I don't agree here. The quality of the results could be assessed in a objective manner. I would also be surprised if the algorithm found no patterns in random text. But if a suitable null hypothesis was constructed, you could test for significance, by a permutation test if necessary. Finding patterns in random stuff isn't a showstopper.
You could be right. But, the tests for significance would have to be based on some objective measure:
* For English text, the tests would be based on rules of human grammar and stuff.
* For DNA, the tests would probably have to be done in the lab, more than in the computer: Experiments would have to be set up to see if these divisions are useful for expressing traits in embryology, etc.
* Where would objective tests for "implying intelligence" (as a form of significance) come from? That would be a whole separate algorithm than the one for chunking up strings of data.
After working for decades to find such a definitive, objective test for intelligence, in general, ID has never come close to finding one. Not even SETI has such a test.
A few more points to consider and to reiterate:
The intention of this algorithm was not to demonstrate ID in DNA design. Its intention was merely to find patterns in the DNA, to see if it can be chunked up better. The title of this thread is, indeed, misleading. As is the title "DNA as the Repository of Intelligence" on the Dembski blog. (And, anyone on Dembski's blog who thinks otherwise is grasping at straws.)
Given its original intention, they might not have bothered testing it with random characters, because it would be a meaningless exercise in GIGO. (Of course, hypothetically, if the intention was really to infer design, then, obviously, testing with samples of randomness would very much matter.)
It was only 80% successful in the English text, where the correct positions of spaces was known by the operators. So, even if it were to be utilized as a test for intelligence, right off the bat, it would not be so perfect at it.
DNA is probably less organized than English text, but each of its "characters" is only 2-bits, which makes pattern-finding easier.
However, it will take more testing before we find out if these divisions it finds in DNA are useful or not. Since we can not determine if the divisions it finds in DNA are useful, right away, that makes it a poor choice for inferring ID.
My guess is that it will be
less than 100% successful at finding useful divisions in DNA, anyway. Rendering it more useless for judging ID.
Random characters could be any number of bits each (usually 8 or 16). This, initially makes it seem like pattern finding is hopeless. However...
My guess, and it is only a small-money bet, is that if they did run the algorithm on random strings of characters, it will succeed in chunking them. The numbers of chunks may be fewer than an English book or a strand of DNA. But, if the algorithm can still do it, then the claim that it, alone, can be used to infer design is ludicrous. Also,
the idea that its output is formed in such a way as to aid in testing for implied intelligence becomes ludicrous.
(So, perhaps my statement "If it finds patterns in random stuff, then you must dismiss the idea that the algorithm can determine design." was oversimplified.)
It also is worth reiterating that this program is
NOT a useless tool, given its original intention. I am quite sure computers can aid in determining the chunking of DNA strands quite nicely. However, it would be useless to think such a tool could also be used to imply hints of a designer.
And on another subject mentioned in this thread:
No one has really found any statistically significant codes in the Bible Code. The math used to fool those who claimed otherwise was always very shaky. You can read about that, here:
http://skepdic.com/bibcode.html
Or look up stuff written about it by David E. Thomas.
