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Unmanned aerial system–assisted wilderness search and rescue mission

Tutkimustuotosvertaisarvioitu

Standard

Unmanned aerial system–assisted wilderness search and rescue mission. / Dinh, Truong Duy; Pirmagomedov, Rustam; Pham, Van Dai; Ahmed, Aram A.; Kirichek, Ruslan; Glushakov, Ruslan; Vladyko, Andrei.

julkaisussa: International Journal of Distributed Sensor Networks, Vuosikerta 15, Nro 6, 01.06.2019.

Tutkimustuotosvertaisarvioitu

Harvard

Dinh, TD, Pirmagomedov, R, Pham, VD, Ahmed, AA, Kirichek, R, Glushakov, R & Vladyko, A 2019, 'Unmanned aerial system–assisted wilderness search and rescue mission', International Journal of Distributed Sensor Networks, Vuosikerta. 15, Nro 6. https://doi.org/10.1177/1550147719850719

APA

Dinh, T. D., Pirmagomedov, R., Pham, V. D., Ahmed, A. A., Kirichek, R., Glushakov, R., & Vladyko, A. (2019). Unmanned aerial system–assisted wilderness search and rescue mission. International Journal of Distributed Sensor Networks, 15(6). https://doi.org/10.1177/1550147719850719

Vancouver

Dinh TD, Pirmagomedov R, Pham VD, Ahmed AA, Kirichek R, Glushakov R et al. Unmanned aerial system–assisted wilderness search and rescue mission. International Journal of Distributed Sensor Networks. 2019 kesä 1;15(6). https://doi.org/10.1177/1550147719850719

Author

Dinh, Truong Duy ; Pirmagomedov, Rustam ; Pham, Van Dai ; Ahmed, Aram A. ; Kirichek, Ruslan ; Glushakov, Ruslan ; Vladyko, Andrei. / Unmanned aerial system–assisted wilderness search and rescue mission. Julkaisussa: International Journal of Distributed Sensor Networks. 2019 ; Vuosikerta 15, Nro 6.

Bibtex - Lataa

@article{956779ab69634a39bd2a6500d64e56b4,
title = "Unmanned aerial system–assisted wilderness search and rescue mission",
abstract = "The success of the wilderness search and rescue missions is highly dependent on the time required to search for the lost person. The use of unmanned aerial systems may enhance search and rescue missions by supplying aerial support of the search process. There are unmanned aerial system–based solutions, which are capable of detecting the lost person using computer vision, infrared sensors, and detection of a mobile phone signal. The most pressing issue is reducing the cost of a search and rescue mission. Thus, to improve the efficiency of the resource utilization in wilderness search scenario, we consider the use of unmanned aerial system for both mobile phone detection and enabling Wi-Fi communication for the ground portion of the search and rescue team. Such an approach does not require specific additional tools (e.g. access point, specific user equipment) for communication, which reduces the cost and improves the scalability and coordination of the search and rescue mission. As a result, the article provides methods of searching the wilderness for a person using beacon signals from a mobile phone for two situations: when the distance to the source of emergency signals is unknown and when the distance is known. In addition, the voice transmission delay and the number of unmanned aircrafts are found to guaranty the quality of a call.",
keywords = "flying network, search and rescue, SOS signals, UAS, Unmanned aerial systems, unmanned aircrafts",
author = "Dinh, {Truong Duy} and Rustam Pirmagomedov and Pham, {Van Dai} and Ahmed, {Aram A.} and Ruslan Kirichek and Ruslan Glushakov and Andrei Vladyko",
year = "2019",
month = "6",
day = "1",
doi = "10.1177/1550147719850719",
language = "English",
volume = "15",
journal = "International Journal of Distributed Sensor Networks",
issn = "1550-1329",
publisher = "Hindawi Publishing Corporation",
number = "6",

}

RIS (suitable for import to EndNote) - Lataa

TY - JOUR

T1 - Unmanned aerial system–assisted wilderness search and rescue mission

AU - Dinh, Truong Duy

AU - Pirmagomedov, Rustam

AU - Pham, Van Dai

AU - Ahmed, Aram A.

AU - Kirichek, Ruslan

AU - Glushakov, Ruslan

AU - Vladyko, Andrei

PY - 2019/6/1

Y1 - 2019/6/1

N2 - The success of the wilderness search and rescue missions is highly dependent on the time required to search for the lost person. The use of unmanned aerial systems may enhance search and rescue missions by supplying aerial support of the search process. There are unmanned aerial system–based solutions, which are capable of detecting the lost person using computer vision, infrared sensors, and detection of a mobile phone signal. The most pressing issue is reducing the cost of a search and rescue mission. Thus, to improve the efficiency of the resource utilization in wilderness search scenario, we consider the use of unmanned aerial system for both mobile phone detection and enabling Wi-Fi communication for the ground portion of the search and rescue team. Such an approach does not require specific additional tools (e.g. access point, specific user equipment) for communication, which reduces the cost and improves the scalability and coordination of the search and rescue mission. As a result, the article provides methods of searching the wilderness for a person using beacon signals from a mobile phone for two situations: when the distance to the source of emergency signals is unknown and when the distance is known. In addition, the voice transmission delay and the number of unmanned aircrafts are found to guaranty the quality of a call.

AB - The success of the wilderness search and rescue missions is highly dependent on the time required to search for the lost person. The use of unmanned aerial systems may enhance search and rescue missions by supplying aerial support of the search process. There are unmanned aerial system–based solutions, which are capable of detecting the lost person using computer vision, infrared sensors, and detection of a mobile phone signal. The most pressing issue is reducing the cost of a search and rescue mission. Thus, to improve the efficiency of the resource utilization in wilderness search scenario, we consider the use of unmanned aerial system for both mobile phone detection and enabling Wi-Fi communication for the ground portion of the search and rescue team. Such an approach does not require specific additional tools (e.g. access point, specific user equipment) for communication, which reduces the cost and improves the scalability and coordination of the search and rescue mission. As a result, the article provides methods of searching the wilderness for a person using beacon signals from a mobile phone for two situations: when the distance to the source of emergency signals is unknown and when the distance is known. In addition, the voice transmission delay and the number of unmanned aircrafts are found to guaranty the quality of a call.

KW - flying network

KW - search and rescue

KW - SOS signals

KW - UAS

KW - Unmanned aerial systems

KW - unmanned aircrafts

U2 - 10.1177/1550147719850719

DO - 10.1177/1550147719850719

M3 - Article

VL - 15

JO - International Journal of Distributed Sensor Networks

JF - International Journal of Distributed Sensor Networks

SN - 1550-1329

IS - 6

ER -