Fusion of heterogeneous and noisy informations: application to the quantification of the coronary stenosis

Author

Franco, Patrick ; Menard, Michel ; Loonis, Pierre

Author_Institution

Lab. d´´Inf. et d´´Imagerie Ind., Univ. de La Rochelle, France

Volume

1

fYear

2000

fDate

10-13 July 2000

Abstract

Proposes an algorithm to evaluate the similarity between two space-time distributions. One is obtained by experiment; the other is estimated by a numerical calculus. These are heterogeneous information types; their locations, as well as their densities and their reliabilities, are various. We have developed a first method which is correct when numerical and experimental information are closely linked. Nevertheless, in real-world problems, the initial conditions which induce the numerical information are vague. For the nonlinearity of the studied phenomena, the degree of similarity of both types of information is deeply degraded. Our approach is robust relative to this noise. It is used as part of a coronary stenosis identification process.

Keywords

blood vessels; medical signal processing; noise; numerical analysis; reliability; sensor fusion; coronary stenosis identification process; heterogeneous information; inaccuracy; information density; information fusion; information location; information reliability; noisy information; nonlinearity; numerical calculus; numerical information; numerical simulation; robustness; space-time distribution similarity evaluation; Aerospace industry; Angiography; Arteries; Displays; Image edge detection; Linearity; Mathematical model; Noise robustness; Numerical simulation; Velocity measurement;

fLanguage

English

Publisher

ieee

Conference_Titel

Information Fusion, 2000. FUSION 2000. Proceedings of the Third International Conference on

Conference_Location

Paris, France

Print_ISBN

2-7257-0000-0

Type

conf

DOI

10.1109/IFIC.2000.862692

Filename

862692