Alessio Di Mauro scite author profile

While energy consumption is widely considered the primary challenge of wireless networked devices, energy harvesting emerges as a promising way of powering the Internet of Things (IoT). In the Medium Access Control (MAC) layer of the communication stack, energy harvesting introduces spatial and temporal uncertainty in the availability of energy. In this context, this paper focuses on the design and implementation of the MAC layer of wireless embedded systems that are powered by energy harvesting; providing novel protocol features and practical experiences to designers of consumer electronics who opt for tailoring their own protocol solutions instead of using the standards 1 .

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Sustainable performance in energy harvesting

Fafoutis

Mauro

Dragoni

2013

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Adaptive Security in ODMAC for Multihop Energy Harvesting Wireless Sensor Networks

Mauro

Fafoutis

Dragoni

2015

International Journal of Distributed Sensor Networks

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Energy Harvesting Wireless Sensor Networks (EH-WSNs) represent an interesting new paradigm where individual nodes forming a network are powered by energy sources scavenged from the surrounding environment. This technique provides numerous advantages, but also new design challenges. Securing the communications under energy constraints represents one of these key challenges. The amount of energy available is theoretically infinite in the long run but highly variable over short periods of time, and managing it is a crucial aspect. In this paper we present an adaptive approach for security in multihop EH-WSNs which allows different nodes to dynamically choose the most appropriate energy-affecting parameters such as encryption algorithm and key size, providing in this way energy savings. In order to provide evidence of the approach's feasibility in a real-world network, we have designed and implemented it as extension of on-demand medium access control (ODMAC), a receiver-initiated (RI) MAC protocol specifically designed and developed to address the foundational energy-related needs of Energy Harvesting Wireless Sensor Networks.

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Alessio Di Mauro

Receiver-initiated medium access control protocols for wireless sensor networks

Sustainable medium access control: Implementation and evaluation of ODMAC

Energy-efficient medium access control for energy harvesting communications

Sustainable performance in energy harvesting

Adaptive Security in ODMAC for Multihop Energy Harvesting Wireless Sensor Networks

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