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Journal of Forest Research Volume 12, 2007 - Issue 1
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Original Article

Estimation of GPS positional accuracy under different forest conditions using signal interruption probability

Hisashi HasegawaGraduate School of Agriculture, Kyoto University, Kitashirakawa Oiwake-cho, Sakyo-ku, Kyoto606-8502, JapanCorrespondence[email protected]
&
Tetsuhiko YoshimuraGraduate School of Informatics, Kyoto University, Kyoto, Japan
Pages 1-7 | Received 08 Feb 2005, Accepted 12 Sep 2006, Published online: 13 Feb 2007

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A. Pascual, J. Guerra-Hernández, D. N. Cosenza & V. Sandoval-Altelarrea. (2021) Using enhanced data co-registration to update Spanish National Forest Inventories (NFI) and to reduce training data under LiDAR-assisted inference. International Journal of Remote Sensing 42:1, pages 126-147.
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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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Marius Hauglin, Vegard Lien, Erik Næsset & Terje Gobakken. (2014) Geo-referencing forest field plots by co-registration of terrestrial and airborne laser scanning data. International Journal of Remote Sensing 35:9, pages 3135-3149.
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Alex Souza Bastos & Hisashi Hasegawa. (2013) Behavior of GPS Signal Interruption Probability under Tree Canopies in Different Forest Conditions. European Journal of Remote Sensing 46:1, pages 613-622.
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Articles from other publishers (22)

Marcin Uradziński & Mieczysław Bakuła. (2024) Comparison of L1 and L5 GPS smartphone absolute positioning results. Journal of Applied Geodesy 18:1, pages 51-68.
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Ryer M Becker & Robert F Keefe. (2022) Development of activity recognition models for mechanical fuel treatments using consumer-grade GNSS-RF devices and lidar. Forestry: An International Journal of Forest Research 95:3, pages 437-449.
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Thomas Purfürst. (2022) Evaluation of Static Autonomous GNSS Positioning Accuracy Using Single-, Dual-, and Tri-Frequency Smartphones in Forest Canopy Environments. Sensors 22:3, pages 1289.
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Tong Feng, Shilin Chen, Zhongke Feng, Chaoyong Shen & Yi Tian. (2021) Effects of Canopy and Multi-Epoch Observations on Single-Point Positioning Errors of a GNSS in Coniferous and Broadleaved Forests. Remote Sensing 13:12, pages 2325.
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Ivan Kotlov & Tatiana Chernenkova. (2020) Modeling of Forest Communities’ Spatial Structure at the Regional Level through Remote Sensing and Field Sampling: Constraints and Solutions. Forests 11:10, pages 1088.
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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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Pascual. (2019) Using Tree Detection Based on Airborne Laser Scanning to Improve Forest Inventory Considering Edge Effects and the Co-Registration Factor. Remote Sensing 11:22, pages 2675.
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Adrián Pascual, Felipe Bravo & Cristóbal Ordoñez. (2019) Assessing the robustness of variable selection methods when accounting for co-registration errors in the estimation of forest biophysical and ecological attributes. Ecological Modelling 403, pages 11-19.
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Robert F. Keefe, Ann M. Wempe, Ryer M. Becker, Eloise G. Zimbelman, Emily S. Nagler, Sophie L. Gilbert & Christopher C. Caudill. (2019) Positioning Methods and the Use of Location and Activity Data in Forests. Forests 10:5, pages 458.
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Karolina Krzykowska & Michał Krzykowski. (2019) Forecasting Parameters of Satellite Navigation Signal through Artificial Neural Networks for the Purpose of Civil Aviation. International Journal of Aerospace Engineering 2019, pages 1-11.
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Masayuki Matsuoka, Eiji Onodera, Toshitsugu Kawakami, Kazutaka Takano & Yuzuru Kimura. (2018) Approximate Standard Deviation for Estimating the Accuracy of the GNSS-derived Plot Area.GNSS測量で得られた面積の精度評価指標. Journal of the Japanese Forest Society 100:6, pages 193-200.
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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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R. Cuneyt Erenoglu. (2016) Reliability of GPS/GNSS-based positioning in a forestry environment. Journal of Forestry Research 28:3, pages 605-614.
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Ryer Becker, Robert Keefe & Nathaniel Anderson. (2017) Use of Real‐Time GNSS‐RF Data to Characterize the Swing Movements of Forestry Equipment. Forests 8:2, pages 44.
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Marius Hauglin, Terje Gobakken, Rasmus Astrup, Liviu Ene & Erik Næsset. (2014) Estimating Single-Tree Crown Biomass of Norway Spruce by Airborne Laser Scanning: A Comparison of Methods with and without the Use of Terrestrial Laser Scanning to Obtain the Ground Reference Data. Forests 5:3, pages 384-403.
Crossref
Rubén Valbuena. 2014. Forestry Applications of Airborne Laser Scanning. Forestry Applications of Airborne Laser Scanning 63 88 .
A. F. Militino, M. D. Ugarte, J. Iribas & E. Lizarraga-Garcia. (2013) Mapping GPS positional errors using spatial linear mixed models. Journal of Geodesy 87:7, pages 675-685.
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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.
Crossref
C. Ordóñez Galán, J.R. Rodríguez-Pérez, J. Martínez Torres & P.J. García Nieto. (2011) Analysis of the influence of forest environments on the accuracy of GPS measurements by using genetic algorithms. Mathematical and Computer Modelling 54:7-8, pages 1829-1834.
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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.
Crossref
Fumiaki Kitahara, Nobuya Mizoue, Tsuyoshi Kajisa, Takuhiko Murakami & Shigejiro Yoshida. (2010) Positional Accuracy of National Forest Inventory Plots in JapanPositional Accuracy of National Forest Inventory Plots in Japan. Journal of Forest Planning 15:2, pages 73-79.
Crossref
Tomás Soler. (2007) GPS/GNSS current bibliography. GPS Solutions 11:3, pages 223-226.
Crossref

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