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International Journal of Remote Sensing Volume 35, 2014 - Issue 7: SPOT-VEGETATION – Fifteen years of success: What’s next?
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Guest Editorial

SPOT-VEGETATION – 15 years of success: what’s next?

Matt AitkenheadThe James Hutton Institute, Aberdeen, UKCorrespondence[email protected]
Pages 2397-2401 | Published online: 27 Mar 2014

References

  • Atzberger, C., A. R. Formaggio, Y. E. Shimabukuro, T. Udelhoven, M. Mattiuzzi, G. A. Sanchez, and E. Arai. 2014. “Obtaining Crop-Specific Time Profiles of NDVI: The Use of Unmixing Approaches for Serving the Continuity between SPOT-VGT and Future PROBA-V Time Series.” International Journal of Remote Sensing 35: 2615–2638.
  • Bartalev, S. S., O. Kissiyar, F. Achard, S. A. Bartalev, and D. Simonetti. 2014. “Assessment of Forest Cover of Russia by Combining a Wall-to-Wall Coarse-Resolution Land-cover Map With a Sample of 30 m Resolution Forest Maps.” International Journal of Remote Sensing 35: 2671–2692.
  • Cayrol, P., A. Chehbouni, L. Kergoat, G. Dedieu, P. Mordelet, and Y. Nouvellon. 2000. “Grassland Modeling and Monitoring with SPOT-4 VEGETATION Instrument During the 1997–1999 SALSA Experiment.” Agricultural and Forest Meteorology 105 (1–3): 91–115.
  • Deronde, B., W. Debruyn, E. Gontier, E. Goor, T. Jacobs, S. Verbeiren, and J. Vereecken. 2014. “15 Years of Processing and Dissemination of SPOT-VEGETATION Products.” International Journal of Remote Sensing 35: 2402–2420.
  • Dierckx, W., S. Sterckx, I. Benhadj, S. Livens, G. Duhoux, T. Van Achteren, M. Francois, K. Mellab, and G. Saint. 2014. “PROBA-V Mission for Global Vegetation Monitoring: Standard Products and Image Quality.” International Journal of Remote Sensing 35: 2589–2614.
  • Durpaire, J. P., T. Gentet, T. Phulpin, and M. Arnaud. 1995. “Spot-4 Vegetation Instrument: Vegetation Monitoring on a Global Scale.” Acta Astronautica 35 (7): 453–459. doi:10.1016/0094-5765(94)00279-U.
  • Francois, M., S. Santandrea, K. Mellab, and D. Vrancken. 2014. “The PROBA-V Mission: The Space Segment.” International Journal of Remote Sensing 35: 2548–2564.
  • Ghilain, N., F. De Roo, and F. Gellens-Meulenberghs. 2014. “Evapotranspiration Monitoring with Meteosat Second Generation Satellites: Improvement Opportunities from Moderate Spatial Resolution Satellites for Vegetation.” International Journal of Remote Sensing 35: 2654–2670.
  • Gimona, A., L. Poggio, I. Aalders, and M. Aitkenhead. 2014. “The effect of Image Compression on Synthetic PROBA-V Images.” International Journal of Remote Sensing 35: 2639–2653.
  • Henry, P. 1999. “The VEGETATION System: A Global Monitoring System on-Board SPOT 4. Euro-Asian Space Week – Co-Operation in Space: Where East & West Finally Meet.” ESA Special Publications 430: 233–239.
  • Henry, P., T. Gentet, M. Arnaud, and C. Andersson. 1996. “The Vegetation System: A Global Earth Monitoring from SPOT Satellites.” Acta Astronautica 38 (4–8): 487–492.
  • Horion, S., R. Fensholt, T. Tagesson, and A. Ehammer. 2014. “Using Earth Observation-based Dry Season NDVI Trends for Assessment of Changes in Tree Cover in the Sahel.” International Journal of Remote Sensing 35: 2493–2515.
  • Hou, X. H., Z. Niu, S. A. Gao, and N. Huang. 2013. “Monitoring Vegetation Phenology in Farming-Pastoral Zone Using SPOT-VGT NDVI Data.” Transactions of the Chinese Society of Agricultural Engineering 29 (1): 142–150.
  • Li, Y., N. Jiang, H. Shi, H. Lu, C. Y. Xue, and N. Wang. 2010. “Crops distribution in large scale based on SPOT/VGT NDVI.” Transactions of the Chinese Society of Agricultural Engineering 26 (12): 242–247.
