Re: [Perldl] radial power spectrum

[MARK BAKER]

Hey Craig,


[I'm not sure what you mean by, for example, "now we make a transformation for 
Mass to any power".]

so based on the position of each individual pixel and it's color compared to 
other pixels and there color...
we should be able to map transformations of different Dimensions , yet to do 
this simply we have to have
known mapping transformations of known Dimensions, then we should be able to 
derive 

mapping transformations of any dimension.
 
This Idea would change the pixel colors and pixel position to highlight 
different dimensional values. 

if you can send me a list of commonly used Astronomical dimensions that have 
been measured accurately 
from a image , I should be able to show you  a better explanation Mathematically


just send me a list of units like the "Spectral Power Density" used in  
Astronomical transformations



Cheers

-Mark




________________________________
 From: Craig DeForest <defor...@boulder.swri.edu>
To: MARK BAKER <mrbaker_m...@yahoo.com> 
Cc: Craig DeForest <defor...@boulder.swri.edu>; John Lapeyre 
<lapeyre.math1...@gmail.com>; ""Perldl@jach.hawaii.edu"" 
<perldl@jach.hawaii.edu> 
Sent: Wednesday, February 27, 2013 1:04 PM
Subject: Re: [Perldl] radial power spectrum
 

Mark, I'm not sure what you're getting at here.  The Transform module only does 
coordinate transformations on data sets.  It modifies vectors or images so that 
the components of the vector, or pixel indices of the image, have a different 
geometry than they originally did.  

An image, for example, is a collection of values taken at a regular grid of 
positions (X,Y): one pixel index is proportional to X position in the image, 
and the other pixel index is proportional to Y position in the image.  With 
Transform::map, you can resample the image so that the pixel indices are 
proportional to some other parameter (like distance from a particular point, or 
angle *around* that point).  

I'm not sure what you mean by, for example, "now we make a transformation for 
Mass to any power".

Cheers,
Craig



On Feb 27, 2013, at 1:44 PM, MARK BAKER <mrbaker_m...@yahoo.com> wrote:


>
>you Might have hinted on to something very big here ...
>I thought about this for a while , and here is what I have 
>
>if you have a know dimension that can be found threw image processing
>say  ([mass][length]^3[time]^-4[current]^-2)  and if you can find some other 
>dimensions 
>
>then you might be able to derive a image transform for each dimension 
>
>
>
>as a example voltage/resistance = current   so now you have the I (current) 
>dimension
>  resistance * capacitance = time   so now we have our T (time) dimension 
>
>speed of light / frequency = wave length  so now we have our L (length)) 
>dimension (1/time = frequency)
>and now  voltage * L^-2*T^3*I^1 = M so now we have our Mass dimension
>
>
>
>now we make a transformation for Mass to any power 
>
>now we make a transformation for Length to any power 
>now we make a transformation for Time to any power 
>now we make a transformation for current to any power
>
>
>by mixing those dimensions now now we can process a value for any 
>
>unit Dimension like the  Power spectral density = [Mass]*[Length]^2 * [Time]-2
>
>
>with this Idea you can calculate all 194481 value in string theory of the 
>image ...
>
>
>
>if you can find a few different transformations and can send them to me
>I would be happy to try to help build a multi-dimensional imaging engine ... 
>
>
>
>Perfect Blessing's
>-Mark
>
>
>"sometimes I think perl is alive".
>
>
>
>
>
>
>________________________________
> From: John Lapeyre <lapeyre.math1...@gmail.com>
>To: Craig DeForest <defor...@boulder.swri.edu>; "Perldl@jach.hawaii.edu" 
><perldl@jach.hawaii.edu> 
>Sent: Saturday, February 23, 2013 1:26 PM
>Subject: Re: [Perldl] radial power spectrum
> 
>
>
>Awesome. Thanks. Have fun!
>
>On 02/23/2013 09:52 PM, Craig DeForest wrote:
>> I fft rhem use PDL::Transform for the radial part. Periodic boundaries are 
>> your friend. Sorry for brief - on ski lift.
>>
>> (Mobile)
>>
>>
>> On Feb 23, 2013, at 11:40 AM, John Lapeyre <lapeyre.math1...@gmail.com> 
>> wrote:
>>
>>> Greetings,
>>>
>>> I want to compute the power spectral density of an image,
      and then
>>> integrate over the azimuth to get a radial (in wavelengh)
      spectral
>>> density. I wonder if anyone has code to do this ? I am
      trying to cook
>>> up something with rvals, and whichND, but I don't want to
      waste time
>>> if it is already coded.
>>>
>>> Thanks,
>>> John
>>>
>>>
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>
>
>
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