How to get polynomial equation of polyfit?

Question

berk26092 2021년 12월 14일

0
링크

이 질문에 대한 바로 가기 링크

https://kr.mathworks.com/matlabcentral/answers/1610610-how-to-get-polynomial-equation-of-polyfit

댓글: Steven Lord 2021년 12월 14일

Hello. I have the following code and the data. I need to find the equation of the polynomial and write it on the graph. Also, I will be changing the x and y datas so, it needs to be specific for a set of datas. Thank you for your help! It will be appreciated!!

clc;
clear;
y = [4.0432,4.1073,4.0899,4.1319,4.2885,4.4305,4.5249,4.6172,4.6962,4.7235,4.5987,4.7927,4.895,4.9079];
x = [1999,2000,2001,2002,2003,2004,2005,2006,2007,2008,2009,2010,2011,2012];
pf = polyfit(x,y,2);%Calculating the corresponding polynomial function
disp('The coefficients of the desired polynomial:');
fprintf('%3.3f\n',pf) %Showing the coefficients of the fitted polynomial function
pv = polyval(pf,x);%Calculating the values of polynomial function at x's
disp('The values of polynomial at given set of x values:');
fprintf('\n %3.3f',pv)
scatter(x,y)
hold on
plot(x,pv)
hold off

댓글 수: 2
없음 표시없음 숨기기

Rik 2021년 12월 14일

You already have the vector with the coefficients. You are also aware of how to use fprintf, so the step to sprintf is minimal. What exactly is the output you would like?

berk26092 2021년 12월 14일

This is the simple linear regression line for my data and there is the equation of the line. I would like to find the equation of second order polynomial and show the equation on the figure as below.

댓글을 달려면 로그인하십시오.

이 질문에 답변하려면 로그인하십시오.

Answer 1

Mathieu NOE 2021년 12월 14일

1
링크

이 답변에 대한 바로 가기 링크

https://kr.mathworks.com/matlabcentral/answers/1610610-how-to-get-polynomial-equation-of-polyfit#answer_854780

MATLAB Online에서 열기

hello

my suggestion below :

the equation is given by the string eqn

code :

clc;
clear;
y = [4.0432,4.1073,4.0899,4.1319,4.2885,4.4305,4.5249,4.6172,4.6962,4.7235,4.5987,4.7927,4.895,4.9079];
x = [1999,2000,2001,2002,2003,2004,2005,2006,2007,2008,2009,2010,2011,2012];
% Fit a polynomial p of degree "degree" to the (x,y) data:
degree = 2;
p = polyfit(x,y,degree);
% Evaluate the fitted polynomial p and plot:
f = polyval(p,x);
eqn = poly_equation(flip(p)); % polynomial equation (string)
Rsquared = my_Rsquared_coeff(y,f); % correlation coefficient
figure(3);plot(x,y,'o',x,f,'-')
legend('data',eqn)
title(['Data fit - R squared = ' num2str(Rsquared)]);
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function Rsquared = my_Rsquared_coeff(data,data_fit)
    % R2 correlation coefficient computation
    
    % The total sum of squares
    sum_of_squares = sum((data-mean(data)).^2);
    
    % The sum of squares of residuals, also called the residual sum of squares:
    sum_of_squares_of_residuals = sum((data-data_fit).^2);
    
    % definition of the coefficient of correlation is
    Rsquared = 1 - sum_of_squares_of_residuals/sum_of_squares;
    
    
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function eqn = poly_equation(a_hat)
eqn = " y = "+a_hat(1);
for i = 2:(length(a_hat))
    if sign(a_hat(i))>0
        str = " + ";
    else
        str = " ";
    end
    if i == 2
        eqn = eqn+str+a_hat(i)+"*x";
    else
        eqn = eqn+str+a_hat(i)+"*x^"+(i-1)+" ";
    end
end
eqn = eqn+" ";
end
        

댓글 수: 4
이전 댓글 2개 표시이전 댓글 2개 숨기기

Mathieu NOE 2021년 12월 14일

MATLAB Online에서 열기

version 2

clc;
clear;
y = [4.0432,4.1073,4.0899,4.1319,4.2885,4.4305,4.5249,4.6172,4.6962,4.7235,4.5987,4.7927,4.895,4.9079];
x = [1999,2000,2001,2002,2003,2004,2005,2006,2007,2008,2009,2010,2011,2012];
% Fit a polynomial p of degree "degree" to the (x,y) data:
degree = 2;
p = polyfit(x,y,degree);
% Evaluate the fitted polynomial p and plot:
f = polyval(p,x);
eqn = sprintf('%f*Year^2+%f*Year+%f\n',p);
Rsquared = my_Rsquared_coeff(y,f); % correlation coefficient
figure(3);plot(x,y,'o',x,f,'-')
legend('data',eqn)
title(['Data fit - R squared = ' num2str(Rsquared)]);
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function Rsquared = my_Rsquared_coeff(data,data_fit)
    % R2 correlation coefficient computation
    
    % The total sum of squares
    sum_of_squares = sum((data-mean(data)).^2);
    
    % The sum of squares of residuals, also called the residual sum of squares:
    sum_of_squares_of_residuals = sum((data-data_fit).^2);
    
    % definition of the coefficient of correlation is
    Rsquared = 1 - sum_of_squares_of_residuals/sum_of_squares;
    
    
end
        

Steven Lord 2021년 12월 14일

MATLAB Online에서 열기

fprintf lets you automatically include the sign of the variable if you include the flag + in your format specifier. The leading + in the result is a little awkward looking, but the command itself is quite simple and you could post-process the string to trim a leading + and to replace x^1 and x^0 with x and nothing if desired.

coeffs = [3 -4 5];
powers = 2:-1:0;
s = sprintf('%+dx^%d', [coeffs; powers])
s = '+3x^2-4x^1+5x^0'
if s(1) == '+'
    s = s(2:end);
end
s = replace(s, 'x^1', 'x');
s = replace(s, 'x^0', '')
s = '3x^2-4x+5'