This sounds very cool! A lot like some of the work I was doing when I was working on Artificial Intelligence and Expert Systems in the 80s, combined with massive computational power. Awesome. Nice to see some of the stuff from 25 years ago coming back in a new form again. Of course, I can’t believe it’s been that long… the funny part is a lot of this went away as we moved to smaller computers that didn’t have the computational power of mainframes. Now, an average laptop has more computing power than mainframes did then, and we’re capable of building very powerful distributed systems that are even more powerful. But the simplicity of breaking things down into their very basic cellular structure and then being able to recombine them mathematically and THEN add natural language questioning ability is a really powerful thing.
The scientific and philosophical underpinnings of Wolfram Alpha are similar to those of the cellular automata systems he describes in his book, “A New Kind of Science” (NKS). Just as with cellular automata (such as the famous “Game of Life” algorithm that many have seen on screensavers), a set of simple rules and data can be used to generate surprisingly diverse, even lifelike patterns. One of the observations of NKS is that incredibly rich, even unpredictable patterns, can be generated from tiny sets of simple rules and data, when they are applied to their own output over and over again.
In fact, cellular automata, by using just a few simple repetitive rules, can compute anything any computer or computer program can compute, in theory at least. But actually using such systems to build real computers or useful programs (such as Web browsers) has never been practical because they are so low-level it would not be efficient (it would be like trying to build a giant computer, starting from the atomic level).
The simplicity and elegance of cellular automata proves that anything that may be computed — and potentially anything that may exist in nature — can be generated from very simple building blocks and rules that interact locally with one another. There is no top-down control, there is no overarching model. Instead, from a bunch of low-level parts that interact only with other nearby parts, complex global behaviors emerge that, for example, can simulate physical systems such as fluid flow, optics, population dynamics in nature, voting behaviors, and perhaps even the very nature of space-time. This is the main point of the NKS book in fact, and Wolfram draws numerous examples from nature and cellular automata to make his case.
But with all its focus on recombining simple bits of information and simple rules, cellular automata is not a reductionist approach to science — in fact, it is much more focused on synthesizing complex emergent behaviors from simple elements than in reducing complexity back to simple units. The highly synthetic philosophy behind NKS is the paradigm shift at the basis of Wolfram Alpha’s approach too. It is a system that is very much “bottom-up” in orientation.
Wolfram has created a set of building blocks for working with formal knowledge to generate useful computations, and in turn, by putting these computations together you can answer even more sophisticated questions and so on. It’s a system for synthesizing sophisticated computations from simple computations. Of course anyone who understands computer programming will recognize this as the very essence of good software design. But the key is that instead of forcing users to write programs to do this in Mathematica, Wolfram Alpha enables them to simply ask questions in natural language questions and then automatically assembles the programs to compute the answers they need.
via Wolfram Alpha Computes Answers To Factual Questions. This Is Going To Be Big..
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From the article, “Wolfram Alpha is built on hand-curated knowledge and expertise.”
Based on that data point alone, I predict this will not be very useful.
Incorrect. Many important genomic resources (Swissprot comes immediately to mind) are extensively hand curated, yet are essential foundations for most research. Wolfram alpha isn’t about searching for your favorite musician or internet meme.