Chaste Release::3.1
BidomainAssembler.cpp
00001 
00002 /*
00003 
00004 Copyright (c) 2005-2012, University of Oxford.
00005 All rights reserved.
00006 
00007 University of Oxford means the Chancellor, Masters and Scholars of the
00008 University of Oxford, having an administrative office at Wellington
00009 Square, Oxford OX1 2JD, UK.
00010 
00011 This file is part of Chaste.
00012 
00013 Redistribution and use in source and binary forms, with or without
00014 modification, are permitted provided that the following conditions are met:
00015  * Redistributions of source code must retain the above copyright notice,
00016    this list of conditions and the following disclaimer.
00017  * Redistributions in binary form must reproduce the above copyright notice,
00018    this list of conditions and the following disclaimer in the documentation
00019    and/or other materials provided with the distribution.
00020  * Neither the name of the University of Oxford nor the names of its
00021    contributors may be used to endorse or promote products derived from this
00022    software without specific prior written permission.
00023 
00024 THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
00025 AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
00026 IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
00027 ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
00028 LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
00029 CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
00030 GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
00031 HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
00032 LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
00033 OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
00034 
00035 */
00036 
00037 #include "BidomainAssembler.hpp"
00038 #include "PdeSimulationTime.hpp"
00039 #include "UblasIncludes.hpp"
00040 #include <boost/numeric/ublas/vector_proxy.hpp>
00041 
00042 
00043 template<unsigned ELEMENT_DIM, unsigned SPACE_DIM>
00044 c_matrix<double,2*(ELEMENT_DIM+1),2*(ELEMENT_DIM+1)>
00045     BidomainAssembler<ELEMENT_DIM,SPACE_DIM>::ComputeMatrixTerm(
00046             c_vector<double, ELEMENT_DIM+1> &rPhi,
00047             c_matrix<double, SPACE_DIM, ELEMENT_DIM+1> &rGradPhi,
00048             ChastePoint<SPACE_DIM> &rX,
00049             c_vector<double,2> &rU,
00050             c_matrix<double, 2, SPACE_DIM> &rGradU /* not used */,
00051             Element<ELEMENT_DIM,SPACE_DIM>* pElement)
00052 {
00053     // get bidomain parameters
00054     double Am = mpConfig->GetSurfaceAreaToVolumeRatio();
00055     double Cm = mpConfig->GetCapacitance();
00056 
00057     const c_matrix<double, SPACE_DIM, SPACE_DIM>& sigma_i = this->mpCardiacTissue->rGetIntracellularConductivityTensor(pElement->GetIndex());
00058     const c_matrix<double, SPACE_DIM, SPACE_DIM>& sigma_e = this->mpCardiacTissue->rGetExtracellularConductivityTensor(pElement->GetIndex());
00059 
00060 
00061     c_matrix<double, SPACE_DIM, ELEMENT_DIM+1> temp = prod(sigma_i, rGradPhi);
00062     c_matrix<double, ELEMENT_DIM+1, ELEMENT_DIM+1> grad_phi_sigma_i_grad_phi =
00063         prod(trans(rGradPhi), temp);
00064 
00065     c_matrix<double, ELEMENT_DIM+1, ELEMENT_DIM+1> basis_outer_prod =
00066         outer_prod(rPhi, rPhi);
00067 
00068     c_matrix<double, SPACE_DIM, ELEMENT_DIM+1> temp2 = prod(sigma_e, rGradPhi);
00069     c_matrix<double, ELEMENT_DIM+1, ELEMENT_DIM+1> grad_phi_sigma_e_grad_phi =
00070         prod(trans(rGradPhi), temp2);
00071 
00072 
00073     c_matrix<double,2*(ELEMENT_DIM+1),2*(ELEMENT_DIM+1)> ret;
00074 
00075     // even rows, even columns
00076     matrix_slice<c_matrix<double, 2*ELEMENT_DIM+2, 2*ELEMENT_DIM+2> >
00077     slice00(ret, slice (0, 2, ELEMENT_DIM+1), slice (0, 2, ELEMENT_DIM+1));
00078     slice00 = (Am*Cm*PdeSimulationTime::GetPdeTimeStepInverse())*basis_outer_prod + grad_phi_sigma_i_grad_phi;
00079 
00080     // odd rows, even columns
00081     matrix_slice<c_matrix<double, 2*ELEMENT_DIM+2, 2*ELEMENT_DIM+2> >
00082     slice10(ret, slice (1, 2, ELEMENT_DIM+1), slice (0, 2, ELEMENT_DIM+1));
00083     slice10 = grad_phi_sigma_i_grad_phi;
00084 
00085     // even rows, odd columns
00086     matrix_slice<c_matrix<double, 2*ELEMENT_DIM+2, 2*ELEMENT_DIM+2> >
00087     slice01(ret, slice (0, 2, ELEMENT_DIM+1), slice (1, 2, ELEMENT_DIM+1));
00088     slice01 = grad_phi_sigma_i_grad_phi;
00089 
00090     // odd rows, odd columns
00091     matrix_slice<c_matrix<double, 2*ELEMENT_DIM+2, 2*ELEMENT_DIM+2> >
00092     slice11(ret, slice (1, 2, ELEMENT_DIM+1), slice (1, 2, ELEMENT_DIM+1));
00093     slice11 = grad_phi_sigma_i_grad_phi + grad_phi_sigma_e_grad_phi;
00094 
00095     return ret;
00096 }
00097 
00098 
00099 
00100 
00101 template<unsigned ELEMENT_DIM, unsigned SPACE_DIM>
00102 BidomainAssembler<ELEMENT_DIM,SPACE_DIM>::BidomainAssembler(
00103             AbstractTetrahedralMesh<ELEMENT_DIM,SPACE_DIM>* pMesh,
00104             BidomainTissue<SPACE_DIM>* pTissue,
00105             unsigned numQuadPoints)
00106     : AbstractCardiacFeVolumeIntegralAssembler<ELEMENT_DIM,SPACE_DIM,2,false,true,CARDIAC>(pMesh,pTissue,numQuadPoints)
00107 {
00108     assert(pTissue != NULL);
00109     mpConfig = HeartConfig::Instance();
00110 }
00111 
00112 
00113 
00115 // explicit instantiation
00117 
00118 template class BidomainAssembler<1,1>;
00119 template class BidomainAssembler<2,2>;
00120 template class BidomainAssembler<3,3>;