Felipe Augusto Tondo scite author profile

Felipe Augusto Tondo

4Publications

24Citation Statements Received

108Citation Statements Given

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108

Affiliations

Universidade Federal de Santa Catarina

Publications

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Direct-to-Satellite IoT Slotted Aloha Systems with Multiple Satellites and Unequal Erasure Probabilities

Tondo

Montejo‐Sánchez

Pellenz

et al. 2021

Sensors

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Direct-to-satellite Internet of Things (IoT) solutions have attracted a lot of attention from industry and academia recently, as promising alternatives for large scale coverage of a massive number of IoT devices. In this work, we considered that a cluster of IoT devices was under the coverage of a constellation of low-Earth orbit (LEO) satellites, while slotted Aloha was used as a medium access control technique. Then, we analyzed the throughput and packet loss rate while considering potentially different erasure probabilities at each of the visible satellites within the constellation. We show that different combinations of erasure probabilities at the LEO satellites and the IoT traffic load can lead to considerable differences in the system’s performance. Next, we introduce an intelligent traffic load distribution (ITLD) strategy, which, by choosing between a non-uniform allocation and the uniform traffic load distribution, guarantees a high overall system throughput, by allocating more appropriate amounts of traffic load at different positions (i.e., different sets of erasure probabilities) of the LEO constellation with respect to the IoT cluster. Finally, the results show that ITLD, a mechanism with low implementation complexity, allows the system to be much more scalable, intelligently exploiting the potential of the different positions of the satellite constellation.

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Optimal Traffic Load Allocation for Aloha-Based IoT LEO Constellations

et al. 2023

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The deployment of satellite networks is key to providing global wireless connectivity for the Internet of Things (IoT). In this line, we consider a cluster of IoT devices served by a constellation of low Earth orbit (LEO) satellites, while slotted Aloha is used as a medium access control technique in the uplink. To characterize the channel, we employ an On-Off fading channel model that estimates the quality of the links between the cluster of IoT devices and the LEO satellites within the constellation, by taking into account their relative positions. Since each relative position of the constellation with respect to the cluster of IoT devices leads to a different throughput for a given traffic load, we propose a novel traffic load distribution strategy based on successive convex approximation (SCA) to maximize the system throughput. The method adequately allocates the traffic load among the different constellation positions with respect to the IoT cluster. Finally, the results show that the proposed method outperforms other recently proposed strategies based on heuristics for traffic load allocation, while it also achieves a stable non-zero throughput even for large traffic loads.

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Mesure optique de la granulométrie des matières chargées au haut fourneau

Moretti¹,

Tondo²

1990

Rev. Met. Paris

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Qualité Totale et Recherche

Arnaud¹,

Cassier²,

Chabrol³

et al. 1990

Rev. Met. Paris

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