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Nastassia Vilfan
Nastassia Vilfan
Verified email at utwente.nl - Homepage
Title
Cited by
Cited by
Year
Fluspect-B: A model for leaf fluorescence, reflectance and transmittance spectra
N Vilfan, C Van der Tol, O Muller, U Rascher, W Verhoef
Remote Sensing of Environment 186, 596-615, 2016
1722016
Extending Fluspect to simulate xanthophyll driven leaf reflectance dynamics
N Vilfan, C Van der Tol, P Yang, R Wyber, Z Malenovský, SA Robinson, ...
Remote sensing of environment 211, 345-356, 2018
932018
Close range spectral imaging for disease detection in plants using autonomous platforms: a review on recent studies
P Mishra, G Polder, N Vilfan
Current robotics reports 1, 43-48, 2020
692020
The scattering and re-absorption of red and near-infrared chlorophyll fluorescence in the models Fluspect and SCOPE
C van der Tol, N Vilfan, D Dauwe, MP Cendrero-Mateo, P Yang
Remote sensing of environment 232, 111292, 2019
642019
Estimating photosynthetic capacity from leaf reflectance and Chl fluorescence by coupling radiative transfer to a model for photosynthesis
N Vilfan, C van Der Tol, W Verhoef
New Phytologist 223 (1), 487-500, 2019
322019
Modeling reflectance, fluorescence and photosynthesis: development of the scope model
C van der Tol, N Vilfan, P Yang, B Bayat, W Verhoef
IGARSS 2018-2018 IEEE International Geoscience and Remote Sensing Symposium …, 2018
62018
Close Range Spectral Imaging for Disease Detection in Plants Using Autonomous Platforms: a Review on Recent Studies. Current Robotics Reports, 1 (2), 43–48
P Mishra, G Polder, N Vilfan
52020
Coupled WOFOST and SCOPE model for remote sensing-based crop growth simulations
G Ntakos, E Prikaziuk, T ten Den, P Reidsma, N Vilfan, T van der Wal, ...
Computers and Electronics in Agriculture 225, 109238, 2024
22024
From functional-structural tomato model to tomato digital twin
K Streit, NR Vilfan, PHB de Visser, JB Evers
FSPM2023. Book of Abstracts, 2023
12023
Komkommer in de winterlichtkas: Teeltresultaten 2017-2019
F Kempkes, J Janse, N Vilfan, M Raaphorst, M Brunsting
Wageningen Plant Research, 2022
12022
Integrated modeling and observation of the feedback between photosynthesis, leaf optics, active and passive fluorescence, and leaf biochemical and biophysical properties
H Dashti, M Chen, JE Johnson, W Woodgate, N Vilfan, T Magney, ...
AGU Fall Meeting Abstracts 2022, B45J-1842, 2022
2022
Plantenna Demonstrator: novel sensors for monitoring plant health
MC ten Veldhuis, P Steeneken, G Verbiest, S Dutta, E Kaiser, ...
EGU General Assembly Conference Abstracts, EGU22-3811, 2022
2022
Investigating light with quality new sensor
NR Vilfan
In Greenhouses: the international magazine for greenhouse growers 2022 (1 …, 2022
2022
Hyperspectral Line Sensor - A new insight into the vertical profile of light in plant canopies
N Vilfan, K Weerheim
ISHS Light 2021, https://www.ishslight2021.se/, 2021
2021
Agriphotonics
N Vilfan, E Meinen
Wageningen Plant Research, 2021
2021
Lichtkwaliteit onderzoeken met nieuwe sensor
NR Vilfan
Onder Glas, 47-47, 2021
2021
Temperatuurintegratie: verleden, heden en toekomst
A Elings, A Kromwijk, F Plantenga, N Vilfan
Wageningen Plant Research, 2021
2021
Slimmer meten, beter telen
NR Vilfan
Onder Glas 2020 (9), 51-51, 2020
2020
Estimating photosynthetic capacity from leaf reflectance and Chl fluorescence by coupling radiative transfer to a model for photosynthesis (vol 223, pg 487, 2019)
N Vilfan, C van der Tol, W Verhoef
NEW PHYTOLOGIST 225 (5), 2231-2231, 2020
2020
Climate crop growth model: calculating the optimal growing strategy
NR Vilfan
In Greenhouses: the international magazine for greenhouse growers 2020 (1 …, 2020
2020
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