1994-04-21 - Re: What the heck is this? Optical noise encryption?

Header Data

From: SINCLAIR DOUGLAS N <sinclai@ecf.toronto.edu>
To: cort@ecn.purdue.edu
Message Hash: f4a4154d03b4c506cc3ef549b86f77a4585b351aeb2eee15dda04505c3936538
Message ID: <94Apr21.184723edt.3700@cannon.ecf.toronto.edu>
Reply To: <FAgjjWDCuKn8062yn@ecn.purdue.edu>
UTC Datetime: 1994-04-21 22:47:34 UTC
Raw Date: Thu, 21 Apr 94 15:47:34 PDT

Raw message

From: SINCLAIR  DOUGLAS N <sinclai@ecf.toronto.edu>
Date: Thu, 21 Apr 94 15:47:34 PDT
To: cort@ecn.purdue.edu
Subject: Re: What the heck is this? Optical noise encryption?
In-Reply-To: <FAgjjWDCuKn8062yn@ecn.purdue.edu>
Message-ID: <94Apr21.184723edt.3700@cannon.ecf.toronto.edu>
MIME-Version: 1.0
Content-Type: text/plain


> Strange attractors use feedback to "lock in".  I have used strange
> attractors to find special points in n-dimensional spaces.
If you want to "lock in", just use a regular attractor.  That'll
find your sink point directly.  A strange attractor will give you
the general area, but at a lot more effort.





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