One-dimensional modelling of a vascular network in space-time variables
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S. Sherwin | K. Parker | J. Peiró | S. Sherwin | V. Franke | S. J. Sherwin | Kim H. Parker | Spencer J. Sherwin | Joaquim Peiró
[1] K. Parker,et al. Wave propagation in a model of the arterial circulation. , 2004, Journal of biomechanics.
[2] Spencer J. Sherwin,et al. Computational modelling of 1D blood flow with variable mechanical properties and its application to the simulation of wave propagation in the human arterial system , 2003 .
[3] S. Čanić,et al. Mathematical analysis of the quasilinear effects in a hyperbolic model blood flow through compliant axi‐symmetric vessels , 2003 .
[4] Nigel G Shrive,et al. Time-domain representation of ventricular-arterial coupling as a windkessel and wave system. , 2003, American journal of physiology. Heart and circulatory physiology.
[5] Debasis Mukherjee,et al. Permanence and global attractivity for facultative mutualism system with delay , 2003 .
[6] Victoria Eleanor Franke. One-dimensional spectral/hp element simulation of wave propagation in human arterial networks , 2003 .
[7] Alfio Quarteroni,et al. A One Dimensional Model for Blood Flow: Application to Vascular Prosthesis , 2002 .
[8] Andrew J. Pullan,et al. An Anatomically Based Model of Transient Coronary Blood Flow in the Heart , 2002, SIAM J. Appl. Math..
[9] A. Quarteroni,et al. On the coupling of 3D and 1D Navier-Stokes equations for flow problems in compliant vessels , 2001 .
[10] Spencer J. Sherwin,et al. Dispersion Analysis of the Continuous and Discontinuous Galerkin Formulations , 2000 .
[11] G. Karniadakis,et al. Spectral/hp Element Methods for CFD , 1999 .
[12] George Em Karniadakis,et al. Spectral/hp Methods for Viscous Compressible Flows on Unstructured 2D Meshes , 1998 .
[13] W. Nichols,et al. McDonald's Blood Flow in Arteries: Theoretical, Experimental and Clinical Principles , 1998 .
[14] D. F. Young,et al. Computer simulation of arterial flow with applications to arterial and aortic stenoses. , 1992, Journal of biomechanics.
[15] Jiun Wang,et al. Wave propagation in a model of the human arterial system , 1992 .
[16] Chi-Wang Shu,et al. TVB Runge-Kutta local projection discontinuous galerkin finite element method for conservation laws. II: General framework , 1989 .
[17] K. Parker,et al. EFFECT OF CIGARETTE SMOKING ON THE PATTERN OF ARTERIAL BLOOD FLOW: POSSIBLE INSIGHT INTO MECHANISMS UNDERLYING THE DEVELOPMENT OF ARTERIOSCLEROSIS , 1987, The Lancet.
[18] Lawrence C. Cerny,et al. Leonhardi Euleri's “Principia pro motu sanguinis per arterias determinando” , 1974 .
[19] Georg Friedrich Bernhard Riemann. Gesammelte mathematische Werke und wissenschaftlicher Nachlass , 1971 .
[20] A Noordergraaf,et al. Arterial viscoelasticity: a generalized model. Effect on input impedance and wave travel in the systematic tree. , 1970, Journal of biomechanics.
[21] James Lighthill,et al. Waves In Fluids , 1966 .
[22] J. Womersley,et al. An Elastic Tube Theory of Pulse Transmission and Oscillatory Flow in Mammalian Arteries , 1957 .
[23] O. Frank,et al. Die grundform des arteriellen pulses , 1899 .
[24] D. Korteweg. Ueber die Fortpflanzungsgeschwindigkeit des Schalles in elastischen Rhren , 1878 .
[25] Thomas Young,et al. XIII. Hydraulic investigations, subservient to an intended Croonian Lecture on the motion of the blood , 1808, Philosophical Transactions of the Royal Society of London.