/*-------------------------------------------------------------------------- Author: Thomas Nowotny Institute: Institute for Nonlinear Dynamics University of California San Diego La Jolla, CA 92093-0402 email to: tnowotny@ucsd.edu initial version: 2005-08-17 --------------------------------------------------------------------------*/ #ifndef CN_RK6N_NOISE_CC #define CN_RK6N_NOISE_CC #include "CN_rk6n_noise.h" #include <iostream> rk6n_noise::rk6n_noise(int dim) { N= dim; for (int i= 0; i < 9; i++) { Y[i]= new double[N]; F[i]= new double[N]; NS[i]= new double[N]; for (int j= i; j < 8; j++) { a[i][j]= 0.0; } } a[1][0]= 0.111111111111111; a[2][0]= 0.555555555555556e-1; a[2][1]= 0.555555555555556e-1; a[3][0]= 0.416666666666667e-1; a[3][1]= 0.0; a[3][2]= 0.125; a[4][0]= 0.166666666666667; a[4][1]= 0.0; a[4][2]= -0.5; a[4][3]= 0.666666666666667; a[5][0]= 0.1875e+1; a[5][1]= 0.0; a[5][2]= -0.7875e+1; a[5][3]= 0.7e+1; a[5][4]= -0.5; a[6][0]= -0.4227272727272727e+1; a[6][1]= 0.0; a[6][2]= 0.176995738636364e+2; a[6][3]= -0.142883522727273e+2; a[6][4]= 0.522017045454545; a[6][5]= 0.104403409090909e+1; a[7][0]= 0.840622673179752e+1; a[7][1]= 0.0; a[7][2]= -0.337303717185049e+2; a[7][3]= 0.271460231129622e+2; a[7][4]= 0.342046929709216; a[7][5]= -0.184653767923258e+1; a[7][6]= 0.577349465373733; a[8][0]= 0.128104575163399; a[8][1]= 0.0; a[8][2]= 0.0; a[8][3]= -0.108433734939759; a[8][4]= 0.669375; a[8][5]= -0.146666666666667; a[8][6]= 0.284444444444444; a[8][7]= 0.173176381998583; b[0]= 0.567119155354449e-1; b[1]= 0.0; b[2]= 0.0; b[3]= 0.210909572355356; b[4]= 0.141490384615385; b[5]= 0.202051282051282; b[6]= 0.253186813186813; b[7]= 0.843679809736684e-1; b[8]= 0.512820512820513e-1; } rk6n_noise::~rk6n_noise() { delete[] Y; delete[] F; delete[] NS; } void rk6n_noise::integrate(double *y, double *yn, NeuronModel *model, double dt) { sqrtdt= sqrt(dt); // calculate iterative terms rk6_Y[__i] and rk6_F[__i] (to sixth order) // yn[0]= y[0]+dt; for (k= 0; k < N; k++) { Y[0][k]= y[k]; } model->derivative(Y[0], F[0]); model->noise(Y[0], NS[0]); for (i= 1; i < 9; i++) { for (k= 0; k < N; k++) { aF= 0.0; aNS= 0.0; for (j= 0; j < i; j++) { aF+= a[i][j]*F[j][k]; aNS+= a[i][j]*NS[j][k]; } Y[i][k]= y[k]+dt*aF+sqrtdt*aNS; } model->derivative(Y[i], F[i]); model->noise(Y[i], NS[i]); } // no build of 5th order scheme // sum up rk6_Y[__i] and rk6_F[__i] to build 6th order scheme -> yn for (k= 0; k < N; k++) { aF= 0.0; aNS= 0.0; for (j= 0; j < 9; j++) { aF+= b[j]*F[j][k]; aNS+= b[j]*NS[j][k]; } yn[k]= y[k]+ dt*aF + sqrtdt*aNS; } } #endif