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view +sbp/+implementations/d4_variable_6_min_boundary_points.m @ 318:99005a80b4c2 feature/beams

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Cleaned up d4_variable_4_min_boundary. Removed incorrect D2s from a bunch of files.
author Jonatan Werpers <jonatan@werpers.com>
date Mon, 26 Sep 2016 08:44:17 +0200
parents 203afa156f59
children fc91e3a2d44a
line wrap: on
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function [H, HI, D1, D2, D4, e_l, e_r, M4, d2_l, d2_r, d3_l, d3_r, d1_l, d1_r] = d4_variable_6_min_boundary_points(m,h)
    %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
    %%% 6:te ordn. SBP Finita differens         %%%
    %%% operatorer med diagonal norm            %%%
    %%% Extension to variable koeff             %%%
    %%%                                         %%%
    %%% H           (Normen)                    %%%
    %%% D1=H^(-1)Q  (approx f?rsta derivatan)   %%%
    %%% D2          (approx andra derivatan)    %%%
    %%% D2=HI*(R+C*D*S                          %%%
    %%%                                         %%%
    %%% R=-D1'*H*C*D1-RR                        %%%
    %%%                                         %%%
    %%% RR ?r dissipation)                      %%%
    %%% Dissipationen uppbyggd av D4:           %%%
    %%% DI=D4*B*H*D4                            %%%
    %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

    % H?r med 6 RP ist?llet f?r 8 f?r D4 operatorn, dock samma randderivator

    H = diag(ones(m,1),0);
    H(1:6,1:6) = diag([13649/43200,12013/8640,2711/4320,5359/4320,7877/8640, 43801/43200]);
    H(m-5:m,m-5:m) = fliplr(flipud(diag([13649/43200,12013/8640, 2711/4320,5359/4320,7877/8640,43801/43200])));

    e_1 = zeros(m,1);e_1(1)=1;
    e_m = zeros(m,1);e_m(m)=1;

    S_U = [-25/12, 4, -3, 4/3, -1/4]/h;
    S_1 = zeros(1,m);
    S_1(1:5) = S_U;
    S_m = zeros(1,m);
    S_m(m-4:m) = fliplr(-S_U);

    S2_U = [0.35e2/0.12e2 -0.26e2/0.3e1 0.19e2/0.2e1 -0.14e2/0.3e1 0.11e2/0.12e2;]/h^2;
    S2_1 = zeros(1,m);
    S2_1(1:5) = S2_U;
    S2_m = zeros(1,m);
    S2_m(m-4:m) = fliplr(S2_U);

    S3_U = [-0.5e1/0.2e1 9 -12 7 -0.3e1/0.2e1;]/h^3;
    S3_1 = zeros(1,m);
    S3_1(1:5) = S3_U;
    S3_m = zeros(1,m);
    S3_m(m-4:m) = fliplr(-S3_U);


    x1=0.70127127127127;


    D1=(1/60*diag(ones(m-3,1),3)-9/60*diag(ones(m-2,1),2)+45/60*diag(ones(m-1,1),1)-45/60*diag(ones(m-1,1),-1)+9/60*diag(ones(m-2,1),-2)-1/60*diag(ones(m-3,1),-3));

    D1(1:6,1:9) = [
        -21600/13649, 43200/13649*x1-7624/40947, -172800/13649*x1+   715489/81894, 259200/13649*x1-187917/13649, -172800/13649*   x1+735635/81894, 43200/13649*x1-89387/40947, 0, 0, 0;
         -8640/12013*x1+7624/180195, 0, 86400/12013*x1-57139/12013,  -172800/12013*x1+745733/72078, 129600/12013*x1-91715/12013,  -34560/12013*x1+240569/120130, 0, 0, 0;
          17280/2711*x1-715489/162660, -43200/2711*x1+57139/5422, 0,   86400/2711*x1-176839/8133, -86400/2711*x1+242111/10844,   25920/2711*x1-182261/27110, 0, 0, 0;
         -25920/5359*x1+187917/53590, 86400/5359*x1-745733/64308,  -86400/5359*x1+176839/16077, 0, 43200/5359*x1-165041/32154,  -17280/5359*x1+710473/321540, 72/5359, 0, 0;
          34560/7877*x1-147127/47262, -129600/7877*x1+91715/7877,   172800/7877*x1-242111/15754, -86400/7877*x1+165041/23631,   0, 8640/7877*x1, -1296/7877, 144/7877, 0;
         -43200/43801*x1+89387/131403, 172800/43801*x1-240569/87602, -259200/43801*x1+182261/43801, 172800/43801*x1-710473/262806,  -43200/43801*x1, 0, 32400/43801, -6480/43801, 720/43801
    ];
    D1(m-5:m,m-8:m) = flipud( fliplr(-D1(1:6,1:9)));
    D1 = D1/h;


    H = h*H;
    HI = inv(H);


    D2 = [];

    % Fourth derivative, 1th order accurate at first 8 boundary points (still
    % yield 5th order convergence if stable: for example u_tt=-u_xxxx

    m4 = 7/240;
    m3 = -2/5;
    m2 = 169/60;
    m1 = -122/15;
    m0 = 91/8;

    M4=m4*(diag(ones(m-4,1),4)+diag(ones(m-4,1),-4))+m3*(diag(ones(m-3,1),3)+diag(ones(m-3,1),-3))+m2*(diag(ones(m-2,1),2)+diag(ones(m-2,1),-2))+m1*(diag(ones(m-1,1),1)+diag(ones(m-1,1),-1))+m0*diag(ones(m,1),0);

    %M4=(-1/6*(diag(ones(m-3,1),3)+diag(ones(m-3,1),-3) ) + 2*(diag(ones(m-2,1),2)+diag(ones(m-2,1),-2)) -13/2*(diag(ones(m-1,1),1)+diag(ones(m-1,1),-1)) + 28/3*diag(ones(m,1),0));

    M4_U=[
        0.3504379e7/0.907200e6 -0.4613983e7/0.453600e6 0.4260437e7/0.453600e6 -0.418577e6/0.113400e6 0.524579e6/0.907200e6 0.535e3/0.18144e5;
        -0.4613983e7/0.453600e6 0.5186159e7/0.181440e6 -0.81121e5/0.2835e4 0.218845e6/0.18144e5 -0.159169e6/0.90720e5 -0.94669e5/0.907200e6;
        0.4260437e7/0.453600e6 -0.81121e5/0.2835e4 0.147695e6/0.4536e4 -0.384457e6/0.22680e5 0.339653e6/0.90720e5 -0.18233e5/0.113400e6;
        -0.418577e6/0.113400e6 0.218845e6/0.18144e5 -0.384457e6/0.22680e5 0.65207e5/0.4536e4 -0.22762e5/0.2835e4 0.1181753e7/0.453600e6;
        0.524579e6/0.907200e6 -0.159169e6/0.90720e5 0.339653e6/0.90720e5 -0.22762e5/0.2835e4 0.2006171e7/0.181440e6 -0.3647647e7/0.453600e6;
        0.535e3/0.18144e5 -0.94669e5/0.907200e6 -0.18233e5/0.113400e6 0.1181753e7/0.453600e6 -0.3647647e7/0.453600e6 0.10305271e8/0.907200e6;
    ];

    M4(1:6,1:6) = M4_U;

    M4(m-5:m,m-5:m) = flipud( fliplr( M4_U ) );
    M4 = M4/h^3;

    D4 = HI*(M4-e_1*S3_1+e_m*S3_m  + S_1'*S2_1-S_m'*S2_m);

end