Add to ORKGWe characterize the non-uniqueness in the inverse problem for the stationary transport model, in which the absorption a and the scattering coefficient k of the media are to be recovered from the albedo operator. We show that gauge equivalent pairs (a, k) yield the same albedo operator, and that we can recover uniquely the class of the gauge equivalent pairs. We apply this result to show unique determination of the media when the absorption a depends on the line of travel through each point while the scattering k obeys a symmetry property. Previously known results concerned the directional independent absorption a. © 2009 American Mathematical Society
Three dimensional anisotropic attenuating and scattering media sharing the same albedo operator have...
Three dimensional anisotropic attenuating and scattering media sharing the same albedo operator have...
Three dimensional anisotropic attenuating and scattering media sharing the same albedo operator have...
We characterize the non-uniqueness in the inverse problem for the stationary transport model, in whi...
We characterize the non-uniqueness in the inverse problem for the stationary transport model, in whi...
Abstract. We characterize the non-uniqueness in the inverse problem for the stationary transport mod...
Abstract. We characterize the non-uniqueness in the inverse problem for the stationary transport mod...
Abstract. For anisotropic attenuating media, the albedo operator determines the scattering and the a...
For anisotropic attenuating media, the albedo operator determines the scattering and the attenuating...
For anisotropic attenuating media, the albedo operator determines the scattering and the attenuating...
In the inverse stationary transport problem through anisotropic attenuating, scattering, and refract...
Abstract. For anisotropic attenuating media, the albedo operator determines the scattering and the a...
For anisotropic attenuating media, the albedo operator determines the scattering and the attenuating...
Three dimensional anisotropic attenuating and scattering media sharing the same albedo operator have...
We study the stability of the reconstruction of the scattering and absorption coefficients in a stat...
Three dimensional anisotropic attenuating and scattering media sharing the same albedo operator have...
Three dimensional anisotropic attenuating and scattering media sharing the same albedo operator have...
Three dimensional anisotropic attenuating and scattering media sharing the same albedo operator have...
We characterize the non-uniqueness in the inverse problem for the stationary transport model, in whi...
We characterize the non-uniqueness in the inverse problem for the stationary transport model, in whi...
Abstract. We characterize the non-uniqueness in the inverse problem for the stationary transport mod...
Abstract. We characterize the non-uniqueness in the inverse problem for the stationary transport mod...
Abstract. For anisotropic attenuating media, the albedo operator determines the scattering and the a...
For anisotropic attenuating media, the albedo operator determines the scattering and the attenuating...
For anisotropic attenuating media, the albedo operator determines the scattering and the attenuating...
In the inverse stationary transport problem through anisotropic attenuating, scattering, and refract...
Abstract. For anisotropic attenuating media, the albedo operator determines the scattering and the a...
For anisotropic attenuating media, the albedo operator determines the scattering and the attenuating...
Three dimensional anisotropic attenuating and scattering media sharing the same albedo operator have...
We study the stability of the reconstruction of the scattering and absorption coefficients in a stat...
Three dimensional anisotropic attenuating and scattering media sharing the same albedo operator have...
Three dimensional anisotropic attenuating and scattering media sharing the same albedo operator have...
Three dimensional anisotropic attenuating and scattering media sharing the same albedo operator have...