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A computational model of the cochlea using the immersed boundary method

A computational model of the cochlea using the immersed boundary method,R. P. Beyer

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A computational model of the cochlea using the immersed boundary method   (Citations: 55)
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Published in 1992.
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    • ...Finally, we note that the auditory processing of ultra-short transient signals, such as the clicks of Rosette bats, is non-linear and poorly understood (Beyer, 1990); therefore, more work needs to be done in order to elucidate the effective echo energy available to the auditory system of clicking bats...

    Yossi YovelMayaet al. Click-based echolocation in bats: not so primitive after all

    • ...The (IB) method has been employed in a variety of applications including the study of blood flow in the heart (Peskin, 2002), blood vessels (Vesier and Yoganathan, 1992; Rosar and Peskin, 2001), deformation of blood cells (Bottino, 1998), platelet aggregation and adhesion in blood clotting (Fogelson, 1984, 1993; Fauci and Fogelson, 1993; Wang and Fogelson, 1999), signal transduction by cochlea (Beyer, 1992; Givelberg and Bunn, 2003), flow ...

    Chia-Yu Hsuet al. A 3D Motile Rod-Shaped Monotrichous Bacterial Model

    • ...Equations (5) and (6) involve the two-dimensional...
    • ...Equation (6) is the equation of motion of the immersed elastic boundary...
    • ...This can also be rewritten in terms of the Dirac delta function as in the second form of Eq. (6)...
    • ...Note that the integral in Eq. (6) is a double integral dxdy, unlike the integral in Eq. (5) which is onedimensional...
    • ...(A) Update the position of the massless boundary at time level n þ 1 : This is done by the discretization of Eq. (6)...

    Yongsam Kimet al. Blood Flow in a Compliant Vessel by the Immersed Boundary Method

    • ...The method has been successfully applied to a variety of problems including blood flow in the heart [1], vibrations of the cochlear basilar membrane [2,3], blood clotting [4–6], aquatic locomotion [7–10], insect flight [11,12], flow with suspended particles [13,14] and other physical problems [15–18]...

    Yoichiro Moriet al. Implicit second-order immersed boundary methods with boundary mass

    • ...The method has found many applications, including blood flow in the heart [17], vibrations of the cochlear basilar membrane [1, 10], blood clotting [7, 39, 42], aquatic locomotion [4, 6, 8, 14], insect flight [18, 19], flow with suspended particles [9, 33], and other physical problems [5, 15, 16, 29]...

    Yoichiro Mori. Convergence proof of the velocity field for a stokes flow immersed bou...

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