Run2Sat I: Design and implementation of a CanSat with Autogyro System

Franco Rivadeneira; Diego Godinez; Kioshi Kiyan; Victor Huayapa; Sebastian Acosta; Nicole Perez; Abel Hinostroza; Diego Arce

doi:10.1109/C358072.2023.10436175

Run2Sat I: Design and implementation of a CanSat with Autogyro System

Franco Rivadeneira, Diego Godinez, Kioshi Kiyan, Victor Huayapa, Sebastian Acosta, Nicole Perez, Abel Hinostroza, Diego Arce

Sección de Ingeniería Mecánica

Pontifical Catholic Univ. of Peru

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

2 Scopus citations

Abstract

This paper proposes the design of a canned picosatellite with an autogyro system capable of ensuring the integrity of an egg payload during both the flight and landing phases. The design of this satellite was based on the requirements outlined in the 'Concurso Iberoamericano de Satélites Enlatados 2023' guidelines. The findings made in this paper hold implications for applications involving the transportation and safe landing of delicate payloads in space exploration missions. As a result of the implementation, the objective of deploying the secondary face of the primary was accomplished, and the weather parameters were transmitted. On the other hand, the autogyro mechanism managed a speed reduction efficiency of 84.21%.

Original language	English
Title of host publication	1st IEEE Colombian Caribbean Conference, C3 2023
Editors	Paul Sanmartin Mendoza, Andres Navarro
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)	9798350341799
DOIs	https://doi.org/10.1109/C358072.2023.10436175
State	Published - 2023
Event	1st IEEE Colombian Caribbean Conference, C3 2023 - Barranquilla, Colombia Duration: 22 Nov 2023 → 25 Nov 2023

Publication series

Name	1st IEEE Colombian Caribbean Conference, C3 2023

Conference

Conference	1st IEEE Colombian Caribbean Conference, C3 2023
Country/Territory	Colombia
City	Barranquilla
Period	22/11/23 → 25/11/23

Keywords

Autogyro
CanSat
Remote Sensing

Access to Document

10.1109/C358072.2023.10436175

Cite this

Rivadeneira, F., Godinez, D., Kiyan, K., Huayapa, V., Acosta, S., Perez, N., Hinostroza, A., & Arce, D. (2023). Run2Sat I: Design and implementation of a CanSat with Autogyro System. In P. S. Mendoza, & A. Navarro (Eds.), 1st IEEE Colombian Caribbean Conference, C3 2023 (1st IEEE Colombian Caribbean Conference, C3 2023). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/C358072.2023.10436175

@inproceedings{97fec398afa940a892ae0637407ea77b,

title = "Run2Sat I: Design and implementation of a CanSat with Autogyro System",

abstract = "This paper proposes the design of a canned picosatellite with an autogyro system capable of ensuring the integrity of an egg payload during both the flight and landing phases. The design of this satellite was based on the requirements outlined in the 'Concurso Iberoamericano de Sat{\'e}lites Enlatados 2023' guidelines. The findings made in this paper hold implications for applications involving the transportation and safe landing of delicate payloads in space exploration missions. As a result of the implementation, the objective of deploying the secondary face of the primary was accomplished, and the weather parameters were transmitted. On the other hand, the autogyro mechanism managed a speed reduction efficiency of 84.21%.",

keywords = "Autogyro, CanSat, Remote Sensing",

author = "Franco Rivadeneira and Diego Godinez and Kioshi Kiyan and Victor Huayapa and Sebastian Acosta and Nicole Perez and Abel Hinostroza and Diego Arce",

note = "Publisher Copyright: {\textcopyright} 2023 IEEE.; 1st IEEE Colombian Caribbean Conference, C3 2023 ; Conference date: 22-11-2023 Through 25-11-2023",

year = "2023",

doi = "10.1109/C358072.2023.10436175",

language = "English",

series = "1st IEEE Colombian Caribbean Conference, C3 2023",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

editor = "Mendoza, {Paul Sanmartin} and Andres Navarro",

booktitle = "1st IEEE Colombian Caribbean Conference, C3 2023",

}

Rivadeneira, F, Godinez, D, Kiyan, K, Huayapa, V, Acosta, S, Perez, N, Hinostroza, A & Arce, D 2023, Run2Sat I: Design and implementation of a CanSat with Autogyro System. in PS Mendoza & A Navarro (eds), 1st IEEE Colombian Caribbean Conference, C3 2023. 1st IEEE Colombian Caribbean Conference, C3 2023, Institute of Electrical and Electronics Engineers Inc., 1st IEEE Colombian Caribbean Conference, C3 2023, Barranquilla, Colombia, 22/11/23. https://doi.org/10.1109/C358072.2023.10436175

Run2Sat I: Design and implementation of a CanSat with Autogyro System. / Rivadeneira, Franco; Godinez, Diego; Kiyan, Kioshi et al.
1st IEEE Colombian Caribbean Conference, C3 2023. ed. / Paul Sanmartin Mendoza; Andres Navarro. Institute of Electrical and Electronics Engineers Inc., 2023. (1st IEEE Colombian Caribbean Conference, C3 2023).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - Run2Sat I

T2 - 1st IEEE Colombian Caribbean Conference, C3 2023

AU - Rivadeneira, Franco

AU - Godinez, Diego

AU - Kiyan, Kioshi

AU - Huayapa, Victor

AU - Acosta, Sebastian

AU - Perez, Nicole

AU - Hinostroza, Abel

AU - Arce, Diego

PY - 2023

Y1 - 2023

N2 - This paper proposes the design of a canned picosatellite with an autogyro system capable of ensuring the integrity of an egg payload during both the flight and landing phases. The design of this satellite was based on the requirements outlined in the 'Concurso Iberoamericano de Satélites Enlatados 2023' guidelines. The findings made in this paper hold implications for applications involving the transportation and safe landing of delicate payloads in space exploration missions. As a result of the implementation, the objective of deploying the secondary face of the primary was accomplished, and the weather parameters were transmitted. On the other hand, the autogyro mechanism managed a speed reduction efficiency of 84.21%.

AB - This paper proposes the design of a canned picosatellite with an autogyro system capable of ensuring the integrity of an egg payload during both the flight and landing phases. The design of this satellite was based on the requirements outlined in the 'Concurso Iberoamericano de Satélites Enlatados 2023' guidelines. The findings made in this paper hold implications for applications involving the transportation and safe landing of delicate payloads in space exploration missions. As a result of the implementation, the objective of deploying the secondary face of the primary was accomplished, and the weather parameters were transmitted. On the other hand, the autogyro mechanism managed a speed reduction efficiency of 84.21%.

KW - Autogyro

KW - CanSat

KW - Remote Sensing

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U2 - 10.1109/C358072.2023.10436175

DO - 10.1109/C358072.2023.10436175

M3 - Conference contribution

AN - SCOPUS:85186771447

T3 - 1st IEEE Colombian Caribbean Conference, C3 2023

BT - 1st IEEE Colombian Caribbean Conference, C3 2023

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PB - Institute of Electrical and Electronics Engineers Inc.

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Rivadeneira F, Godinez D, Kiyan K, Huayapa V, Acosta S, Perez N et al. Run2Sat I: Design and implementation of a CanSat with Autogyro System. In Mendoza PS, Navarro A, editors, 1st IEEE Colombian Caribbean Conference, C3 2023. Institute of Electrical and Electronics Engineers Inc. 2023. (1st IEEE Colombian Caribbean Conference, C3 2023). doi: 10.1109/C358072.2023.10436175

Run2Sat I: Design and implementation of a CanSat with Autogyro System

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