From: Jim Choate <ravage@ssz.com>
To: cypherpunks@toad.com
Message Hash: 84e3d8caa803bc207e34255b11a72f6c7fb715dc85fb6ef9cff9b90c22800511
Message ID: <199602202224.QAA18587@einstein.ssz.com>
Reply To: N/A
UTC Datetime: 1996-02-21 04:14:27 UTC
Raw Date: Wed, 21 Feb 1996 12:14:27 +0800
From: Jim Choate <ravage@ssz.com>
Date: Wed, 21 Feb 1996 12:14:27 +0800
To: cypherpunks@toad.com
Subject: Chaotic physical systems as random number sources (fwd)
Message-ID: <199602202224.QAA18587@einstein.ssz.com>
MIME-Version: 1.0
Content-Type: text
Forwarded message:
> Date: Tue, 20 Feb 1996 14:47 EDT
> From: "E. ALLEN SMITH" <EALLENSMITH@ocelot.Rutgers.EDU>
> Subject: Chaotic physical systems as random number sources
>
> I'm curious if anyone knows of any attempts to use a chaotic physical
> system (such as the famous double pendulum) as a source of random numbers.
I have used magnetic pendulums for this as well as chaotic dripping (both
with an old C64).
> One problem that I can see is that of strange attractors. While the
> path through each time would be different, they're still _close_ to each other,
> and a practical mechanical system might not be sensitive enough to pick up the
> differences.
Not necessarily. In both the magentic pendulum and chaotic pendulums this is
not a problem.
Jim Choate
ravage@ssz.com
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1996-02-21 (Wed, 21 Feb 1996 12:14:27 +0800) - Chaotic physical systems as random number sources (fwd) - Jim Choate <ravage@ssz.com>