Other than pre allocating the space, there is not a faster way to arrive at an exact solution. If approximations are ok, then you might be able to decompose the 32 filters into a set of linear combinations of a smaller number of filters, say eight. See for instance Steerable filters.

http://people.csail.mit.edu/billf/papers/steerpaper91FreemanAdelson.pdf

edit: here is a tool to help apply filters to images.

```
function FiltIm = ApplyFilterBank(im,filters)
%#function FiltIm = ApplyFilterBank(im,filters)
%#
%#assume im is a single layer image, and filters is a cell array
nFilt = length(filters);
maxsz = 0;
for i = 1:nFilt
maxsz = max(maxsz,max(size(filters{i})));
end
FiltIm = zeros(size(im,1), size(im,2), nFilt);
im = padimage(im,maxsz,'symmetric');
for i = 1:nFilt
FiltIm(:,:,i) = unpadimage(imfilter(im,filters{i}),maxsz);
end
function o = padimage(i,amnt,method)
%#function o = padimage(i,amnt,method)
%#
%#padarray which operates on only the first 2 dimensions of a 3 dimensional
%#image. (of arbitrary number of layers);
%#
%#String values for METHOD
%# 'circular' Pads with circular repetion of elements.
%# 'replicate' Repeats border elements of A.
%# 'symmetric' Pads array with mirror reflections of itself.
%#
%#if(amnt) is length 1, then pad all sides same amount
%#
%#if(amnt) is length 2, then pad y direction amnt(1), and x direction amnt(2)
%#
%#if(amnt) is length 4, then pad sides unequally with order LTRB, left top right bottom
if(nargin < 3)
method = 'replicate';
end
if(length(amnt) == 1)
o = zeros(size(i,1) + 2 * amnt, size(i,2) + 2* amnt, size(i,3));
for n = 1:size(i,3)
o(:,:,n) = padarray(i(:,:,n),[amnt,amnt],method,'both');
end
end
if(length(amnt) == 2)
o = zeros(size(i,1) + 2 * amnt(1), size(i,2) + 2* amnt(2), size(i,3));
for n = 1:size(i,3)
o(:,:,n) = padarray(i(:,:,n),amnt,method,'both');
end
end
if(length(amnt) == 4)
o = zeros(size(i,1) + amnt(2) + amnt(4), size(i,2) + amnt(1) + amnt(3), size(i,3));
for n = 1:size(i,3)
o(:,:,n) = padarray(padarray(i(:,:,n),[amnt(2), amnt(1)],method,'pre'),[amnt(4), amnt(3)],method,'post');
end
end
function o = unpadimage(i,amnt)
%#un does padimage
%#if length(amnt == 1), unpad equal on each side
%#if length(amnt == 2), first amnt is left right, second up down
%#if length(amnt == 4), then [left top right bottom];
switch(length(amnt))
case 1
sx = size(i,2) - 2 * amnt;
sy = size(i,1) - 2 * amnt;
l = amnt + 1;
r = size(i,2) - amnt;
t = amnt + 1;
b = size(i,1) - amnt;
case 2
sx = size(i,2) - 2 * amnt(1);
sy = size(i,1) - 2 * amnt(2);
l = amnt(1) + 1;
r = size(i,2) - amnt(1);
t = amnt(2) + 1;
b = size(i,1) - amnt(2);
case 4
sx = size(i,2) - (amnt(1) + amnt(3));
sy = size(i,1) - (amnt(2) + amnt(4));
l = amnt(1) + 1;
r = size(i,2) - amnt(3);
t = amnt(2) + 1;
b = size(i,1) - amnt(4);
otherwise
error('illegal unpad amount\n');
end
if(any([sx,sy] < 1))
fprintf('unpadimage newsize < 0, returning []\n');
o = [];
return;
end
o = zeros(sy, sx, size(i,3));
for n = 1:size(i,3)
o(:,:,n) = i(t:b,l:r,n);
end
```