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Rune Åvar Ødegård

Director of Digitalisation

+47 63 89 80 87
+47 410 82 074

Department of Digital Technologies
Kjeller

ruo@nilu.no


Cristin  

Rune Åvar Ødegård

Rune Åvar Ødegård has 33 publications at NILU:

A surrogate-assisted measurement correction method for accurate and low-cost monitoring of particulate matter pollutants

Wojcikowski, Marek; Pankiewicz, Bogdan; Bekasiewicz, Adrian; Cao, Tuan-Vu; Lepioufle, Jean-Marie; Vallejo, Islen; Ødegård, Rune Åvar; Ha, Hoai Phuong

2022

SR5: Assessing the spatial representativeness of air quality sampling points – TASK 3

Tarrasón, Leonor; Hak, Claudia; Soares, Joana; Røen, Håvard Vika; Ødegård, Rune Åvar; Marsteen, Leif

2019

ALaDIn: Shining a light on air quality through data integration and machine learning.

Roman, D.; Kobernus, M.; Ødegård, R.; Nikolov, N.; Sukhobok, D.; von Zernichow, B. M.; Lech, T.

2017

CTT 2.0 Carbon Track and Trace, NILUs know-how and experience from previous research activities.

Sundseth, K.; Castell, N.; Marsteen, L.; Dauge, F.R.; Ødegård, R.; Driscoll, P.; Anthonisen, F.; Vesterkjær, A.

2016

Activity segment 0. Overview of project deliverables and outcomes.

Randall, S.; Sivertsen, B.; Vo, D.T.; Dauge, F.; Marsteen, L.; Sundseth, K.; Clemetsen, T.; Ødegård, R.; Uddin, N.

2015

The MEMORI dosimeter – a user friendly tool for evaluation of indoor air quality for cultural heritage.

Grøntoft, T.; Wittstadt, K.; Bellendorf, P.; Dahlin, E.; Håland, S.; Bernardo, C.; Ødegård, R.; Røen, H.V.; Heltne, T.

2012

The MEMORI dosimeter – a user friendly tool for evaluation of indoor air quality for cultural heritage.

Grøntoft, T.; Wittstadt, K.; Bellendorf, P.; Dahlin, E.; Håland, S.; Bernardo, C.; Ødegård, R.; Røen, H.V.; Heltne, T.

2012

2011

Environmental Impact Factor – air: an integrated modelling system for cost-benefit analysis of air emission reduction measures.

Guerreiro, C.; Larssen, T.; Bruteig, I.; Knudsen, S.; Ødegård, R.; Aarrestad, P.A.; Monsen, B.L.S.; Engen, S.

2009

An outbreak of legionnaires disease caused by long-distance spread from an industrial air scrubber in Sarpsborg, Norway.

Nygård, K.; Werner-Johansen, Ø.; Rønsen, S.; Caugant, D.A.; Simonsen, Ø.; Kanestrøm, A.; Ask, E.; Ringstad, J.; Ødegård, R.; Jensen, T.; Krogh, T.; Høiby, E.A.; Ragnhildstveit, E.; Aaberge, I.S.; Aavitsland, P.

2008

Evaluation of AirQUIS platform.

Bøhler, T.; Thanh, T.N.; Krognes, T.; Ødegård, R.

2007

AirQUIS measurement module. Functionality specification.

Johnsrud, M.; Laupsa, H.; Ødegård, R.Å.

2003

AirQUIS models. Functionality specification.

Laupsa, H.; Ødegård, R.Å.

2003

Autonomous Multi-Format In-Situ Observation Platform for Atmospheric Carbon Dioxide and Methane Monitoring in Permafrost & Wetlands (MISO)

Climate warming is driven by increased concentrations of greenhouse gasses (GHGs) e.g., CO2 and CH4, in the atmosphere. Existing observatories are able to capture GHG information for large-scale global assessments, […]

Project period: 2023 – 2026

Ongoing

Low Latency Air Quality Management (AirQMAN)

Existing air quality (AQ) monitoring and management (AQMS) methods and evolving modelling practices across Norwegian and European cities have achieved significant improvements of AQ but further progress is needed due […]

Project period: 2021 – 2025

Ongoing

Engaging citizens in food diversity in cities (SmartFood)

“Grow your own food in the corridor of your building, reduce GHG (greenhouse gas) emission, the waste of food and energy and transportation costs! Improve your physical health by changing […]

Project period: 2021 – 2024

Ongoing

Highly Accurate and Autonomous Programmable Platform for Providing Air Pollution Data Services to Drivers and the Public (HAPADS)

HAPADS is an ambitious project that will custom design and build a novel air mobile monitoring system (devices, data acquisition, analysis, and user interface), which will enable end-users (drivers, transport […]

