Queries on Quantization input

1 view (last 30 days)
Derick Wong
Derick Wong on 31 Dec 2013
Edited: Derick Wong on 1 Jan 2014
Does anyone understand the input of this code ? does the vect represent a matrix and how do i determine the input for bits?
function [levelNumbers,scaling] = quantization(vect,bits)
%...'levelNumbers' contains the index of the quantization value
%...'scaling' contains 2 values, the lowest quant. value and delta
[M,N] = size(vect);
if (M>1)
vect = vect';
end
range = max(vect)-min(vect);
delta = roundVal(range/2^(bits));
levels = 2^bits;
base = roundVal(min(vect));
%quantValues = [base : delta : roundVal(max(vect)-delta)]' + delta/2;
quantValues = [base : delta : roundVal(max(vect)-delta)]';
inputArray = repmat(vect , length(quantValues), 1 );
quantArray = repmat(quantValues, 1 , length(vect));
quantDiff = abs(inputArray-quantArray);
[Y,I] = min(quantDiff);
quantResults=quantArray(I);
for i=1:length(quantResults)
levelNumbers(i) = find(quantResults(i)==quantValues);
end
scaling = [base, delta];
if length(quantResults)==0
levelNumbers=ones(1,length(vect));
end
function newVal = roundVal(num)
num = num*1e4;
num = round(num);
newVal = num*1e-4;

Sign in to answer this question.

Answers (1)

Walter Roberson
Walter Roberson on 31 Dec 2013
The vect must be a vector, but it can be row order or column order.
The number of bits would be as appropriate for your purposes. 1 bit if you want 2 quantization levels, 2 bits if you want 4 levels, 3 bits if you want 8 levels, and so on.
  3 Comments
Show 1 older comment
Walter Roberson
Walter Roberson on 31 Dec 2013
You can reshape() your matrix into a vector before passing it in.
The number of levels you need is not directly related to the matrix; it is based upon your purpose in quantizing. Which you have not happened to mention
Derick Wong
Derick Wong on 1 Jan 2014
Edited: Derick Wong on 1 Jan 2014
My purpose is to do compression. I had to do a compression by going through DCT(discrete cosine transformation) follow by quantization. I have a matrix of
[x1 x2 x3 x4 ... xm
y1 y2 y3 y4 ... ym
z1 z2 z3 z4 ... zm]
In fact there are n rows as well. Initially I used round() as a form of quantization , but now I need to do a inverse quantization which needed me to use this quantization code and another inverse quantization code.

Sign in to comment.

Categories

Find more on Cast and Quantize Data in Help Center and File Exchange

Tags

Community Treasure Hunt

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

Start Hunting!