Citations (46)
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Leo Gallus Bont, Laura Ramstein, Fritz Frutig & Janine Schweier. (2022) Tensile forces and deflections on skylines of cable yarders: comparison of measurements with close-to-catenary predictions. International Journal of Forest Engineering 33:3, pages 195-216.
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Ronny Blum, Rainer Bischof, Udo Hans Sauter & Joerg Foeller. (2016) Tests of reception of the combination of GPS and GLONASS signals under and above forest canopy in the Black Forest, Germany, using choke ring antennas. International Journal of Forest Engineering 27:1, pages 2-14.
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Erik Næsset. (2011) Estimating above-ground biomass in young forests with airborne laser scanning. International Journal of Remote Sensing 32:2, pages 473-501.
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Hisashi Hasegawa & Tetsuhiko Yoshimura. (2007) Estimation of GPS positional accuracy under different forest conditions using signal interruption probability. Journal of Forest Research 12:1, pages 1-7.
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Erik Næsset, Terje Gobakken, Johan Holmgren, Hannu Hyyppä, Juha Hyyppä, Matti Maltamo, Mats Nilsson, Håkan Olsson, Åsa Persson & Ulf Söderman. (2004) Laser scanning of forest resources: the nordic experience. Scandinavian Journal of Forest Research 19:6, pages 482-499.
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Articles from other publishers (39)
Jesse Muhojoki, Teemu Hakala, Antero Kukko, Harri Kaartinen & Juha Hyyppä. (2024) Comparing positioning accuracy of mobile laser scanning systems under a forest canopy. Science of Remote Sensing 9, pages 100121.
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Joseph P. Hupy & Aishwarya Chandraskaran. 2024. The Scrub Vegetation As Dynamic States of the Forests - Methodologies for Their Learning and Research [Working Title]. The Scrub Vegetation As Dynamic States of the Forests - Methodologies for Their Learning and Research [Working Title].
Elia Scudiero, Dennis L. Corwin, Paul T. Markley, Alireza Pourreza, Tait Rounsaville, Theodor Bughici & Todd H. Skaggs. (2024) A system for concurrent on-the-go soil apparent electrical conductivity and gamma-ray sensing in micro-irrigated orchards. Soil and Tillage Research 235, pages 105899.
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Eva Gril, Marianne Laslier, Emilie Gallet-Moron, Sylvie Durrieu, Fabien Spicher, Vincent Le Roux, Boris Brasseur, Stef Haesen, Koenraad Van Meerbeek, Guillaume Decocq, Ronan Marrec & Jonathan Lenoir. (2023) Using airborne LiDAR to map forest microclimate temperature buffering or amplification. Remote Sensing of Environment 298, pages 113820.
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Kruno Lepoglavec, Olja Papeš, Valentina Lovrić, Andrea Raspudić & Hrvoje Nevečerel. (2023) Accessibility of Urban Forests and Parks for People with Disabilities in Wheelchairs, Considering the Surface and Longitudinal Slope of the Trails. Sustainability 15:10, pages 7741.
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Kruno Lepoglavec, Marijan Šušnjar, Zdravko Pandur, Marin Bačić, Hrvoje Kopseak & Hrvoje Nevečerel. (2023) Correct Calculation of the Existing Longitudinal Profile of a Forest/Skid Road Using GNSS and a UAV Device. Forests 14:4, pages 751.
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Eugene Lopatin, Kari Väätäinen, Antero Kukko, Harri Kaartinen, Juha Hyyppä, Eero Holmström, Lauri Sikanen, Yrjö Nuutinen & Johanna Routa. (2023) Unlocking Digitalization in Forest Operations with Viewshed Analysis to Improve GNSS Positioning Accuracy. Forests 14:4, pages 689.
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Simon Janssen, Hans Pretzsch, Anton Bürgi, Laura Ramstein & Leo Gallus Bont. (2023) Improving the accuracy of timber volume and basal area prediction in heterogeneously structured and mixed forests by automated co-registration of forest inventory plots and remote sensing data. Forest Ecology and Management 532, pages 120795.
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Petru Tudor Stăncioiu, Ioan Dutcă, Sergiu Constantin Florea & Marius Paraschiv. (2022) Measuring Distances and Areas under Forest Canopy Conditions—A Comparison of Handheld Mobile Laser Scanner and Handheld Global Navigation Satellite System. Forests 13:11, pages 1893.
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Jiefan Huang, Yingyu Guo, Xuan Li, Ning Zhang, Jiang Jiang & Guangyu Wang. (2022) Evaluation of Positioning Accuracy of Smartphones under Different Canopy Openness. Forests 13:10, pages 1591.
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Omid Abdi, Jori Uusitalo, Julius Pietarinen & Antti Lajunen. (2022) Evaluation of Forest Features Determining GNSS Positioning Accuracy of a Novel Low-Cost, Mobile RTK System Using LiDAR and TreeNet. Remote Sensing 14:12, pages 2856.
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Michael Starke, Anton Kunneke & Martin Ziesak. (2021) Monitoring of Carriageway Cross Section Profiles on Forest Roads: Assessment of an Ultrasound Data Based Road Scanner with TLS Data Reference. Forests 12:9, pages 1191.
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Vít Kašpar, Lucia Hederová, Martin Macek, Jana Müllerová, Jiří Prošek, Peter Surový, Jan Wild & Martin Kopecký. (2021) Temperature buffering in temperate forests: Comparing microclimate models based on ground measurements with active and passive remote sensing. Remote Sensing of Environment 263, pages 112522.
