collection scheduling finds an optimal set of rendezvous nodes over a preformed Starfish routing backbone, and corresponding sojourn duration so as to maximize the network lifetime while maintaining delay-deadline constraint in an obstructed network. The proposed Starfish-scheduling ensures a loop-free traveling path for a mobile sink across the network. The results of performance evaluation, performed in network simulator-2, depict the suitability of Starfish scheduling as it outperforms state-of-the-art-works in terms of extending network lifetime and data delivery throughput as well as reducing average end-to-end delay.

Published
2020
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2. Lightweight Reinforcement Learning for Energy Efficient Communications in Wireless Sensor Networks

Author

Claudio Savaglio, Pasquale Pace, Gianluca Aloi, Antonio Liotta, and Giancarlo Fortino

Subjects
Wireless sensor network, artificial intelligence, reinforcement learning, energy-efficient network, medium access control, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

High-density communications in wireless sensor networks (WSNs) demand for new approaches to meet stringent energy and spectrum requirements. We turn to reinforcement learning, a prominent method in artificial intelligence, to design an energy-preserving MAC protocol, with the aim to extend the network lifetime. Our QL-MAC protocol is derived from Q-learning, which iteratively tweaks the MAC parameters through a trial-and-error process to converge to a low energy state. This has a dual benefit of 1) solving this minimization problem without the need of predetermining the system model and 2) providing a self-adaptive protocol to topological and other external changes. QL-MAC self-adjusts the WSN node duty-cycle, reducing energy consumption without detrimental effects on the other network parameters. This is achieved by adjusting the radio sleeping and active periods based on traffic predictions and transmission state of neighboring nodes. Our findings are corroborated by an extensive set of experiments carried out on off-the-shelf devices, alongside large-scale simulations.

Published
2019
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3. IoT Platforms and Security: An Analysis of the Leading Industrial/Commercial Solutions

Author

Giancarlo Fortino, Antonio Guerrieri, Pasquale Pace, Claudio Savaglio, and Giandomenico Spezzano

Subjects
Internet of Things, IoT platform, reference architecture, IoT security, Chemical technology, TP1-1185
Abstract

For simplifying and speeding up the development of the Internet of Things (IoT) ecosystem, there has been a proliferation of IoT platforms, built up according to different design principles, computing paradigms, technologies, and targets. This paper proposes a review of main examples populating the wide landscape of IoT platforms and their comparison based on the IoT-A reference architecture. In such a way, heterogeneous IoT platforms (both current and future) can be analyzed regardless of their low-level specifications but exclusively through the lens of those key functionalities and architectural building blocks that enable the interplay among devices, data flow, software, and stakeholders within the IoT ecosystem. Among these, security by design (i.e., the inclusion of security design principles, technology, and governance at every level) must be integrated into every tier, component, and application to minimize the risk of cyber threats and preserve the integrity of the IoT platforms, not only within individual components but also for all the components working together as a whole.

Published
2022
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8. Fast and Accurate Video PQoS Estimation over Wireless Networks

Author

Emanuele Viterbo and Pasquale Pace

Subjects
Telecommunication, TK5101-6720, Electronics, TK7800-8360
Abstract

This paper proposes a curve fitting technique for fast and accurate estimation of the perceived quality of streaming media contents, delivered within a wireless network. The model accounts for the effects of various network parameters such as congestion, radio link power, and video transmission bit rate. The evaluation of the perceived quality of service (PQoS) is based on the well-known VQM objective metric, a powerful technique which is highly correlated to the more expensive and time consuming subjective metrics. Currently, PQoS is used only for offline analysis after delivery of the entire video content. Thanks to the proposed simple model, we can estimate in real time the video PQoS and we can rapidly adapt the content transmission through scalable video coding and bit rates in order to offer the best perceived quality to the end users. The designed model has been validated through many different measurements in realistic wireless environments using an ad hoc WiFi test bed.

Published
2008
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