We present a new algorithm for reconstructing an unknown source in Thermoacoustic and Photoacoustic Tomography based on the recent advances in understanding the theoretical nature of the problem. We work with variable sound speeds that might be also discontinuous across some surface. The latter problem arises in brain imaging. The new algorithm is based on an explicit formula in the form of a Neumann series. We present numerical examples with non-trapping, trapping and piecewise smooth speeds, as well as examples with data on a part of the boundary. These numerical examples demonstrate the robust performance of the new algorithm.
In this paper, we investigate the adjoint equation in photoacoustic tomography with variable sound s...
Quantitative photo-acoustic tomography (QPAT) seeks to reconstruct a distribution of optical attenu...
Practical applications of thermoacoustic tomography require numerical inversion of the spherical mea...
Abstract. We study the mathematical model of thermoacoustic and photoacoustic tomography when the so...
Abstract. We study the mathematical model of thermoacoustic and photoacoustic tomography when the so...
In recent years, revolutionary "hybrid" or "multi-physics" methods of medical imaging have emerged. ...
ABSTRACT. We study the mathematical model of thermoacoustic tomography in media with a variable spee...
Abstract—In this paper, we present time-domain reconstruction algorithms for the thermoacoustic imag...
We present a method to generate quantitative cross-sectional maps of acoustic propagation speed in t...
To accelerate photoacoustic data acquisition, in [R. Nuster, G. Zangerl, M. Haltmeier, G. Paltauf (2...
We consider the inverse source problem of thermo- and photoacoustic tomography, with data registered...
We investigate the inverse source problem for the wave equation, arising in photo- and thermoacousti...
The majority of optoacoustic reconstruction algorithms are based on the assumption that the speed of...
Coupled-physics methods are recently introduced techniques which combine two or more different types...
ABSTRACT. In this paper we consider the linearized problem of recovering both the sound speed and th...
In this paper, we investigate the adjoint equation in photoacoustic tomography with variable sound s...
Quantitative photo-acoustic tomography (QPAT) seeks to reconstruct a distribution of optical attenu...
Practical applications of thermoacoustic tomography require numerical inversion of the spherical mea...
Abstract. We study the mathematical model of thermoacoustic and photoacoustic tomography when the so...
Abstract. We study the mathematical model of thermoacoustic and photoacoustic tomography when the so...
In recent years, revolutionary "hybrid" or "multi-physics" methods of medical imaging have emerged. ...
ABSTRACT. We study the mathematical model of thermoacoustic tomography in media with a variable spee...
Abstract—In this paper, we present time-domain reconstruction algorithms for the thermoacoustic imag...
We present a method to generate quantitative cross-sectional maps of acoustic propagation speed in t...
To accelerate photoacoustic data acquisition, in [R. Nuster, G. Zangerl, M. Haltmeier, G. Paltauf (2...
We consider the inverse source problem of thermo- and photoacoustic tomography, with data registered...
We investigate the inverse source problem for the wave equation, arising in photo- and thermoacousti...
The majority of optoacoustic reconstruction algorithms are based on the assumption that the speed of...
Coupled-physics methods are recently introduced techniques which combine two or more different types...
ABSTRACT. In this paper we consider the linearized problem of recovering both the sound speed and th...
In this paper, we investigate the adjoint equation in photoacoustic tomography with variable sound s...
Quantitative photo-acoustic tomography (QPAT) seeks to reconstruct a distribution of optical attenu...
Practical applications of thermoacoustic tomography require numerical inversion of the spherical mea...