Context and objectives
the generalisation and the validation of the new method for the production of temporal composite, at the global scale on one hand and, for other sensors of medium and high spatial resolution on the other hand;
the extension and the generalisation of the automatic algorithm of change detection in the remotely sensed signal using optical time series with high temporal resolution
Expected scientific results
The research activities lead to the production of several algorithms ready to be used by remote sensing specialists or by an automatic monitoring system in operational processing environment on a near real-time basis at the worldwide scale.
A processing chain intended to produce composites based on the mean compositing strategy was developed. This chain is very flexible and allows the user to optimise the compositing parameters according to its application and the regional conditions. The syntheses present a large spatial and temporal consistency in all wavelengths and their production is so fast that the whole archive can be reprocessed at any time.
An operational processing chain intended to monitor the conditions favourable to the development of the Locust was developed. This process, currently tested at the FAO, ensures the monitoring in real time and improves the quality of the detections.
An operational processing chain intended to monitor water bodies was developed. It allows the characterisation and the monitoring of temporarily and permanent water bodies as well as flooding events.
Tools intended to put the detection results at the disposal of the users were developed in the framework of the early warning application.