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From: RichD on 24 Jun 2010 23:39 On Jun 24, Edward Green <spamspamsp...(a)netzero.com> wrote: > > Strictly speaking, is there a difference betweem non-determinism > > and randomness (in a dynamic system)? > > The two sound synonymous to me. Did you have some > distinction in mind? Colloquially, they are synonymous. But it seems to me, there are places in the math literature where some kind of distinction exists. (I can't cite any off hand) I might add, 'non-deterministic' and 'unpredictable' are also often interchanged, but that's semantic and conceptual sloppiness. -- Rich
From: RichD on 24 Jun 2010 23:48 On Jun 24, Robert Israel <isr...(a)math.MyUniversitysInitials.ca> wrote: > > >Strictly speaking, is there a difference betweem non- > > >determinism and randomness (in a dynamic system)? > > >Strange attractors are associated with non-deterministic > >dynamical systems. > >As fas as I'm aware, this is not the case for random systems. > > So, the answer is yes! > > As far as I am aware, strange attractors are associated > with deterministic systems... A random discrete > system might have > X_{n+1} = f(X_n, R_n) where R_n form a sequence of > independent random variables with a given distribution. > On the other hand, a non-deterministic system could be > X_{n+1} = f(X_n, R_n) where R_n are arbitrary inputs (perhaps > subject to some constraints, but not assumed to follow > any particular probability distribution). That's more or less what I had in mind. A random system would be non-deterministic. Except I'm considering the function itself as a random variable. But does it make sense to say the arbitrary inputs to the non-deterministic system have no prob. distribution, if they are unknown and not repeatable? Isn't that simply ill-posed? -- Rich
From: Bill Taylor on 25 Jun 2010 01:41 On Jun 25, 8:00 am, RichD <r_delaney2...(a)yahoo.com> wrote: > Strictly speaking, is there a difference betweem non-determinism > and randomness (in a dynamic system)? This is not an answer to the question; but some wandering thoughts on related matters. Namely, what contexts ARE THERE in which non-deterministic and random are both (more or less) defined, but NOT equivalent? I can think of one right off. That is, in abstract machine theory. For finite, pushdown or linear-bounded machines, both random and non-deterministic can be clearly defined, and are different. Different theorems are true of them. Much more vaguely, in the interminable arguments about Free Will, claims are often made that conscious human behaviour is (in part) non-deterministic, or that it is (in part) random. And these are typically considered to have different meanings. But in math - what other contexts are there where the two are precisley defined, and different? -- Wondering Willy ** We do not say a stone is free ** merely because it is not in a cage.
From: Derek Holt on 25 Jun 2010 03:59 On 24 June, 21:00, RichD <r_delaney2...(a)yahoo.com> wrote: > Strictly speaking, is there a difference betweem non-determinism > and randomness (in a dynamic system)? > I would say that the difference is that a random system will generally have an associated probability distribution that governs the behaviour, whereas a non-deterministic system need not. With a non-deterministic computation you are generally interested in whether there exists a sequence of valid steps that successfully executes the computation, rather than estimating the probability that this will happen. For example, the "N" in "NP-complete" means non- deterministic, and (roughly) a problem is in NP if there exists a successful computational path of polynomially bounded length. Of course, you may also be interested in the probability of finding a solution using random methods, but that is a different issue. Derek Holt.
From: illywhacker on 25 Jun 2010 05:11
On Jun 24, 10:00 pm, RichD <r_delaney2...(a)yahoo.com> wrote: > Strictly speaking, is there a difference betweem non-determinism > and randomness (in a dynamic system)? Are you asking whether these words have different definitions in certain mathematical contexts (dynamical systems), or are you asking about dynamical systems in a physical sense? If you were to define what you mean by 'dynamical system', your question would probably already be answered. As far as I know, word 'random', although used in a mathematical context, is only strictly defined in the phrase 'random variable'. Otherwise its use is loose, as other answers suggest. If you are talking about physical systems, then these words have no empirical meaning at all. illywhacker; |