Clear Filters
Clear Filters

Multivariate Newthon's Method

1 view (last 30 days)
Ibai Ostolozaga Falcon
Ibai Ostolozaga Falcon on 11 Jun 2024
Commented: Ibai Ostolozaga Falcon on 12 Jun 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!

Sign in to answer this question.

Answers (1)

Nipun
Nipun on 12 Jun 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 Comment
Ibai Ostolozaga Falcon
Ibai Ostolozaga Falcon on 12 Jun 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

Sign in to comment.

Categories

Find more on Linear Programming and Mixed-Integer Linear Programming in Help Center and File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!