@article{SisLab3050,
          volume = {9},
          number = {8},
           month = {September},
          author = {Hai Luong Quang and Cuong Nguyen Manh and Long Ton That and Tan Tran Duc},
           title = {Complex Shear Modulus Estimation using Integration of LMS/AHI Algorithm},
       publisher = {Science and Information (SAI)},
            year = {2018},
         journal = {International Journal of Advanced Computer Science and Applications (IJACSA)},
           pages = {584--589},
             url = {https://eprints.uet.vnu.edu.vn/eprints/id/eprint/3050/},
        abstract = {Elasticity and viscosity of tissues are two important
parameters that can be used to investigate the structure of tissues,especially detecting tumors. By using a force excitation, the shear wave speed is acquired to extract its amplitude and phase. This information is then used directly or indirectly to compute the Complex Shear Modulus (CSM consists of elasticity and viscosity). Among these methods, Algebraic Helmholtz Inversion (AHI) algorithm can be combined with the Finite Difference Time
Domain (FDTD) model to estimate CSM effectively. However, this algorithm is strongly affected by measured noise while acquiring the particle velocity. Thus, we proposed a LMS/AHI algorithm which can estimate correctly CSM. A simulation scenario is built to confirm the performance of the proposed LMS/AHI algorithm with average error of 3:14\%.}
}