HOW TO CREATE TSUNAMI MODEL

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meoui 2024-5-17

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https://ww2.mathworks.cn/matlabcentral/answers/2119741-how-to-create-tsunami-model

移动：Sam Chak 2024-5-17

be discovered:

A = 5

X = 0 - 600

t = 0 - 60 minute

long = 0,5 - 30 kilometers

count the lamda, sigma and plot psi

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Sam Chak 2024-5-17

移动：Sam Chak 2024-5-17

在 MATLAB Online 中打开

Hi @Fadilla Neisa

Looking for this?

%% Tsunami model

syms L H depthratio g positive

syms x t w T R U(x)

L1 = depthratio*L;

L2 = L;

h1 = depthratio*H;

h2 = H;

h(x) = x*H/L;

c1 = sqrt(g*h1);

c2 = sqrt(g*h2);

u(x,t) = U(x)*exp(1i*w*t);

u1(x,t) = T*exp(1i*w*(t + x/c1));

u2(x,t) = exp(1i*w*(t + x/c2)) + R*exp(1i*w*(t - x/c2));

wavePDE(x,t) = diff(u, t, t) - g*diff(h(x)*diff(u, x), x);

slopeODE(x) = wavePDE(x, 0);

U(x) = dsolve(slopeODE);

Const = setdiff(symvar(U), sym([depthratio, g, H, L, x, w]));

du1(x) = diff(u1(x, 0), x);

du2(x) = diff(u2(x, 0), x);

dU(x) = diff(U(x), x);

eqs = [ U(L1) == u1(L1, 0), U(L2) == u2(L2, 0),...

dU(L1) == du1(L1), dU(L2) == du2(L2)];

unknowns = [Const(1), Const(2), R, T];

[Cvalue1, Cvalue2, R, T] = solve(eqs, unknowns);

U(x) = subs(U(x), {Const(1), Const(2)}, {Cvalue1, Cvalue2});

%% Parameters

g = 9.81;

L = 2;

H = 1;

depthratio = 0.04;

h1 = depthratio*H;

h2 = H;

L1 = depthratio*L;

L2 = L;

c1 = sqrt(g*h1);

c2 = sqrt(g*h2);

A = 0.3;

%% incoming soliton wave

soliton = @(x,t) A.*sech(sqrt(3/4*g*A/H)*(x/c2+t)).^2;

%% creating time scale and sample points

Nt = 64;

TimeScale = 40*sqrt(4/3*H/A/g);

W = [0, 1:Nt/2 - 1, -(Nt/2 - 1):-1]'*2*pi/TimeScale;

Nx = 100;

x_min = L1 - 4;

x_max = L2 + 12;

X12 = linspace(L1, L2, Nx); % slope region

X1 = linspace(x_min, L1, Nx); % shallow water region

X2 = linspace(L2, x_max, Nx); % deep water region

%% Fourier transform of the incoming soliton

S = fft(soliton(- 0.8*TimeScale*c2, linspace(0, TimeScale, 2*(Nt/2) - 1)))';

S = repmat(S, 1, Nx);

%% Construct a traveling wave solution based on S

soliton = real(ifft(S.*exp(1i*W*X2/c2)));

%% Construct a reflected wave

R = double(subs(subs(vpa(subs(R)), w, W), x ,X2));

R(1,:) = double((1 - sqrt(depthratio)) / (1 + sqrt(depthratio)));

reflectedWave = real(ifft(S.*R.*exp(-1i*W*X2/c2)));

%% Construct a transmitted wave

T = double(subs(subs(vpa(subs(T)), w, W), x, X1));

T(1,:) = double(2/(1+sqrt(depthratio)));

transmittedWave = real(ifft(S.*T.*exp(1i*W*X1/c1)));

%% Construct the wave at the slope region

U12 = double(subs(subs(vpa(subs(U(x))), w, W), x, X12));

U12(1,:) = double(2/(1 + sqrt(depthratio)));

U12 = real(ifft(S.*U12));

%% Plot the Solution

soliton = interpft(soliton, 10*Nt);

reflectedWave = interpft(reflectedWave, 10*Nt);

U12 = interpft(U12, 10*Nt);

transmittedWave = interpft(transmittedWave, 10*Nt);

figure('Visible', 'on');

plot([x_min, L1, L2, x_max], [-h1, -h1, -h2, -h2], 'linewidth', 2, 'Color', '#BEA256')

axis([x_min, x_max, -H-0.1, 0.6]), grid on

hold on

line1 = plot(X1, transmittedWave(1,:), 'linewidth', 4, 'Color', '#8CD0E1');

line12 = plot(X12, U12(1,:), 'linewidth', 3, 'Color', '#2AA7C0');

line2 = plot(X2, soliton(1,:) + reflectedWave(1,:), 'linewidth', 2, 'Color', '#0A7B88');

text(6, -0.6, 'Deep Water region')

for t = 2:size(soliton, 1)*0.35

line1.YData = transmittedWave(t,:);

line12.YData = U12(t,:);

line2.YData = soliton(t,:) + reflectedWave(t,:);

pause(0.1)

end

meoui 2024-5-17

移动：Sam Chak 2024-5-17

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