Real-time pollen monitoring using digital holography

We present the first validation of the Swisens Poleno, currently the only operational automatic pollen monitoring system based on digital holography. The device provides in-flight images of all coarse aerosols, and here we develop a two-step classification algorithm that uses these images to identif...

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Bibliographic Details
Published in:Atmospheric measurement techniques 2020-03, Vol.13 (3), p.1539-1550
Main Authors: Sauvageat, Eric, Zeder, Yanick, Auderset, Kevin, Calpini, Bertrand, Clot, Bernard, Crouzy, Benoît, Konzelmann, Thomas, Lieberherr, Gian, Tummon, Fiona, Vasilatou, Konstantina
Format: Article
Language:English
Subjects:
Accuracy
Aerosols
Air pollution
Algorithms
Automation
Beads
Calibration
Classification
Datasets
Digital imaging
Flow cytometry
Holography
Identification
Image classification
Latex
Latex beads
Machine learning
Monitoring
Monitoring systems
Particle size
Particulate matter
Pollen
Polystyrene
Polystyrene resins
Public health
Suspended particulate matter
Taxa
Time
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Summary:We present the first validation of the Swisens Poleno, currently the only operational automatic pollen monitoring system based on digital holography. The device provides in-flight images of all coarse aerosols, and here we develop a two-step classification algorithm that uses these images to identify a range of pollen taxa. Deterministic criteria based on the shape of the particle are applied to initially distinguish between intact pollen grains and other coarse particulate matter. This first level of discrimination identifies pollen with an accuracy of 96 %. Thereafter, individual pollen taxa are recognized using supervised learning techniques. The algorithm is trained using data obtained by inserting known pollen types into the device, and out of eight pollen taxa six can be identified with an accuracy of above 90 %. In addition to the ability to correctly identify aerosols, an automatic pollen monitoring system needs to be able to correctly determine particle concentrations. To further verify the device, controlled chamber experiments using polystyrene latex beads were performed. This provided reference aerosols with traceable particle size and number concentrations in order to ensure particle size and sampling volume were correctly characterized.
ISSN:1867-8548
1867-1381
1867-8548
DOI:10.5194/amt-13-1539-2020