@article{SisLab2194,
          volume = {92},
          number = {3},
           month = {March},
          author = {Quang Huy Tran and Duc Tan Tran and Huu Tue Huynh and That Long Ton and Linh Trung Nguyen},
           title = {Influence of dual-frequency combination on the quality improvement of ultrasound tomography},
       publisher = {SAGE Publications},
            year = {2016},
         journal = {Simulation: Transactions of The Society for Modeling and Simulation International},
           pages = {267--276},
             url = {https://eprints.uet.vnu.edu.vn/eprints/id/eprint/2194/},
        abstract = {The most useful feature of ultrasound tomography founded on the inverse scattering theory is that it can detect small structures below the wavelength of the pressure wave. A popular method introduced in ultrasound tomography is the Distorted Born Iterative Method (DBIM). Recently, the dual-frequency combination technique has been utilized to improve the reconstruction quality and increase the convergence rate of the DBIM. This method uses two frequencies, f\_1 (low) and f\_2 (high), to estimate the sound contrast in N\_f1 and N\_f2 iterations, respectively. However, the influence of these iteration parameters on the overall performance of the system is not yet known. In this paper, it is shown by using the simulation technique that if we do not pay attention to the choice of these parameters, the reconstruction quality might be worse than that using a single frequency. Furthermore, we focus on the best way to select the parameters in order to improve the reconstruction quality of ultrasound tomography. Given a fixed sum N iter of N\_f1 and N\_f2 , simulation results show that the best value of N\_f1 is N\_iter/2; this choice of parameters offers a normalized error that reduces by 67.6\%, compared to the conventional DBIM using a single frequency.}
}