Remote Piloting UAS in Extreme Environments with Challanging Climatic Conditions - An Overview of Modern UAS Capabilities in the Field of Volcanology, Geosciences, Atmospheric Chemistry and Interplanetary Exploration
Unmanned Aerial Systems have recently had advanced payloads configured by engineers for various atmospheric sampling experiments and have been proven a successful and innovative technology. Climatic stability in volcanic regions can change in less than one minute. And with that comes relative humidi...
| Autores Principales: | Godfrey, Ian, Sibaja, José, Montealegre Viales, Emanuel |
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| Formato: | Artículo |
| Idioma: | Inglés |
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ADVANCED ENGINEERING DAYS (AED)
2023
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| Acceso en línea: |
http://hdl.handle.net/11056/26190 |
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RepoUNACR26190 |
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RepoUNACR261902024-04-19T20:54:36Z Remote Piloting UAS in Extreme Environments with Challanging Climatic Conditions - An Overview of Modern UAS Capabilities in the Field of Volcanology, Geosciences, Atmospheric Chemistry and Interplanetary Exploration Godfrey, Ian Sibaja, José Montealegre Viales, Emanuel DRONES ATMÓSFERA ATMOSPHERE GEOLOGÍA GEOLOGY VOLCANES DRONE CLIMATE Unmanned Aerial Systems have recently had advanced payloads configured by engineers for various atmospheric sampling experiments and have been proven a successful and innovative technology. Climatic stability in volcanic regions can change in less than one minute. And with that comes relative humidity fluctuations, 80% change in visibility conditions, wind speed change, wind direction change, enhancing wind gusts. Its the data collection on how UAS operate in these conditions that will eventually assist the development of UAS with the ability to conduct complex photogammetry and atmospheric sampling flight missions of the Moon and Mars. For this reason we created a short article on our findings on using UAS in some of the most extreme and complicated atmospheric enviroments. Los sistemas aéreos no tripulados recientemente han configurado cargas útiles avanzadas por ingenieros para varios experimentos de muestreo atmosférico y han demostrado ser una tecnología exitosa e innovadora. La estabilidad climática en las regiones volcánicas puede cambiar en menos de un minuto. Y con eso vienen las fluctuaciones de la humedad relativa, el cambio del 80% en las condiciones de visibilidad, el cambio de la velocidad del viento, el cambio de la dirección del viento, las ráfagas de viento mejoradas. Es la recopilación de datos sobre cómo operan los UAS en estas condiciones lo que eventualmente ayudará al desarrollo de UAS con la capacidad de realizar misiones de vuelo de muestreo atmosférico y fotogammetría complejas de la Luna y Marte. Por esta razón, creamos un breve artículo sobre nuestros hallazgos sobre el uso de UAS en algunos de los entornos atmosféricos más extremos y complicados. Universidad Nacional, Costa Rica Escuela de Química 2023-08-22T21:05:43Z 2023-08-22T21:05:43Z 2022-09 http://purl.org/coar/resource_type/c_6501 http://hdl.handle.net/11056/26190 eng Acceso abierto Attribution-NonCommercial-NoDerivatives 4.0 Internacional http://creativecommons.org/licenses/by-nc-nd/4.0/ application/pdf ADVANCED ENGINEERING DAYS (AED) 4th Advanced Engineering Days, page numbers. |
| institution |
Universidad Nacional de Costa Rica |
| collection |
Repositorio UNA-Costa Rica |
| language |
Inglés |
| topic |
DRONES ATMÓSFERA ATMOSPHERE GEOLOGÍA GEOLOGY VOLCANES DRONE CLIMATE |
| spellingShingle |
DRONES ATMÓSFERA ATMOSPHERE GEOLOGÍA GEOLOGY VOLCANES DRONE CLIMATE Godfrey, Ian Sibaja, José Montealegre Viales, Emanuel Remote Piloting UAS in Extreme Environments with Challanging Climatic Conditions - An Overview of Modern UAS Capabilities in the Field of Volcanology, Geosciences, Atmospheric Chemistry and Interplanetary Exploration |
| description |
Unmanned Aerial Systems have recently had advanced payloads configured by engineers for various atmospheric sampling experiments and have been proven a successful and innovative technology. Climatic stability in volcanic regions can change in less than one minute. And with that comes relative humidity fluctuations, 80% change in visibility conditions, wind speed change, wind direction change, enhancing wind gusts. Its the data collection on how UAS operate in these conditions that will eventually assist the development of UAS with the ability to conduct complex photogammetry and atmospheric sampling flight missions of the Moon and Mars. For this reason we created a short article
on our findings on using UAS in some of the most extreme and complicated atmospheric enviroments. |
| format |
Artículo |
| author |
Godfrey, Ian Sibaja, José Montealegre Viales, Emanuel |
| author_sort |
Godfrey, Ian |
| title |
Remote Piloting UAS in Extreme Environments with Challanging Climatic Conditions - An Overview of Modern UAS Capabilities in the Field of Volcanology, Geosciences, Atmospheric Chemistry and Interplanetary Exploration |
| title_short |
Remote Piloting UAS in Extreme Environments with Challanging Climatic Conditions - An Overview of Modern UAS Capabilities in the Field of Volcanology, Geosciences, Atmospheric Chemistry and Interplanetary Exploration |
| title_full |
Remote Piloting UAS in Extreme Environments with Challanging Climatic Conditions - An Overview of Modern UAS Capabilities in the Field of Volcanology, Geosciences, Atmospheric Chemistry and Interplanetary Exploration |
| title_fullStr |
Remote Piloting UAS in Extreme Environments with Challanging Climatic Conditions - An Overview of Modern UAS Capabilities in the Field of Volcanology, Geosciences, Atmospheric Chemistry and Interplanetary Exploration |
| title_full_unstemmed |
Remote Piloting UAS in Extreme Environments with Challanging Climatic Conditions - An Overview of Modern UAS Capabilities in the Field of Volcanology, Geosciences, Atmospheric Chemistry and Interplanetary Exploration |
| title_sort |
remote piloting uas in extreme environments with challanging climatic conditions - an overview of modern uas capabilities in the field of volcanology, geosciences, atmospheric chemistry and interplanetary exploration |
| publisher |
ADVANCED ENGINEERING DAYS (AED) |
| publishDate |
2023 |
| url |
http://hdl.handle.net/11056/26190 |
| _version_ |
1803794829722779648 |
| score |
12.19327 |