Citations (29)
Keep up to date with the latest research on this topic with citation updates for this article.
Read on this site (7)
Nicola Montaldo, Andrea Gaspa & Roberto Corona. (2023) Assimilation of NDVI data in a land surface – Vegetation model for leaf area index predictions in a tree-grass ecosystem. International Journal of Digital Earth 16:1, pages 3810-3837.
Read now
Read now
Noryusdiana Mohamad Yusoff, Farrah Melissa Muharam & Siti Khairunniza-Bejo. (2017) Towards the use of remote-sensing data for monitoring of abandoned oil palm lands in Malaysia: a semi-automatic approach. International Journal of Remote Sensing 38:2, pages 432-449.
Read now
Read now
Karen Schleeweis, Samuel N. Goward, Chengquan Huang, John L. Dwyer, Jennifer L. Dungan, Mary A. Lindsey, Andrew Michaelis, Khaldoun Rishmawi & Jeffery G. Masek. (2016) Selection and quality assessment of Landsat data for the North American forest dynamics forest history maps of the US. International Journal of Digital Earth 9:10, pages 963-980.
Read now
Read now
Shin Nagai, Reiichiro Ishii, Affendi Bin Suhaili, Hideki Kobayashi, Masayuki Matsuoka, Tomoaki Ichie, Takeshi Motohka, Joseph Jawa Kendawang & Rikie Suzuki. (2014) Usability of noise-free daily satellite-observed green–red vegetation index values for monitoring ecosystem changes in Borneo. International Journal of Remote Sensing 35:23, pages 7910-7926.
Read now
Read now
JonathanB. Thayn. (2012) Assessing vegetation cover on the date of satellite-derived start of spring. Remote Sensing Letters 3:8, pages 721-728.
Read now
Read now
Miguel Alfonso Ortega-Huerta, Oliver Komar, KevinP. Price & HugoJ. Ventura. (2012) Mapping coffee plantations with Landsat imagery: an example from El Salvador. International Journal of Remote Sensing 33:1, pages 220-242.
Read now
Read now
Shin Nagai, TakuM. Saitoh, Rikie Suzuki, Kenlo
Nishida Nasahara, Woo-Kyun Lee, Yowhan Son & Hiroyuki Muraoka. (2011) The necessity and availability of noise-free daily satellite-observed NDVI during rapid phenological changes in terrestrial ecosystems in East Asia. Forest Science and Technology 7:4, pages 174-183.
Read now
Read now
Articles from other publishers (22)
Lindsey L. Sloat, Marena Lin, Ethan E. Butler, Dave Johnson, N. Michele Holbrook, Peter J. Huybers, Jung-Eun Lee & Nathaniel D. Mueller. (2021) Evaluating the benefits of chlorophyll fluorescence for in-season crop productivity forecasting. Remote Sensing of Environment 260, pages 112478.
Crossref
Crossref
Linglin Zeng, Brian D. Wardlow, Shun Hu, Xiang Zhang, Guoqing Zhou, Guozhang Peng, Daxiang Xiang, Rui Wang, Ran Meng & Weixiong Wu. (2021) A Novel Strategy to Reconstruct NDVI Time-Series with High Temporal Resolution from MODIS Multi-Temporal Composite Products. Remote Sensing 13:7, pages 1397.
Crossref
Crossref
Alison Donnelly, Rong Yu, Lingling Liu, Jonathan M. Hanes, Liang Liang, Mark D. Schwartz & Ankur R. Desai. (2019) Comparing in-situ leaf observations in early spring with flux tower CO2 exchange, MODIS EVI and modeled LAI in a northern mixed forest. Agricultural and Forest Meteorology 278, pages 107673.
Crossref
Crossref
Cong Wang & Kai Zhu. (2019) Misestimation of Growing Season Length Due to Inaccurate Construction of Satellite Vegetation Index Time Series. IEEE Geoscience and Remote Sensing Letters 16:8, pages 1185-1189.
Crossref
Crossref
Xiaoliang Lu, Zhunqiao Liu, Yuyu Zhou, Yaling Liu, Shuqing An & Jianwu Tang. (2018) Comparison of Phenology Estimated from Reflectance-Based Indices and Solar-Induced Chlorophyll Fluorescence (SIF) Observations in a Temperate Forest Using GPP-Based Phenology as the Standard. Remote Sensing 10:6, pages 932.
Crossref
Crossref
S. Testa, K. Soudani, L. Boschetti & E. Borgogno Mondino. (2018) MODIS-derived EVI, NDVI and WDRVI time series to estimate phenological metrics in French deciduous forests. International Journal of Applied Earth Observation and Geoinformation 64, pages 132-144.
