Multivariate Newthon's Method

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Ibai Ostolozaga Falcon
Ibai Ostolozaga Falcon il 11 Giu 2024
Dear All,
I am trying to solve a multivariate function by using the Newthon's Method. However, I get an error message in the lwhen I run my code (exactly in newtons_method file), and I could not figure out what is going on. Here is the files that I am using:
%This file is the one that appears here: Multivariate Newton’s Method (newtons_method_n)
function [x,k,x_all] = newtons_method_n(f,J,x0,opts)
if (nargin < 4) || isempty(opts) || ~isfield(opts,'k_max')
k_max = 200;
else
k_max = opts.k_max;
end
if (nargin < 4) || isempty(opts) || ~isfield(opts,'return_all')
return_all = false;
else
return_all = opts.return_all;
end
if (nargin < 4) || isempty(opts) || ~isfield(opts,'TOL')
TOL = 1e-10;
else
TOL = opts.TOL;
end
n = length(x0);
if f(x0) == zeros(n,1)
x = x0;
return
end
x_curr = x0;
x_next = zeros(n,1);
if return_all
x_all = zeros(n,k_max+1);
end
for k = 1:k_max
if return_all
x_all(:,k) = x_curr;
end
y = J(x_curr)\(-f(x_curr));
x_next = x_curr+y;
if (norm(y) < TOL)
break;
end
x_curr = x_next;
end
x = x_next;
if return_all
x_all(:,k+1) = x;
x_all = x_all(:,1:(k+1));
end
end
This is the main.n file:
clear all
clc
% Global variables are only parameters which do not change
global a b theta t d n L Y g
load DATA
n = 19; % Number of countries
a = 0.134813590592666;
b = 0.21221;
theta = 8.28; % Shape of Pareto dist
relaw = aw./aw(n,1); % Relative wage to US
t = exp( b*(S+theta*(log(relaw))) ); % Technology: see Table VI
d = D; % Geographic barriers dni^(-theta)
L = l; % Labor
Y = y; % Income
elast = 0.1; % Elasticity of wage adjustment
% Gamma constant (as in the original code)
g = (b^(-b))*((1-b)^(-(1-b)));
g = g^(theta);
disp('Newton iterative procedure starts here')
w = aw; % Set initial wages at data
% Set bounds (implied by the model) for prices
pbounds = bounds(w);
p0 = 0.5*(pbounds(:,1)+pbounds(:,2)); % Half way between min and max
[pval,fval] = newtons_method(@(p) prices(p,w),p0);
And finally the prices.m file:
function [fval,fjac] = prices(p,w)
global b theta t d n g
aux1 = g*t.*(w.^(-theta*b));
aux2 = repmat(aux1,1,n)';
G = d.*aux2;
fval = G\p -p.^(1-b);
fjac = inv(G) - (1-b)*diag(p.^(-b));
With all this on hand, any idea about why is there an error?
Thank you in advanced!

Risposte (1)

Nipun
Nipun il 12 Giu 2024
Hi Ibai,
I understand that you are encountering an error when running your Newton's Method code for solving a multivariate function. The error likely occurs due to a mismatch between the function signature in your main script and the actual function definition for newtons_method_n. Specifically, newtons_method_n requires both the function and its Jacobian as inputs, but you are passing only the function handle prices.
Here is the corrected code for your main script:
clear all
clc
% Global variables are only parameters which do not change
global a b theta t d n L Y g
load DATA
n = 19; % Number of countries
a = 0.134813590592666;
b = 0.21221;
theta = 8.28; % Shape of Pareto dist
relaw = aw./aw(n,1); % Relative wage to US
t = exp( b*(S+theta*(log(relaw))) ); % Technology: see Table VI
d = D; % Geographic barriers dni^(-theta)
L = l; % Labor
Y = y; % Income
elast = 0.1; % Elasticity of wage adjustment
% Gamma constant (as in the original code)
g = (b^(-b))*((1-b)^(-(1-b)));
g = g^(theta);
disp('Newton iterative procedure starts here')
w = aw; % Set initial wages at data
% Set bounds (implied by the model) for prices
pbounds = bounds(w);
p0 = 0.5*(pbounds(:,1)+pbounds(:,2)); % Half way between min and max
opts.k_max = 200;
opts.return_all = false;
opts.TOL = 1e-10;
% Define the function and its Jacobian
f = @(p) prices(p,w);
J = @(p) jacobian_prices(p,w);
[pval, k, x_all] = newtons_method_n(f, J, p0, opts);
For more information on functions and arguments in MATLAB, refer to the following MathWorks documentation: https://www.mathworks.com/help/matlab/ref/function.html
Hope this helps.
Regards,
Nipun
  1 Commento
Ibai Ostolozaga Falcon
Ibai Ostolozaga Falcon il 12 Giu 2024
Thank so much for your reply. Finally, I could manage to solve the problem but your answer is more than welcome! As I can observe from your respond, I've arrived to the same solution, because as you said "newtons_method_n requires both the function and its Jacobian as inputs, but you are passing only the function handle prices".
Thank you!
Ibai

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