M. Birlan
Romanian Academy
2 Papers
5 Citations
M. Birlan is an academic researcher from Romanian Academy. The author has contributed to research in topics: Shape analysis (digital geometry) & Context (language use). The author has an hindex of 2, co-authored 2 publications. Previous affiliations of M. Birlan include University of Paris.
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Papers
Volume uncertainty of (7) Iris shape models from disc-resolved images
Grzegorz Dudziński,E. Podlewska-Gaca,P. Bartczak,S. Benseguane,Marin Ferrais,Laurent Jorda,Josef Hanus,Pierre Vernazza,Nicolas Rambaux,Benoit Carry,F. Marchis,Michael Marsset,Matti Viikinkoski,Miroslav Brož,Romain Fétick,Alexis Drouard,Thierry Fusco,M. Birlan,M. Birlan,Emmanuel Jehin,Jérôme Berthier,Julie Castillo-Rogez,Fabrice Cipriani,François Colas,Christophe Dumas,Agnieszka Kryszczyńska,P. L. Lamy,H. Le Coroller,A. Marciniak,Tadeusz Michalowski,P. Michel,Toni Santana-Ros,Toni Santana-Ros,Paolo Tanga,F. Vachier,Arthur Vigan,Olivier Witasse,Bin Yang +37 more
TL;DR: In this paper, a method of uncertainty calculation of asteroid shape models based on light curve and adaptive optics (AO) images was proposed to estimate the volume and density uncertainties of (7) Iris using Genetic Evolution and All-Data Asteroid Modelling inversion techniques and multiresolution photoclinometry by deformation.
Asteroid (16) Psyche’s primordial shape: A possible Jacobi ellipsoid
Marin Ferrais,Pierre Vernazza,Laurent Jorda,Nicolas Rambaux,Josef Hanus,Benoit Carry,F. Marchis,F. Marchis,Michael Marsset,Matti Viikinkoski,Miroslav Brož,Romain Fétick,Alexis Drouard,Thierry Fusco,M. Birlan,M. Birlan,E. Podlewska-Gaca,E. Podlewska-Gaca,Emmanuel Jehin,P. Bartczak,Jérôme Berthier,Julie Castillo-Rogez,Fabrice Cipriani,François Colas,Grzegorz Dudziński,Christophe Dumas,Josef Ďurech,Mikko Kaasalainen,Agnieszka Kryszczyńska,P. Lamy,H. Le Coroller,A. Marciniak,Tadeusz Michalowski,Patrick Michel,Toni Santana-Ros,Toni Santana-Ros,Paolo Tanga,F. Vachier,Arthur Vigan,Olivier Witasse,Bin Yang +40 more
TL;DR: In this article, the shape and bulk density of (16) Psyche were analyzed using two independent shape modeling algorithms (MPCD and ADAM) and a shape analysis was performed, including a comparison with equilibrium figures and the identification of mass deficit regions.