Crossref
Crossref
Erik Hab, David Frantz, Sebastian Mader & Joachim Hill. (2017) Global Analysis of the Differences Between the MODIS Vegetation Index Compositing Date and the Actual Acquisition Date. IEEE Geoscience and Remote Sensing Letters 14:6, pages 866-870.
Crossref
Crossref
Anton Vrieling, Michele Meroni, Andrew G. Mude, Sommarat Chantarat, Caroline C. Ummenhofer & Kees (C.A.J.M.) de Bie. (2016) Early assessment of seasonal forage availability for mitigating the impact of drought on East African pastoralists. Remote Sensing of Environment 174, pages 44-55.
Crossref
Crossref
Hwa-Seon Lee & Kyu-Sung Lee. (2016) Improvement of Temporal Resolution for Land Surface Monitoring by the Geostationary Ocean Color Imager Data. Korean Journal of Remote Sensing 32:1, pages 25-38.
Crossref
Crossref
Victor Maus, Gilberto Camara, Ricardo Cartaxo, Fernando M. Ramos, Alber Sanchez & Gilberto Q. Ribeiro. (2015) Open boundary dynamic time warping for satellite image time series classification. Open boundary dynamic time warping for satellite image time series classification.
Jonathan M. Hanes, Liang Liang & Jeffrey T. Morisette. 2014. Biophysical Applications of Satellite Remote Sensing. Biophysical Applications of Satellite Remote Sensing
99
125
.
Jose A. Sobrino, Yves Julien & Guillem Soria. (2013) Phenology Estimation From Meteosat Second Generation Data. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 6:3, pages 1653-1659.
Crossref
Crossref
Marco Gianinetto. (2012) Automatic Co‐Registration of Satellite Time Series. The Photogrammetric Record 27:140, pages 462-470.
Crossref
Crossref
Marcos Adami, Bernardo Friedrich Theodor Rudorff, Ramon Morais Freitas, Daniel Alves Aguiar, Luciana Miura Sugawara & Marcio Pupin Mello. (2012) Remote Sensing Time Series to Evaluate Direct Land Use Change of Recent Expanded Sugarcane Crop in Brazil. Sustainability 4:4, pages 574-585.
Crossref
Crossref
Brian O’Connor, Edward Dwyer, Fiona Cawkwell & Lars Eklundh. (2012) Spatio-temporal patterns in vegetation start of season across the island of Ireland using the MERIS Global Vegetation Index. ISPRS Journal of Photogrammetry and Remote Sensing 68, pages 79-94.
Crossref
Crossref
Hu Zhao, Zhengwei Yang, Liping Di & Zhiyuan Pei. 2012. Computer and Computing Technologies in Agriculture V. Computer and Computing Technologies in Agriculture V
135
150
.
Angela Kross, Richard Fernandes, Jonathan Seaquist & Elisabeth Beaubien. (2011) The effect of the temporal resolution of NDVI data on season onset dates and trends across Canadian broadleaf forests. Remote Sensing of Environment 115:6, pages 1564-1575.
Crossref
Crossref
Darren Pouliot, Rasim Latifovic, Richard Fernandes & Ian Olthof. (2011) Evaluation of compositing period and AVHRR and MERIS combination for improvement of spring phenology detection in deciduous forests. Remote Sensing of Environment 115:1, pages 158-166.
Crossref
Crossref
ERIC A. GRAHAM, ERIN C. RIORDAN, ERIC M. YUEN, DEBORAH ESTRIN & PHILIP W. RUNDEL. (2010) Public Internet‐connected cameras used as a cross‐continental ground‐based plant phenology monitoring system. Global Change Biology 16:11, pages 3014-3023.
Crossref
Crossref
Erin C. Riordan, Eric A. Graham, Eric M. Yuen, Deborah Estrin & Philip W. Rundel. (2010) Utilizing public Internet-connected cameras for a cross- continental plant phenology monitoring system. Utilizing public Internet-connected cameras for a cross- continental plant phenology monitoring system.
Navdeep S. Sekhon, Quazi K. Hassan & Robert W. Sleep. (2010) Evaluating Potential of MODIS-based Indices in Determining “Snow Gone” Stage over Forest-dominant Regions. Remote Sensing 2:5, pages 1348-1363.
Crossref
Crossref
Hu Zhao, Zhengwei Yang, Liping Di, Lin Li & Haihong Zhu. (2009) Crop phenology date estimation based on NDVI derived from the reconstructed MODIS daily surface reflectance data. Crop phenology date estimation based on NDVI derived from the reconstructed MODIS daily surface reflectance data.