Queries on Quantization input

Question

Derick Wong el 31 de Dic. de 2013

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Editada: Derick Wong el 1 de En. de 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;

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Answer 1

Walter Roberson el 31 de Dic. de 2013

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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.

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Walter Roberson el 31 de Dic. de 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 el 1 de En. de 2014

Editada: Derick Wong el 1 de En. de 2014

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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.

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