Folgen
Nikos Tsoulias
Nikos Tsoulias
Geisenheim University, Department of Agricultural Engineering
Bestätigte E-Mail-Adresse bei hs-gm.de - Startseite
Titel
Zitiert von
Zitiert von
Jahr
Apple shape detection based on geometric and radiometric features using a LiDAR laser scanner
N Tsoulias, DS Paraforos, G Xanthopoulos, M Zude-Sasse
Remote Sensing 12 (15), 2481, 2020
762020
Estimating canopy parameters based on the stem position in apple trees using a 2D lidar
N Tsoulias, DS Paraforos, S Fountas, M Zude-Sasse
Agronomy 9 (11), 740, 2019
382019
Fruit sizing using AI: A review of methods and challenges
JC Miranda, J Gené-Mola, M Zude-Sasse, N Tsoulias, A Escolà, J Arnó, ...
Postharvest Biology and Technology 206, 112587, 2023
372023
In-situ fruit analysis by means of LiDAR 3D point cloud of normalized difference vegetation index (NDVI)
N Tsoulias, KK Saha, M Zude-Sasse
Computers and Electronics in Agriculture 205, 107611, 2023
242023
Estimation of vegetative growth in strawberry plants using mobile LiDAR laser scanner
KK Saha, N Tsoulias, C Weltzien, M Zude-Sasse
Horticulturae 8 (2), 90, 2022
202022
Using data on soil ECa, soil water properties, and response of tree root system for spatial water balancing in an apple orchard
N Tsoulias, R Gebbers, M Zude-Sasse
Precision Agriculture, 522–548, 2019
192019
An approach for monitoring temperature on fruit surface by means of thermal point cloud
N Tsoulias, S Jörissen, A Nüchter
MethodsX 9, 101712, 2022
142022
Effects of soil ECa and LiDAR-derived leaf area on yield and fruit quality in apple production
N Tsoulias, G Xanthopoulos, S Fountas, M Zude-Sasse
Biosystems Engineering 223, 182-199, 2022
132022
Calculating the water deficit spatially using LiDAR laser scanner in an apple orchard
N Tsoulias, DS Paraforos, S Fountas, M Zude-Sasse
Precision agriculture'19, 115-121, 2019
132019
Sensing in Precision Horticulture
M Zude-Sasse, E Akbari, N Tsoulias, V Psiroukis, S Fountas, R Ehsani
Sensing Approaches for Precision Agriculture, 221-251, 2021
122021
Using LiDAR technique and modified Community Land Model for calculating water interception of cherry tree canopy
H Mostafa, KK Saha, N Tsoulias, M Zude-Sasse
Agricultural Water Management 272, 107816, 2022
112022
Carbon consumption of developing fruit and the fruit bearing capacity of individual RoHo 3615 and Pinova apple trees
M Penzel, AN Lakso, N Tsoulias, M Zude-Sasse
International Agrophysics 34 (4), 2020
112020
Hyper-and Multi-spectral Imaging Technologies
N Tsoulias, M Zhao, DS Paraforos, D Argyropoulos
Encyclopedia of Smart Agriculture Technologies, 1-11, 2023
92023
Modelling the tree-individual fruit bearing capacity aimed at optimising fruit quality of Malus x domestica BORKH.'Gala'
M Penzel, WB Herppich, C Weltzien, N Tsoulias, M Zude-Sasse
Frontiers in Plant Science 12, 1323, 2021
82021
Estimation of leaf area of sweet cherry trees trained as spindle using ground based 2D mobile LiDAR system
KK Saha, N Tsoulias, M Zude-Sasse
IV International Symposium on Horticulture in Europe-SHE2021 1327, 429-436, 2021
72021
In-situ detection of apple fruit using a 2D LiDAR laser scanner
N Tsoulias, G Xanthopoulos, S Fountas, M Zude
2020 IEEE International Workshop on Metrology for Agriculture and Forestry …, 2020
62020
Annual shoot growth on apple trees with variable canopy leaf area and crop load in response to LiDAR scanned leaf area to fruit ratio
M Penzel, N Tsoulias
International Agrophysics 36 (3), 173-180, 2022
52022
Estimating the canopy volume using a 2D LiDAR in apple trees
N Tsoulias, S Fountas, M Zude-Sasse
IV International Symposium on Horticulture in Europe-SHE2021 1327, 437-444, 2021
52021
Apple shape detection based on geometric and radiometric features using a LiDAR laser scanner. Remote Sens. 12 (15), 2481
N Tsoulias, DS Paraforos, G Xanthopoulos, M Zude-Sasse
52020
Carbon consumption of developing fruit and individual tree’s fruit bearing capacity of ‘RoHo 3615’and ‘Pinova’apple
M Penzel, AN Lakso, N Tsoulias, M Zude-Sasse
International AgroPhysics 34, 409-423, 2020
52020
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20