  • Liu, S., T. Wang, J. Guo, J. Qu, and P. An. 2010. “Vegetation Change Based on SPOT-VGT Data from 1998 to 2007, Northern China.” Environmental Earth Sciences 60 (7): 1459–1466. doi:10.1007/s12665-009-0281-4.
  • May, A. M. B., J. E. Pinder, and G. C. Kroh. 1997. “A Comparison of Landsat Thematic Mapper and SPOT Multi-Spectral Imagery for the Classification of Shrub and Meadow Vegetation in Northern California, USA.” International Journal of Remote Sensing 18 (18): 3719–3728. doi:10.1080/014311697216577.
  • Meroni, M., M. M. Verstraete, F. Rembold, F. Urbano, and F. Kayitakire. 2014. “A Phenology-based Method to Derive Biomass Production Anomalies for Food Security Monitoring in the Horn of Africa.” International Journal of Remote Sensing 35: 2472–2492.
  • Petitjean, F., J. Inglada, and P. Gancarski. 2014. “Assessing the Quality of Temporal High-resolution Classifications with Low-resolution Satellite Image Time Series.” International Journal of Remote Sensing 35: 2693–2712.
  • Raymaekers, D., A. Garcia, C. Di Bella, M. E. Beget, C. Llavallo, P. Oricchio, J. Straschnoy, M. Weiss, and F. Baret. 2014. “SPOT-VEGETATION GEOV1 Biophysical Parameters in Semi-arid Agro-ecosystems.” International Journal of Remote Sensing 35: 2534–2547.
  • Stathakis, D., and I. Faraslis. 2014. “Monitoring Urban Sprawl Using Simulated PROBA-V Data.” International Journal of Remote Sensing 35: 2731–2743.
  • Sterckx, S., I. Benhadj, G. Duhoux, S. Livens, W. Dierckx, E. Goor, S. Adriaensen, W. Heyns, K. Van Hoof, G. Strackx, K. Nackaerts, I. Reusen, T. Van Achteren, J. Dries, T. Van Roey, K. Mellab, R. Duca, and Joe Zender. 2014. “The PROBA-V Mission: Image Processing and Calibration.” International Journal of Remote Sensing 35: 2565–2588.
  • Swinnen, E., S. Verbeiren, B. Deronde, and P. Henry. 2014. “Assessment of the Impact of the Orbital Drift of SPOT-VGT1 by Comparing with SPOT-VGT2 Data.” International Journal of Remote Sensing 35: 2421–2439.
  • Tarnavsky, E., S. Garrigues, and M. E. Brown. 2008. “Multiscale Geostatistical Analysis of AVHRR, SPOT-VGT, and MODIS global NDVI Products.” Remote Sensing of Environment 112 (2): 535–549. doi:10.1016/j.rse.2007.05.008.
  • Thome, K., J. LaMarr, K. Scott, and C. Gustafson-Bold 1998. “In ed. Barnes, W.L., Methods for the calibration of SPOT-4 HRVIR and Vegetation. Earth Observing Systems III.” Proceedings of the Society of Photo-Optical Instrumentation Engineers (SPIE) 3439: 439–449.
  • Tote, C., S. Delalieux, M. Goossens, B. Williamson, and E. Swinnen. 2014. “Monitoring Environmental Health using SPOT-VEGETATION-derived and Field-measured Spectral Indices in Karabash, Russia.” International Journal of Remote Sensing 35: 2516–2533.
  • Toukiloglou, P., I. Z. Gitas, and T. Katagis. 2014. “An Automated two-step NDVI-based Method for the Production of Low-cost Historical Burned Area Map Records Over Large Areas.” International Journal of Remote Sensing 35: 2713–2730.
  • Verhegghen, A., S. Bontemps, and P. Defourny. 2014. “A global NDVI and EVI Reference Data Set for Land-surface Phenology using 13 Years of Daily SPOT-VEGETATION Observations.” International Journal of Remote Sensing 35: 2440–2471.
  • Yin, H., T. Udelhoven, R. Fensholt, D. Pflugmacher, and P. Hostert. 2012. “How Normalized Difference Vegetation Index (NDVI) Trends from Advanced Very High Resolution Radiometer (AVHRR) and Système Probatoire d’Observation de la Terre VEGETATION (SPOT VGT) Time Series Differ in Agricultural Areas: An Inner Mongolian Case Study.” Remote Sensing 4 (11): 3364–3389. 10.3390/rs4113364.

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