I got the wrong answer even my code is right. Please help!

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Hai Luu
Hai Luu am 8 Feb. 2020
Kommentiert: Walter Roberson am 17 Apr. 2020
--------------Main program---------------------------------
X = [ones(m, 1), data(:,1)]; % Add a column of ones to x
theta = zeros(2, 1); % initialize fitting parameters
% Some gradient descent settings
iterations = 1500;
alpha = 0.01;
fprintf('\nTesting the cost function ...\n')
% compute and display initial cost
J = computeCost(X, y, theta);
fprintf('With theta = [0 ; 0]\nCost computed = %f\n', J);
fprintf('Expected cost value (approx) 32.07\n');
--------------Calculating function J---------------------------------
function J = computeCost(X, y, theta)
m = length(y);
h = X * theta;
J = (1/(2*m))*(sum(h-y).^2);
end
-------------------Here is my result----------------------------------------
Testing the cost function ...
With theta = [0 ; 0]
Cost computed = 1653.631660------------------> my result
Expected cost value (approx) 32.07 ----------------> this is the right answer
With theta = [-1 ; 2]
Cost computed = 4359.141958------------------->my result
Expected cost value (approx) 54.24----------------->this is the right answer
------------------------------------------------------------
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supun dassanayake
supun dassanayake am 17 Apr. 2020
Bearbeitet: Walter Roberson am 17 Apr. 2020
The X val are:-
X = [
1.00 6.11
1.00 5.53
1.00 8.52
1.00 7.00
1.00 5.86
1.00 8.38
1.00 7.48
1.00 8.58
1.00 6.49
1.00 5.05
1.00 5.71
1.00 14.16
1.00 5.73
1.00 8.41
1.00 5.64
1.00 5.38
1.00 6.37
1.00 5.13
1.00 6.43
1.00 7.07
1.00 6.19
1.00 20.27
1.00 5.49
1.00 6.33
1.00 5.56
1.00 18.95
1.00 12.83
1.00 10.96
1.00 13.18
1.00 22.20
1.00 5.25
1.00 6.59
1.00 9.25
1.00 5.89
1.00 8.21
1.00 7.93
1.00 8.10
1.00 5.61
1.00 12.84
1.00 6.35
1.00 5.41
1.00 6.88
1.00 11.71
1.00 5.77
1.00 7.82
1.00 7.09
1.00 5.07
1.00 5.80
1.00 11.70
1.00 5.54
1.00 7.54
1.00 5.31
1.00 7.42
1.00 7.60
1.00 6.33
1.00 6.36
1.00 6.27
1.00 5.64
1.00 9.31
1.00 9.45
1.00 8.83
1.00 5.18
1.00 21.28
1.00 14.91
1.00 18.96
1.00 7.22
1.00 8.30
1.00 10.24
1.00 5.50
1.00 20.34
1.00 10.14
1.00 7.33
1.00 6.01
1.00 7.23
1.00 5.03
1.00 6.55
1.00 7.54
1.00 5.04
1.00 10.27
1.00 5.11
1.00 5.73
1.00 5.19
1.00 6.36
1.00 9.77
1.00 6.52
1.00 8.52
1.00 9.18
1.00 6.00
1.00 5.52
1.00 5.06
1.00 5.71
1.00 7.64
1.00 5.87
1.00 5.31
1.00 8.29
1.00 13.39
1.00 5.44];
Y:-
Y = [
17.59
9.13
13.66
11.85
6.82
11.89
4.35
12.00
6.60
3.82
3.25
15.51
3.16
7.23
0.72
3.51
5.30
0.56
3.65
5.39
3.14
21.77
4.26
5.19
3.08
22.64
13.50
7.05
14.69
24.15
-1.22
6.00
12.13
1.85
6.54
4.56
4.12
3.39
10.12
5.50
0.56
3.91
5.39
2.44
6.73
1.05
5.13
1.84
8.00
1.02
6.75
1.84
4.29
5.00
1.42
-1.42
2.48
4.60
3.96
5.41
5.17
-0.74
17.93
12.05
17.05
4.89
5.74
7.78
1.02
20.99
6.68
4.03
1.28
3.34
-2.68
0.30
3.88
5.70
6.75
2.06
0.48
0.20
0.68
7.54
5.34
4.24
6.80
0.93
0.15
2.82
1.85
4.30
7.20
1.99
0.14
9.06
0.62];
Walter Roberson
Walter Roberson am 17 Apr. 2020
That is the data we already had.

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supun dassanayake
supun dassanayake am 17 Apr. 2020
hai.
I am fasing the same problem.
Can you help me to solve this problem
please..

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