I'm trying to implement the gradient descent algorithm in Octave/Matlab. I'm at the point where I have this 201x201 matrix called errors
, which I would assume corresponds to a 2 input variables function f(x, y)
. The matrix gives a nice gradient image when displayed with imagesc
, but I am confused as to when I calculate [dx, dy] = gradient(errors)
. I obtain both dx
and dy
to be 2 dimensional matrices (201x201) instead of simple vectors. I would assume that, since we calculate the partial derivative in regards to x (resp. y), y (resp. x) so it would disappear from the result of the operation. I'm pretty sure I'm missing something, although I feel like I have a good enough understanding of how the gradient of a function works. Thank you in advance for you answer.
2
0
The gradient exists at a point. Your gradient
expression is evaluating the (numerical) gradient at all 201x201 points.
So for example, the gradient of errors
at the point (3,4)
is the vector [dx(3,4), dy(3,4)]
.
This example might help: https://www.mathworks.com/help/matlab/ref/gradient.html#bvhqkfr Notice how the information returned by gradient
is enough to plot the whole vector field of gradients.

Ok, nevermind, I was dumb and ignored the obvious. I know what to do from now on. Thank you. – Vlad Adrian Moglan Dec 2 '17 at 16:25