# Results for University of Oxford

Results 1 - 10 of 76 for 2-phi .

Sort by date, Sort by relevance.

### Results

1. Chaste: BidomainWithBathProblem Class Template Reference

std::vector&amp;lt; boost::shared_ptr. &amp;lt;. Detailed Description. Class which specifies and solves a bidomain problem. The solution vector is of the form: (V_1, phi_1, V_2, phi_2,. , ... V_N, phi_N), where V_j is the voltage at node j and phi_j is the

chaste.cs.ox.ac.uk/public-docs/classBidomainWithBathProblem.html- 55k - 6 Jul 2020

2. Chaste: BidomainWithBathProblem Class Template Reference

Class which specifies and solves a bidomain problem. The solution vector is of the form: (V_1, phi_1, V_2, phi_2,. , ... V_N, phi_N), where V_j is the voltage at node j and phi_j is the extracellular potential at node j.

chaste.cs.ox.ac.uk/chaste/docs/release_3.3/classBidomainWithBathProblem.html- 34k - 15 Jan 2015

3. Chaste: BidomainProblem Class Template Reference

Class which specifies and solves a bidomain problem. The solution vector is of the form: (V_1, phi_1, V_2, phi_2,. , ... Print out time and max/min voltage/phi_e values at current time. Implements AbstractCardiacProblem&amp;lt; DIM, 2 &amp;gt;. Definition at line 209

chaste.cs.ox.ac.uk/chaste/docs/release_1/classBidomainProblem.html- 45k - 24 Apr 2009

4. ParliamentData

In :. library(sgd) n1=dim(votes) n2=dim(votes) k=2 Phi=y.svd\$u[,1:k] %% diag(sqrt(y.svd\$d[1:k])) Psi=y.svd\$v[,1:k] %% ... In :. meanphi&amp;lt;-colMeans(Phi) ll&amp;lt;-apply(Phi,1,function(x) sqrt(sum((x-meanphi)2))) plot(nz,ll)

www.stats.ox.ac.uk/~sejdinov/teaching/dmml17/ParliamentData.html- 1367k - 15 Jan 2019

5. Chaste: ExtendedBidomainProblem Class Template Reference

Hardcoded variable names are &amp;quot;V&amp;quot;, &amp;quot;V_2&amp;quot; and &amp;quot;Phi_e&amp;quot; for the three variables. ... This method works out the transmembrane potential of the two cells (V and V_2) calculated as V = Phi_i_1 - Phi_e and V_2 = Phi_i_2-Phi_e.

chaste.cs.ox.ac.uk/chaste/docs/release_3.1/classExtendedBidomainProblem.html- 126k - 5 Nov 2012

6. Chaste: heart/src/solver/electrics/extended_bidomain/AbstractExtendedBidomainSolver.cpp Source File

147 {. 148 if (((col_index-2)%3 == 0) &amp;amp;&amp;amp; (col_index&amp;gt;1)) //phi_e column indices are 2,5,8,11 etc. ... 176 DistributedVector::Stripe distributed_rhs_phi_entries(distributed_rhs,2); // stripe number 2 -&amp;gt; phi_e.

chaste.cs.ox.ac.uk/public-docs/AbstractExtendedBidomainSolver_8cpp_source.html- 63k - 6 Jul 2020

7. Chaste: ExtendedBidomainProblem Class Template Reference

Hardcoded variable names are &amp;quot;V&amp;quot;, &amp;quot;V_2&amp;quot; and &amp;quot;Phi_e&amp;quot; for the three variables. ... This method works out the transmembrane potential of the two cells (V and V_2) calculated as V = Phi_i_1 - Phi_e and V_2 = Phi_i_2-Phi_e.

chaste.cs.ox.ac.uk/chaste/docs/release_3.2/classExtendedBidomainProblem.html- 142k - 29 May 2014

Class which specifies and solves a bidomain problem using adaptivity. The solution vector is of the form: (V_1, phi_1, V_2, phi_2,. , ... vtu file. Generates mesh and initial conditions (on V, phi and ODE state variables).

chaste.cs.ox.ac.uk/chaste/docs/release_3.0/classAdaptiveBidomainProblem.html- 87k - 22 Dec 2011

9. Chaste: BidomainWithBathProblem Class Template Reference

Class which specifies and solves a bidomain problem. The solution vector is of the form: (V_1, phi_1, V_2, phi_2,. , ... V_N, phi_N), where V_j is the voltage at node j and phi_j is the extracellular potential at node j.

chaste.cs.ox.ac.uk/chaste/docs/release_3.2/classBidomainWithBathProblem.html- 34k - 29 May 2014

10. Chaste: AbstractCardiacPde Class Template Reference

Used when accessing the voltage components in the solution vector (because the solution vector is of the form (V_1, phi_1, V_2, phi_2,. , ... V_N, phi_N), where V_j is the voltage at node j and phi_j is the extracellular potential at node j.

chaste.cs.ox.ac.uk/chaste/docs/release_1.1/classAbstractCardiacPde.html- 64k - 4 Aug 2009

### Result Page

1 , , , , , , , , .