Specim, Spectral Imaging Ltd is a European technology firm headquartered in Oulu, Finland. Specim manufactures and sells imaging spectrographs, hyperspectral cameras and systems. Specim's airborne AISA hyperspectral cameras have been utilized for example in monitoring the environmental effects of major industrial catastrophes such as Deepwater Horizon oil spill and Red mud spill.[2][3]

Specim, Spectral Imaging Ltd Oy
Company typeLimited company, Osakeyhtiö
IndustryHyperspectral imaging[1]
FoundedJune 7, 1995 [1]
Headquarters
Oulu, Finland [1]
Number of locations
Sales offices in the USA, China, Germany, and Spain.
Area served
Worldwide
Key people
Tapio Kallonen CEO
ProductsImaging spectrographs, spectral cameras and systems
Number of employees
Circa 90 (2024)
ParentKonica Minolta Group
Websitehttps://www.specim.com

In 2010, Specim was widely credited for its Thermal Infrared Hyperspectral Cameras, including a position as a Prism Awards for Photonics Innovation finalist.[4] The credited Specim Owl is world's first Thermal Hyperspectral Camera that can efficiently be used for outdoor surveillance and UAV applications without an external light source such as the Sun or the Moon.[5]

In 2013, together with Germany's Forschungszentrum Jülich research centre, Specim developed and thoroughly tested the novel Hyplant airborne hyperspectral sensor. This was the first airborne sensor to map the fluorescence over large areas. Since then it has been used to map various types of vegetation all over Europe and also in the USA. This project is one step in assessing feasibility of possible new ESA satellite instrument that could provide global maps of vegetation fluorescence called the Fluorescence Explorer (FLEX).[6] [7]

Specim FX series cameras.

In 2016, Specim announced the launch of new camera series, the Specim FX series, designed for industrial needs. Specim FX10 and FX17 were the first in a series of small, fast and flexible FX cameras for industrial applications e.g. food processing, recycling and pharmaceuticals. [8]

In 2017, Specim revealed the World’s first mobile hyperspectral camera, Specim IQ, which allows you to make hyperspectral measurements and analysis anywhere. Specim IQ is a full hyperspectral imaging system that combines a spectral camera, a scanner, a computer, a frame grabber, data acquisition and processing software, data storage, a display, a keyboard, and power supplies in one mobile device. Since its launch, the Specim IQ has been used in various on-site studies in phenotyping and archaeology, ranging from analysing rock paintings to studying cultural heritage inside a Pharaoh's tomb and plant phenotyping and disease analysis. [9][10][11][12]

In the spring of 2020, Specim’s investors and founders felt the company had reached a suitable point of maturity and opportunity, complemented by external interest, and initiated a competitive trade sale process resulting in offers from several global players. Of these, the Board determined Konica Minolta to be the perfect home for Specim’s technology, customers and employees. In November 2020 Konica Minolta acquired Specim, Spectral Imaging Ltd. to be part of their sensing business. After the acquisition Specim will maintain its existing offices and facilities in Oulu.[13]

References

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  1. ^ a b c , Kauppalehti company registry.
  2. ^ Kaleva: Oulusta lähtee mittalaitteita ympäri maailmaa Archived 2010-12-06 at the Wayback Machine.
  3. ^ Mikkola, A, (Nov 16, 2010), Kaleva, Näkyvästä näkyvää.
  4. ^ The Prism Awards for Photonics. The 2010 Finalists Archived 2013-12-09 at the Wayback Machine
  5. ^ Frost&Sullivan, Technical Insights, Aerospace&Defence (Feb 2011): World First Thermal Hyperspectral Camera for Unmanned Aerial Vehicles.
  6. ^ ESA (2014): Glowing plants a sign of health
  7. ^ ESA (2015): Plant power from above
  8. ^ Specim, Spectral Imaging Oy Ltd. (2016-06-17). "Specim announces new camera series for industrial needs". Specim. Retrieved 2024-10-31.
  9. ^ HS, Timo Paukku (2017-12-01). "Hyperspektrikameralla voi tunnistaa taideväärennöksiä, kartoittaa öljytuhoja ja jopa etsiä merkkejä syövästä – Suomalaisten kehittämä kannettava versio voi mullistaa tieteentekoa". Helsingin Sanomat (in Finnish). Retrieved 2024-10-31.
  10. ^ "From RGB camera to Hyperspectral imaging: a breakthrough in Neolithic Rock Painting analysis". ResearchGate.
  11. ^ Behmann, Jan; Acebron, Kelvin; Emin, Dzhaner; Bennertz, Simon; Matsubara, Shizue; Thomas, Stefan; Bohnenkamp, David; Kuska, Matheus T.; Jussila, Jouni; Salo, Harri; Mahlein, Anne-Katrin; Rascher, Uwe (February 2018). "Specim IQ: Evaluation of a New, Miniaturized Handheld Hyperspectral Camera and Its Application for Plant Phenotyping and Disease Detection". Sensors. 18 (2): 441. Bibcode:2018Senso..18..441B. doi:10.3390/s18020441. ISSN 1424-8220. PMC 5855187. PMID 29393921.
  12. ^ "The first half of the season is gone! Progress, changes, and strategies – MKTP". Retrieved 2024-10-31.
  13. ^ Specim (2020-11-27). "Konica Minolta signs definitive agreement to acquire Specim". Specim. Retrieved 2024-10-31.