The new way of real-time measurement

Stable long-term operation

Reliably measure and identify local concentrations of bioaerosol particles in real time. High availability thanks to robust design and high-quality technology.

 

Unique identification

Based on an extensive data set and in combination with state-of-the-art machine learning algorithms, excellent quality of classification results is achieved.

 

Transparent data

Transparent logs and access to raw data allow control of measurement data needed for research purposes.

 

Lab and field use

There are no limits to its use. SwisensPoleno Jupiter can be operated both in a network out in the field and as an individual measuring system in the laboratory in a simple and user-friendly manner.

 

Read more about real-time particle measurement

SwisensPoleno Jupiter is the latest generation of optical particle measurement systems for real-time measurement and monitoring of bioaerosols. The real-time bioaerosol monitor SwisensPoleno Jupiter combines the latest measurement methods with artificial intelligence and transparent data evaluation to create a reliable measurement system for automatic particle identification. This includes pollen, spores, other bioaerosols and solid particles in the ambient air.

SwisensPoleno Jupiter briefly explained

Designed for discovering the particle microcosm and pioneering autonomous measurement and monitoring of bioaerosols.

 

SwisensPoleno Jupiter and its measurement methods:

  • holographic images
  • light scattering
  • polarisation and
  • UV-induced fluorescence intensity & lifetime

 

The most important specifications at a glance:

  • particle classes within 0.5 – 300µm
  • air sampling volume 40l/min
  • sigma-2 geometry sample inlet
  • integrated particle concentrator

 

Further benefits of SwisensPoleno Jupiter

  • non-invasive measurement method
  • immediate verification of identification results
  • remote access to data
  • fully remote operation, configuration and updates
  • integrated self-cleaning function
  • customized weatherproof housing included
  • no consumables

Further information also in the Swisens FAQs

Breaking new ground with Swisens

Contact Us!
Contact request

*mandatory fields

Scientific Papers

image 30

This paper discusses the use of automatic pollen monitoring devices to enhance real-time pollen tracking, comparing them with traditional Hirst traps to better support allergy sufferers.

 
image 30 (1)

This paper explores the use of real-time measurements and holography to analyze spore particles from various bioaerosol generators, aiming to better understand their physical properties.

 
egu_sparre

In this paper, a new approach using holography, fluorescence, and machine learning is explored for real-time classification of airborne microplastics, aiding environmental monitoring efforts.

 
egu

This paper evaluates the Swisens Poleno system, which uses digital holography for real-time pollen monitoring, enhancing accuracy in allergen tracking for eight different pollen taxa.

 
egu_2

In this paper, the SwisensPoleno Jupiter device's use of holographic imaging and fluorescence is examined to enhance real-time pollen identification, supporting allergy monitoring.

 
egu_2

This paper examines how combining holography and fluorescence in real time enhances the detection of allergenic pollen species using the SwisensPoleno Jupiter.

 

More information about real-time particle measurement
From particle to screen

From particle to screen

How bioaerosol data gets to users This article describes how we convert individual bioaerosol particles into data available on our screen. In general, we

Weiterlesen »
17. May 2022 Patrick Minder.