Project period: 2020 – 2023

Ongoing

Rune Åvar Ødegård has 33 publications at NILU:

A surrogate-assisted measurement correction method for accurate and low-cost monitoring of particulate matter pollutants

Wojcikowski, Marek; Pankiewicz, Bogdan; Bekasiewicz, Adrian; Cao, Tuan-Vu; Lepioufle, Jean-Marie; Vallejo, Islen; Ødegård, Rune Åvar; Ha, Hoai Phuong

2022

SR5: Assessing the spatial representativeness of air quality sampling points – TASK 3

Tarrasón, Leonor; Hak, Claudia; Soares, Joana; Røen, Håvard Vika; Ødegård, Rune Åvar; Marsteen, Leif

2019

ALaDIn: Shining a light on air quality through data integration and machine learning.

Roman, D.; Kobernus, M.; Ødegård, R.; Nikolov, N.; Sukhobok, D.; von Zernichow, B. M.; Lech, T.

2017

CTT 2.0 Carbon Track and Trace, NILUs know-how and experience from previous research activities.

Sundseth, K.; Castell, N.; Marsteen, L.; Dauge, F.R.; Ødegård, R.; Driscoll, P.; Anthonisen, F.; Vesterkjær, A.

2016

Activity segment 0. Overview of project deliverables and outcomes.

Randall, S.; Sivertsen, B.; Vo, D.T.; Dauge, F.; Marsteen, L.; Sundseth, K.; Clemetsen, T.; Ødegård, R.; Uddin, N.

2015

The MEMORI dosimeter – a user friendly tool for evaluation of indoor air quality for cultural heritage.

Grøntoft, T.; Wittstadt, K.; Bellendorf, P.; Dahlin, E.; Håland, S.; Bernardo, C.; Ødegård, R.; Røen, H.V.; Heltne, T.

2012

The MEMORI dosimeter – a user friendly tool for evaluation of indoor air quality for cultural heritage.

Grøntoft, T.; Wittstadt, K.; Bellendorf, P.; Dahlin, E.; Håland, S.; Bernardo, C.; Ødegård, R.; Røen, H.V.; Heltne, T.

2012

2011

Environmental Impact Factor – air: an integrated modelling system for cost-benefit analysis of air emission reduction measures.

Guerreiro, C.; Larssen, T.; Bruteig, I.; Knudsen, S.; Ødegård, R.; Aarrestad, P.A.; Monsen, B.L.S.; Engen, S.

2009

An outbreak of legionnaires disease caused by long-distance spread from an industrial air scrubber in Sarpsborg, Norway.

Nygård, K.; Werner-Johansen, Ø.; Rønsen, S.; Caugant, D.A.; Simonsen, Ø.; Kanestrøm, A.; Ask, E.; Ringstad, J.; Ødegård, R.; Jensen, T.; Krogh, T.; Høiby, E.A.; Ragnhildstveit, E.; Aaberge, I.S.; Aavitsland, P.

2008

Evaluation of AirQUIS platform.

Bøhler, T.; Thanh, T.N.; Krognes, T.; Ødegård, R.

2007

AirQUIS measurement module. Functionality specification.

Johnsrud, M.; Laupsa, H.; Ødegård, R.Å.

2003

AirQUIS models. Functionality specification.

Laupsa, H.; Ødegård, R.Å.

2003

Autonomous Multi-Format In-Situ Observation Platform for Atmospheric Carbon Dioxide and Methane Monitoring in Permafrost & Wetlands (MISO)

Climate warming is driven by increased concentrations of greenhouse gasses (GHGs) e.g., CO2 and CH4, in the atmosphere. Existing observatories are able to capture GHG information for large-scale global assessments, […]

Project period: 2023 – 2026

Ongoing

Low Latency Air Quality Management (AirQMAN)

Existing air quality (AQ) monitoring and management (AQMS) methods and evolving modelling practices across Norwegian and European cities have achieved significant improvements of AQ but further progress is needed due […]

Project period: 2021 – 2025

Ongoing

Engaging citizens in food diversity in cities (SmartFood)

“Grow your own food in the corridor of your building, reduce GHG (greenhouse gas) emission, the waste of food and energy and transportation costs! Improve your physical health by changing […]

Project period: 2021 – 2024

Ongoing

Highly Accurate and Autonomous Programmable Platform for Providing Air Pollution Data Services to Drivers and the Public (HAPADS)

HAPADS is an ambitious project that will custom design and build a novel air mobile monitoring system (devices, data acquisition, analysis, and user interface), which will enable end-users (drivers, transport […]

Project period: 2020 – 2023

Ongoing