PermaDAQ: A scientific instrument for precision sensing and data recovery in environmental extremes

The PermaSense project has set the ambitious goal of gathering real-time environmental data for high-mountain permafrost in unattended operation over multiple years. This paper discusses the specialized sensing and data recovery architecture tailored to meet the precision, reliability and durability...

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Main Authors: Beutel, J. (Jan), Gruber, S. (Stephan), Hasler, A. (Andreas), Lim, R. (Roman), Meier, A. (Andreas), Plessl, C. (Christian), Talzi, I. (Igor), Thiele, L. (Lothar), Tschudin, C. (Christian), Woehrle, M. (Matthias), Yuecel, M. (Mustafa)
Format: Other/Unknown Material
Language:English
Published: 2009
Subjects:
Architecture
Data acquisition
Environmental monitoring
Low-power
Wireless sensor networks
permafrost
Online Access:https://ir.library.carleton.ca/pub/19149
id ftcarletonunivir:oai:carleton.ca:19149
record_format openpolar
spelling ftcarletonunivir:oai:carleton.ca:19149 2023-05-15T17:57:36+02:00 PermaDAQ: A scientific instrument for precision sensing and data recovery in environmental extremes Beutel, J. (Jan) Gruber, S. (Stephan) Hasler, A. (Andreas) Lim, R. (Roman) Meier, A. (Andreas) Plessl, C. (Christian) Talzi, I. (Igor) Thiele, L. (Lothar) Tschudin, C. (Christian) Woehrle, M. (Matthias) Yuecel, M. (Mustafa) 2009-11-16 https://ir.library.carleton.ca/pub/19149 en eng https://ir.library.carleton.ca/pub/19149 Architecture Data acquisition Environmental monitoring Low-power Wireless sensor networks info:eu-repo/semantics/other 2009 ftcarletonunivir 2022-02-06T21:52:02Z The PermaSense project has set the ambitious goal of gathering real-time environmental data for high-mountain permafrost in unattended operation over multiple years. This paper discusses the specialized sensing and data recovery architecture tailored to meet the precision, reliability and durability requirements of scientists utilizing the data for model validation. We present a custom sensor interface board including specialized sensors and redundancy features for end-to-end data validation. Aspects of high-quality data acquisition, design for reliability by strict separation of operating phases and analysis of energy efficiency are discussed. The system integration using the Dozer protocol scheme achieves a best-in-class average power consumption of 148 A considerably exceeding the lifetime requirement. Copyright 2009 ACM. Other/Unknown Material permafrost Carleton University's Institutional Repository
institution Open Polar
collection Carleton University's Institutional Repository
op_collection_id ftcarletonunivir
language English
topic Architecture
Data acquisition
Environmental monitoring
Low-power
Wireless sensor networks
spellingShingle Architecture
Data acquisition
Environmental monitoring
Low-power
Wireless sensor networks
Beutel, J. (Jan)
Gruber, S. (Stephan)
Hasler, A. (Andreas)
Lim, R. (Roman)
Meier, A. (Andreas)
Plessl, C. (Christian)
Talzi, I. (Igor)
Thiele, L. (Lothar)
Tschudin, C. (Christian)
Woehrle, M. (Matthias)
Yuecel, M. (Mustafa)
PermaDAQ: A scientific instrument for precision sensing and data recovery in environmental extremes
topic_facet Architecture
Data acquisition
Environmental monitoring
Low-power
Wireless sensor networks
description The PermaSense project has set the ambitious goal of gathering real-time environmental data for high-mountain permafrost in unattended operation over multiple years. This paper discusses the specialized sensing and data recovery architecture tailored to meet the precision, reliability and durability requirements of scientists utilizing the data for model validation. We present a custom sensor interface board including specialized sensors and redundancy features for end-to-end data validation. Aspects of high-quality data acquisition, design for reliability by strict separation of operating phases and analysis of energy efficiency are discussed. The system integration using the Dozer protocol scheme achieves a best-in-class average power consumption of 148 A considerably exceeding the lifetime requirement. Copyright 2009 ACM.
format Other/Unknown Material
author Beutel, J. (Jan)
Gruber, S. (Stephan)
Hasler, A. (Andreas)
Lim, R. (Roman)
Meier, A. (Andreas)
Plessl, C. (Christian)
Talzi, I. (Igor)
Thiele, L. (Lothar)
Tschudin, C. (Christian)
Woehrle, M. (Matthias)
Yuecel, M. (Mustafa)
author_facet Beutel, J. (Jan)
Gruber, S. (Stephan)
Hasler, A. (Andreas)
Lim, R. (Roman)
Meier, A. (Andreas)
Plessl, C. (Christian)
Talzi, I. (Igor)
Thiele, L. (Lothar)
Tschudin, C. (Christian)
Woehrle, M. (Matthias)
Yuecel, M. (Mustafa)
author_sort Beutel, J. (Jan)
title PermaDAQ: A scientific instrument for precision sensing and data recovery in environmental extremes
title_short PermaDAQ: A scientific instrument for precision sensing and data recovery in environmental extremes
title_full PermaDAQ: A scientific instrument for precision sensing and data recovery in environmental extremes
title_fullStr PermaDAQ: A scientific instrument for precision sensing and data recovery in environmental extremes
title_full_unstemmed PermaDAQ: A scientific instrument for precision sensing and data recovery in environmental extremes
title_sort permadaq: a scientific instrument for precision sensing and data recovery in environmental extremes
publishDate 2009
url https://ir.library.carleton.ca/pub/19149
genre permafrost
genre_facet permafrost
op_relation https://ir.library.carleton.ca/pub/19149
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