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Linyuan Li, Xihan Mu, Maxime Soma, Peng Wan, Jianbo Qi, Ronghai Hu, Wuming Zhang, Yiyi Tong & Guangjian Yan. (2021) An Iterative-Mode Scan Design of Terrestrial Laser Scanning in Forests for Minimizing Occlusion Effects. IEEE Transactions on Geoscience and Remote Sensing 59:4, pages 3547-3566.
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Adrián Pascual, Juan Guerra-Hernández, Diogo N. Cosenza & Vicente Sandoval. (2020) The Role of Improved Ground Positioning and Forest Structural Complexity When Performing Forest Inventory Using Airborne Laser Scanning. Remote Sensing 12:3, pages 413.
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Rodolfo Picchio, Andrea Rosario Proto, Vincenzo Civitarese, Nicolò Di Marzio & Francesco Latterini. (2019) Recent Contributions of Some Fields of the Electronics in Development of Forest Operations Technologies. Electronics 8:12, pages 1465.
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Maryem Fadili, Jean-Pierre Renaud, Jerome Bock & Cédric Vega. (2019) RegisTree: a registration algorithm to enhance forest inventory plot georeferencing. Annals of Forest Science 76:2.
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Adrián Pascual, Timo Pukkala & Sergio de-Miguel. (2018) Effects of Plot Positioning Errors on the Optimality of Harvest Prescriptions When Spatial Forest Planning Relies on ALS Data. Forests 9:7, pages 371.
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M. Kalacska, G.L. Chmura, O. Lucanus, D. Bérubé & J.P. Arroyo-Mora. (2017) Structure from motion will revolutionize analyses of tidal wetland landscapes. Remote Sensing of Environment 199, pages 14-24.
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Petr Hrůza, Tomáš Mikita & Přemysl Janata. (2016) Monitoring of Forest Hauling Roads Wearing Course Damage Using Unmanned Aerial Systems. Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis 64:5, pages 1537-1546.
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Z. Ucar, P. Bettinger, S. Weaver, K. L. Merry & K. Faw. (2014) Dynamic accuracy of recreation-grade GPS receivers in oak-hickory forests. Forestry 87:4, pages 504-511.
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Jean-Matthieu Monnet & Éric Mermin. (2014) Cross-Correlation of Diameter Measures for the Co-Registration of Forest Inventory Plots with Airborne Laser Scanning Data. Forests 5:9, pages 2307-2326.
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C. OrdoñezJ. MartínezJ. R. Rodríguez-PérezA. Reyes. (2011) Detection of Outliers in GPS Measurements by Using Functional-Data Analysis. Journal of Surveying Engineering 137:4, pages 150-155.
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Celestino OrdóñezJosé R. Rodríguez-PérezJuan J. MoreiraJ. M. MatíasEnoc Sanz-Ablanedo. (2011) Machine Learning Techniques Applied to the Assessment of GPS Accuracy under the Forest Canopy. Journal of Surveying Engineering 137:4, pages 140-149.
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Daniel C. Dauwalter & Frank J. Rahel. (2010) Patch size and shape influence the accuracy of mapping small habitat patches with a global positioning system. Environmental Monitoring and Assessment 179:1-4, pages 123-135.
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F. MauroR. ValbuenaJ. A. ManzaneraA. García-Abril. (2011) Influence of Global Navigation Satellite System errors in positioning inventory plots for tree-height distribution studiesThis article is one of a selection of papers from Extending Forest Inventory and Monitoring over Space and Time.. Canadian Journal of Forest Research 41:1, pages 11-23.
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Terje GobakkenErik Næsset. (2009) Assessing effects of positioning errors and sample plot size on biophysical stand properties derived from airborne laser scanner data. Canadian Journal of Forest Research 39:5, pages 1036-1052.
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Erik Næsset & Jon Glenn Gjevestad. (2008) Performance of GPS Precise Point Positioning Under Conifer Forest Canopies. Photogrammetric Engineering & Remote Sensing 74:5, pages 661-668.
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Terje GobakkenErik Næsset. (2008) Assessing effects of laser point density, ground sampling intensity, and field sample plot size on biophysical stand properties derived from airborne laser scanner data. Canadian Journal of Forest Research 38:5, pages 1095-1109.
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José R. Rodríguez-PérezM. F. ÁlvarezEnoc Sanz-Ablanedo. (2007) Assessment of Low-Cost GPS Receiver Accuracy and Precision in Forest Environments. Journal of Surveying Engineering 133:4, pages 159-167.
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Nicholas R. Goodwin, Nicholas C. Coops & Darius S. Culvenor. (2006) Assessment of forest structure with airborne LiDAR and the effects of platform altitude. Remote Sensing of Environment 103:2, pages 140-152.
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Christian Piedallu & Jean-Claude Gégout. (2005) Effects of Forest Environment and Survey Protocol on GPS Accuracy. Photogrammetric Engineering & Remote Sensing 71:9, pages 1071-1078.
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Simon Janssen, Hans Pretzsch, Anton Bürgi, Laura Ramstein & Leo Gallus Bont. (2022) Improving the Accuracy of Timber Volume and Basal Area Prediction in Heterogeneously Structured and Mixed Forests by Automated Co-Registration of Forest Inventory Plots and Remote Sensing Data. SSRN Electronic Journal.
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