Advances in Controlled Meteorological (CMET) Balloon Systems

Over the past five years, small altitude-controlled balloons have been developed for atmospheric research and deployed in several major field campaigns. These Controlled Meteorological (CMET) balloons have been operated at altitudes from sea level to 18,000 feet, at latitudes from 18 to 80 degrees n...

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Bibliographic Details
Published in:AIAA Balloon Systems Conference
Main Author: Voss, Paul B.
Format: Text
Language:unknown
Published: Smith ScholarWorks 2009
Subjects:
Aerospace Engineering
Arctic
Online Access:https://scholarworks.smith.edu/egr_facpubs/65
https://doi.org/10.2514/6.2009-2810
https://scholarworks.smith.edu/context/egr_facpubs/article/1064/viewcontent/93630.pdf
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author Voss, Paul B.
author_facet Voss, Paul B.
author_sort Voss, Paul B.
collection Smith College: Smith ScholarWorks
container_title AIAA Balloon Systems Conference
description Over the past five years, small altitude-controlled balloons have been developed for atmospheric research and deployed in several major field campaigns. These Controlled Meteorological (CMET) balloons have been operated at altitudes from sea level to 18,000 feet, at latitudes from 18 to 80 degrees north, and for periods of up to five days. CMET balloons are now sufficiently simple to prepare and launch that they are being mailed to scientific collaborators oversees and operated remotely via satellite, greatly reducing the cost of making in situ atmospheric measurements. The balloon payload has been redesigned around a novel eight-parallel-processor microcontroller that enables exceptional flexibility and control with appreciable reductions in power consumption and weight. Miniature chemical sensors (carbon dioxide and sulfur dioxide) are now being used for quantifying contaminants and locating atmospheric layers. These new capabilities are being combined with near-real-time data processing, visualization, and control to enable CMET balloons to follow contaminant plumes in three-dimensional space, make repeated profile observations of mixing and dispersion, and report up-to-the minute position information to aviation safety officials. Successes and failures during recent campaigns in Mexico City, Hawaii, and the Arctic are discussed. Advances in balloon design and operations are described in the context of past flights and potential future applications.
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op_doi https://doi.org/10.2514/6.2009-2810
op_relation https://scholarworks.smith.edu/egr_facpubs/65
https://scholarworks.smith.edu/context/egr_facpubs/article/1064/viewcontent/93630.pdf
op_rights © 2009 by Paul B. Voss
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spelling ftsmithcollege:oai:scholarworks.smith.edu:egr_facpubs-1064 2025-06-08T13:59:42+00:00 Advances in Controlled Meteorological (CMET) Balloon Systems Voss, Paul B. 2009-01-01T08:00:00Z application/pdf https://scholarworks.smith.edu/egr_facpubs/65 https://doi.org/10.2514/6.2009-2810 https://scholarworks.smith.edu/context/egr_facpubs/article/1064/viewcontent/93630.pdf unknown Smith ScholarWorks https://scholarworks.smith.edu/egr_facpubs/65 https://scholarworks.smith.edu/context/egr_facpubs/article/1064/viewcontent/93630.pdf © 2009 by Paul B. Voss Engineering: Faculty Publications Aerospace Engineering text 2009 ftsmithcollege https://doi.org/10.2514/6.2009-2810 2025-05-15T03:14:09Z Over the past five years, small altitude-controlled balloons have been developed for atmospheric research and deployed in several major field campaigns. These Controlled Meteorological (CMET) balloons have been operated at altitudes from sea level to 18,000 feet, at latitudes from 18 to 80 degrees north, and for periods of up to five days. CMET balloons are now sufficiently simple to prepare and launch that they are being mailed to scientific collaborators oversees and operated remotely via satellite, greatly reducing the cost of making in situ atmospheric measurements. The balloon payload has been redesigned around a novel eight-parallel-processor microcontroller that enables exceptional flexibility and control with appreciable reductions in power consumption and weight. Miniature chemical sensors (carbon dioxide and sulfur dioxide) are now being used for quantifying contaminants and locating atmospheric layers. These new capabilities are being combined with near-real-time data processing, visualization, and control to enable CMET balloons to follow contaminant plumes in three-dimensional space, make repeated profile observations of mixing and dispersion, and report up-to-the minute position information to aviation safety officials. Successes and failures during recent campaigns in Mexico City, Hawaii, and the Arctic are discussed. Advances in balloon design and operations are described in the context of past flights and potential future applications. Text Arctic Smith College: Smith ScholarWorks Arctic AIAA Balloon Systems Conference
spellingShingle Aerospace Engineering
Voss, Paul B.
Advances in Controlled Meteorological (CMET) Balloon Systems
title Advances in Controlled Meteorological (CMET) Balloon Systems
title_full Advances in Controlled Meteorological (CMET) Balloon Systems
title_fullStr Advances in Controlled Meteorological (CMET) Balloon Systems
title_full_unstemmed Advances in Controlled Meteorological (CMET) Balloon Systems
title_short Advances in Controlled Meteorological (CMET) Balloon Systems
title_sort advances in controlled meteorological (cmet) balloon systems
topic Aerospace Engineering
topic_facet Aerospace Engineering
url https://scholarworks.smith.edu/egr_facpubs/65
https://doi.org/10.2514/6.2009-2810
https://scholarworks.smith.edu/context/egr_facpubs/article/1064/viewcontent/93630.pdf

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