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Technical paper
The deployment of sensors in contact with the ground (slopes, cliffs, rock blocks) is mandatory when a focused mechanism is underway. So far, most of the so-called ‘geotechnical...
Technical paper
Energy-harvesting technologies enable self-powered industrial IoT devices, and this work examines how to dimension them to meet network and application needs efficiently.
Technical paper
A decentralized PID-based scheduling policy for 6TiSCH networks lets nodes adapt cell allocation to traffic demand, handling bursty patterns efficiently.
Technical paper
This survey of 6TiSCH standards highlights challenges, lessons learned from open-source implementations, and guidelines for IP-based low-power industrial wireless networks.
Technical paper
Lean Sensing leverages temporal and spatial correlations in cyber-physical systems to reduce energy consumption of battery-powered devices, demonstrated in smart-parking...
Technical paper
A system-level power consumption model for wireless sensor nodes enables pre-deployment energy dimensioning, accounting for communications, acquisition, and processing to optimize...
Technical paper
The convergence of low-power wireless and IP technologies enables reliable, energy-efficient Industrial IoT networks, with 6TiSCH standardizing mechanisms for seamless integration.
Technical paper
A methodology is presented to dimension energy scavengers in TSCH-based industrial networks, ensuring reliable, low-risk deployment of autonomously powered systems.
Technical paper
A power-balancing mechanism for dense IoT networks distributes energy consumption evenly across motes, reducing battery replacements and extending network lifetime.
Article
Every great company starts with a moment of challenge and inspiration. Ours began with a bold group of physicists and engineers, braving the harshest elements high in the Swiss...