The forthcoming European Space Agencys Sentinel-2 mission promises to provide high (10 m) resolution optical data at higher temporal frequencies (5 day revisit with two operational satellites) than previously available. CNES, the French national space agency, launched a program in 2013, SPOT4 take 5, to simulate such a dataflow using the SPOT HRV sensor, which has similar spectral characteristics to the Sentinel sensor, but lower (20m) spatial resolution. Such data flow enables the analysis of the satellite images using temporal analysis, an approach previously restricted to lower spatial resolution sensors. We acquired 23 such images over Tanzania for the period from February to June 2013. The data were analysed with aim of discriminating between different forest cover percentages for landscape units of 0.5 ha over a site characterised by deciduous intact and degraded forests. The SPOT data were processed by one extracting temporal vegetation indices. We assessed the impact of the high acquisition rate with respect to the current rate of one image every 16 days. Validation data, giving the percentage of forest canopy cover in each land unit were provided by very high resolution satellite data. Results show that using the full temporal series it is possible to discriminate between forest units with differences of more than 40% tree cover or more. Classification errors fell exclusively into the adjacent forest canopy cover class of 20% or less. The analyses show that forestation mapping and degradation monitoring will be substantially improved with the Sentinel-2 program.
Topic: forest cover,degradation,tropical forests,dry forests
Publisher: The International Society for Photogrammetry and Remote Sensing, The Netherlands
Publication Year: 2015
Source: The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences XL-7/W3: 417-423G. Schreier, P. E. Skrovseth, and H. Staudenrausch (eds.) 36th International Symposium on Remote Sensing of Environment. 1115 May 2015, Berl