Why does the SQRT function or ^0.5 function return negative values in MATLAB?

조회 수: 14 (최근 30일)
Brando Miranda
Brando Miranda 2016년 5월 21일
댓글: Brando Miranda 2016년 5월 22일
I am taking square roots and MATLAB is returning, negative values, why is this?
Let me show you the maths and the script that is doing this.
I was implementing the following compositional function (which in the end takes a sqrt of two POSITIVE or zero numbers):
in matlab and generating a lot of values using that function. It happens that when I generate a lot of values of that function, some are (strangely) negative. Why is that? It should never happen since its suppose to be the sqrt of two functions that are always positive because of the sum of two squares is always positive or zero.
The script is:
restoredefaultpath;clear;clc;clear;clc;
%%target function
f_target = struct('h', cell(2,2), 'f', cell(2,2));
h11 = @(A) (1/20)*(1*A(1) + 2*A(2))^4; % ( x1 + x2)
h12 = @(A) (1/10)*(3*A(1) + 4*A(2))^3;
h21 = @(A) (1/100)*(5*A(1) + 6*A(2))^2;
f_target(1,1).h = h11;
f_target(1,2).h = h12;
f_target(2,1).h = h21;
h13 = @(A) (1/20)*(1*A(1) + 2*A(2))^4; % ( x1 + x2)
h14 = @(A) (1/10)*(3*A(1) + 4*A(2))^3;
h22 = @(A) (1/100)*(5*A(1) + 6*A(2))^2;
f_target(1,3).h = h13;
f_target(1,4).h = h14;
f_target(2,2).h = h22;
%h31 = @(A) (1/1)*(A(1) + (1/100)*A(2) + 1)^0.5;
h31 = @(A) (1/500)*sqrt(A(1) + (1/100)*A(2) + 1);
f_target(3,1).h = h31;
% f_target(1,1).f_4D = @f_4D;
% f_target(1,1).f_8D = @f_8D;
% f_target(1,1).f_8D_hard_code = @f_8D_hard_code;
f_target(1,1).f = @f_8D_hard_code;
%%make data set
sigpower = 'measured';
powertype = 'linear';
snr = 8;
low_x = -2;
high_x = 2;
nb_samples = 100000; %100,000
D = 8;
[X,Y] = generate_data_from_function( f_target, snr, low_x,high_x, nb_samples, sigpower, powertype, D);
D = size(X,2);
D_out = size(Y,2);
sum(Y < 0)
save('f8D_all_data_set')
beep;
and the coded function is:
function [ f_val ] = f_8D_hard_code( x, f_target )
%compute left
h(1,1).val = f_target(1,1).h(x(1:2));
h(1,2).val = f_target(1,2).h(x(3:4));
h(2,1).val = f_target(2,1).h( [h(1,1).val, h(1,2).val] );
%compute right
h(1,3).val = f_target(1,3).h(x(5:6));
h(1,4).val = f_target(1,4).h(x(7:8));
h(2,2).val = f_target(2,2).h( [h(1,3).val, h(1,4).val] );
%compute all
h(3,1).val = f_target(3,1).h( [h(2,1).val, h(2,2).val] );
f_val = h(3,1).val;
end
and the generation data function is:
function [ X, Y ] = generate_data_from_function( f_target, snr, low_x,high_x, nb_samples, sigpower, powertype, D)
% sigpower = usually 'measured', powertype = usually 'linear'
X = low_x + (high_x - low_x) * rand(nb_samples,D);
Y = zeros(nb_samples,1); % (N x 1)
for n = 1:nb_samples
xn = X(n,:);
fx = f_target(1,1).f( xn, f_target );
yn = awgn(fx,snr,sigpower, powertype);
Y(n,:) = yn;
end
end
  댓글 수: 1
Image Analyst
Image Analyst 2016년 5월 22일
편집: Image Analyst 2016년 5월 22일
Note: code above requires the Communications System Toolbox. (So I can't run it.)

댓글을 달려면 로그인하십시오.

이 질문에 답변하려면 로그인하십시오.

채택된 답변

Walter Roberson
Walter Roberson 2016년 5월 22일
?? What does this have to do with sqrt() ??
You are calling awgn . awgn is Gaussian, which is normally distributed, so it has indefinite tails in both directions. So for any given mean and sigma, there is a finite probability that it will generate a negative value.

추가 답변 (0개)

카테고리

Help CenterFile Exchange에서 Communications Toolbox에 대해 자세히 알아보기

태그

제품

Community Treasure Hunt

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

Start Hunting!

Translated by