, 77 III.2.2.2 Cadre de l'élasto-acoustique, 77 III.2.2.4 Elasto-acoustique microfluidique avec termes dissipatifs . . . . . . . . 78 III.2.2.5 Rupture de continuité en microfluidique . . . . . . . . . . . . . . 79 III.2.2.6 Conclusion, p.79
, 80 III.2.3.1 Comportement mécanique de nanotubes individuels
, 83 III.3.3 Equations du problème couplé élasto-acoustique, p.90
, 103 III.4.2.1 Rappels sur l'acoustique non visqueuse, 103 III.4.2.2 Résonances en acoustique visqueuse . . . . . . . . . . . . . . . 104
, 109 III
, 115 III.5.2.2 Cas de l'air, 117 III.5.2.4 Conclusion . . . . . . . . . . . . . . . . . . . . . . . . 122
, 255 D.2.1 Réalisation d'ancrages
, 257 E.1.2 Débruitage préliminaire des images, p.263
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, Unité de Recherche CNRS de l'université de Caen) Le logiciel est utilisé sous DOS. Une ligne de commande typique est GREYCstoration_pc_win32.exe -restore name_input_image.tif -iter2 -bits8 -visu false -o name_output_image.bmp. Des informations complémentaires sont disponibles à l'adresse http
, Pour plus d'informations, se référer à la littérature très fournie sur la morphologie mathématique au service du traitement d'images, par exemple
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