Work place: School EPMI, 13 Boulevard de l’Hautil, 95092 Cergy Pontoise Cedex, Paris, France
E-mail: jm.brucker@epmi.fr
Website:
Research Interests: Engineering, Computational Engineering
Biography
Jean Michel Brucker is Scientific Director and Professor in electromagnetism at EPMI Group ECAM (Engineering School of Electrical, Industrial Engineering and Industrial Management), located in Cergy Pontoise (Paris Region, France), PhD in Theoretical Physics, member of ECS-Lab Laboratory. (3649 EA). R & D work in signal processing and radar architecture in Thomson CSF (now Thales) and in EPMI: patents and publications
By Mourad Lazri Soltane Ameur Jean Michel Brucker
DOI: https://doi.org/10.5815/ijieeb.2014.04.06, Pub. Date: 8 Aug. 2014
Time trends of precipitation in the north of Algeria from meteorological radar are analysed. A probabilistic approach presented here proposes to study the evolution of the rainfall phenomenon in two distinct study areas, one located in sea and other located in ground. A decision criterion is established and based on radar reflectivity in order to classify the precipitation events located in both areas. At each radar observation, a state of precipitation is classified, either convective (heavy precipitation) or stratiform (average precipitation) both for the "sea" and for the "ground". In all, a time series of precipitation composed of three states; no raining, stratiform precipitation and convective precipitation, is obtained for each of the two areas. Thereby, we studied and characterized the behavior of precipitation in time by a Markov chain of order one with three states. Transition probabilities are calculated. The results show that rainfall is well described by a Markov chain of order one with three states. Indeed, the stationary probabilities, which are calculated by using the Markovian model, and the actual probabilities are almost identical.
[...] Read more.By Mounir Sehad Mourad Lazri Soltane Ameur Jean Michel Brucker Fethi Ouallouche
DOI: https://doi.org/10.5815/ijigsp.2014.07.04, Pub. Date: 8 Jun. 2014
This paper provides a new method for the classification of rainfall areas in convective and stratiform rain using MSG/SEVIRI (Spinning Enhanced Visible and Infrared) data. The proposed approach is based on spectral and temporal properties of clouds. The spectral parameters used are: brightness temperature (BT) and brightness temperature differences (BTDs), and the temporal parameter (RCT10.8) is the rate of change of (BT) in the 10.8µm channel over two consecutive images. The developed rain area classification technique (RACT-DN) is based on two multilayer perceptron neural networks (MLP-D for daytime and MLP-N for nighttime) which relies on the correlation of satellite data with convective and stratiform rain. The two algorithms (MLP-D and MLP-N) are trained using as reference data from ground meteorological radar over northern Algeria. The results show that RACT-DN classifier gives accurate discrimination between convective and stratiform areas during daytime and nighttime.
[...] Read more.By Fethi Ouallouche Mourad Lazri Soltane Ameur Jean Michel Brucker Mounir Sehad
DOI: https://doi.org/10.5815/ijigsp.2014.06.02, Pub. Date: 8 May 2014
Rain areas delineation proposed in this paper is based on the image fusion from geostationary Meteosat Second Generation (MSG) satellite, with the low-earth orbiting passive Tropical Rainfall Measuring Mission (TRMM) satellite. The fusion technique described in this work used an artificial neural network (ANN). It's has been developed to detect instantaneous rainfall by using information from the IR images of MSG satellite and from TRMM Microwave Imager (TMI). The study is carried out over north of Algeria. Seven spectral parameters are used as input data of ANN to identify raining or non - raining pixels. Corresponding data of raining /non-raining pixels are taken from a PR (precipitation radar) issued from TRMM. Results from the developed scheme are compared with the results of SI method (Scattering Index) taken as reference method. The results show that the developed model performs very well and overcomes the deficiencies of use a single satellite.
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