DATA COLLECTION USING UNMANNED AERIAL VEHICLES AND A DELAY-TOLERANT NETWORK

Edisson Paul Cabrera; Jefferson Santiago Agila; Fabian Astudillo-Salinas; Andres Vazquez-Rodas; Santiago Patricio Torres; Ismael Minchala-Avila

doi:10.24507/ijicic.19.05.1337

DATA COLLECTION USING UNMANNED AERIAL VEHICLES AND A DELAY-TOLERANT NETWORK

Edisson Paul Cabrera
, Jefferson Santiago Agila
, Fabian Astudillo-Salinas
, Andres Vazquez-Rodas
, Santiago Patricio Torres
, Ismael Minchala-Avila

Universidad de Cuenca

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Wireless sensor networks (WSNs) are widely used in low-energy consump-tion and dispersed monitoring applications. In this context, a common issue in WSNs corresponds to connectivity in low-density networks. An unmanned aerial vehicle (UAV)-based data collection is a promising solution for data transfer to tackle this challenge. This work proposes and evaluates a delay-tolerant network (DTN) for data transmission, where the transport mule is based on a UAV. The transmission throughput between the sensor node and the collector node (UAV) is evaluated in an environment with three different distances between the sensor node and the UAV: 0 m (land), 3 m, and 6 m. The results show that the transmission takes less time when the UAV is on land, while the transmission time increases with greater distance.

Original language	English
Pages (from-to)	1337-1360
Number of pages	24
Journal	International Journal of Innovative Computing, Information and Control
Volume	19
Issue number	5
DOIs	https://doi.org/10.24507/ijicic.19.05.1337
State	Published - Oct 2023

Keywords

Ardupilot
Drone
DTN
MAVLink
OpenCV
Raspberry Pi
UAV
WSN

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10.24507/ijicic.19.05.1337

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title = "DATA COLLECTION USING UNMANNED AERIAL VEHICLES AND A DELAY-TOLERANT NETWORK",

abstract = "Wireless sensor networks (WSNs) are widely used in low-energy consump-tion and dispersed monitoring applications. In this context, a common issue in WSNs corresponds to connectivity in low-density networks. An unmanned aerial vehicle (UAV)-based data collection is a promising solution for data transfer to tackle this challenge. This work proposes and evaluates a delay-tolerant network (DTN) for data transmission, where the transport mule is based on a UAV. The transmission throughput between the sensor node and the collector node (UAV) is evaluated in an environment with three different distances between the sensor node and the UAV: 0 m (land), 3 m, and 6 m. The results show that the transmission takes less time when the UAV is on land, while the transmission time increases with greater distance.",

keywords = "Ardupilot, Drone, DTN, MAVLink, OpenCV, Raspberry Pi, UAV, WSN",

author = "Cabrera, \{Edisson Paul\} and Agila, \{Jefferson Santiago\} and Fabian Astudillo-Salinas and Andres Vazquez-Rodas and Torres, \{Santiago Patricio\} and Ismael Minchala-Avila",

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doi = "10.24507/ijicic.19.05.1337",

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journal = "International Journal of Innovative Computing, Information and Control",

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AU - Cabrera, Edisson Paul

AU - Agila, Jefferson Santiago

AU - Astudillo-Salinas, Fabian

AU - Vazquez-Rodas, Andres

AU - Torres, Santiago Patricio

AU - Minchala-Avila, Ismael

PY - 2023/10

Y1 - 2023/10

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AB - Wireless sensor networks (WSNs) are widely used in low-energy consump-tion and dispersed monitoring applications. In this context, a common issue in WSNs corresponds to connectivity in low-density networks. An unmanned aerial vehicle (UAV)-based data collection is a promising solution for data transfer to tackle this challenge. This work proposes and evaluates a delay-tolerant network (DTN) for data transmission, where the transport mule is based on a UAV. The transmission throughput between the sensor node and the collector node (UAV) is evaluated in an environment with three different distances between the sensor node and the UAV: 0 m (land), 3 m, and 6 m. The results show that the transmission takes less time when the UAV is on land, while the transmission time increases with greater distance.

KW - Ardupilot

KW - Drone

KW - DTN

KW - MAVLink

KW - OpenCV

KW - Raspberry Pi

KW - UAV

KW - WSN

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U2 - 10.24507/ijicic.19.05.1337

DO - 10.24507/ijicic.19.05.1337

M3 - Artículo

AN - SCOPUS:85173498112

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EP - 1360

JO - International Journal of Innovative Computing, Information and Control

JF - International Journal of Innovative Computing, Information and Control

IS - 5

ER -

DATA COLLECTION USING UNMANNED AERIAL VEHICLES AND A DELAY-TOLERANT NETWORK

Abstract

Keywords

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