Search results for "optiset anturit"

showing 2 items of 2 documents

Calibration of in situ chlorophyll fluorometers for organic matter

2019

AbstractOrganic matter (OM) other than living phytoplankton is known to affect fluorometric in situ assessments of chlorophyll in lakes. For this reason, calibrating fluorometric measurements for OM error is important. In this study, chlorophyll (Chl) fluorescence was measured in situ in multiple Finnish lakes using two sondes equipped with Chl fluorometers (ex.470/em.650–700 nm). OM absorbance (A420) was measured from water samples, and one of the two sondes was also equipped with in situ fluorometer for OM (ex.350/em.430 nm). The sonde with Chl and OM fluorometers was also deployed continuously on an automated water quality monitoring station on Lake Konnevesi. For data from multiple lake…

In situveden väri010504 meteorology & atmospheric sciencesFinnish lakesNorthern Europe010501 environmental sciences01 natural scienceschemistry.chemical_compoundFluorometerlakesCentral Finlandautomated monitoringVesijärviFinlandorganic matterwater colourchemistry.chemical_classificationhumic lakes6. Clean waterhumusjärvetEuropeEnvironmental chemistryorgaaninen ainesfluorescenceorgaaninen aineVanajavesiklorofylliChlorophyll aoptical sensorskalibraatiochlorophyll aAquatic SciencejärvetAbsorbancePhytoplanktonOrganic matterSouthern FinlandJyväsjärvivedenväri0105 earth and related environmental sciencesin situfluoresenssivedenlaatucalibrationautomaattinen seurantaoptiset anturitchemistryChlorophyllKonnevesisuomalaiset järvetEnvironmental scienceWater qualityHydrobiologia
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Reflectance Measurement Method Based on Sensor Fusion of Frame-Based Hyperspectral Imager and Time-of-Flight Depth Camera

2022

Hyperspectral imaging and distance data have previously been used in aerial, forestry, agricultural, and medical imaging applications. Extracting meaningful information from a combination of different imaging modalities is difficult, as the image sensor fusion requires knowing the optical properties of the sensors, selecting the right optics and finding the sensors’ mutual reference frame through calibration. In this research we demonstrate a method for fusing data from Fabry–Perot interferometer hyperspectral camera and a Kinect V2 time-of-flight depth sensing camera. We created an experimental application to demonstrate utilizing the depth augmented hyperspectral data to measu…

sensor fusionreflectancekinectreflektanssioptiset ominaisuudetBiochemistryAtomic and Molecular Physics and OpticsAnalytical Chemistrymittausmenetelmäthyperspectraloptiset anturithyperspectral; depth data; kinect; sensor fusion; reflectanceCalibrationElectrical and Electronic Engineeringdepth dataInstrumentationAlgorithms
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