Hi all, It seems to me that people learn chess by watching, studying or playing games. Sometimes they learn the rules experientially like that as well. So, perhaps a way to teach NuPIC to learn chess is by simply feeding it the patterns of real games so it can learn those patterns. It might not need to have the actual rules encoded at all…
Regards, Dave -- http://about.me/david_wood > On Apr 14, 2015, at 09:56, Ralf Seliger <[email protected]> wrote: > > @Matt: > Well, that's what I call a coincidence! Nice piece of code, btw. You (or your > son) missed en passant and castling, however ;-) > > @Matt, @David: > SDR encoding of chess positions: I guess the real problem is capturing the > semantics. Imagine for instance all positions allowing "mate in one". Those > position will look wildly different from each other on the board, but would > have to have a similar SDR, wouldn't they? > > > Am 13.04.2015 um 20:52 schrieb David Ray: >> I have an idea for the encoding! >> >> How about this: >> 1. There are 32 different pieces, so you need 5 bits for a piece. (W) >> 2. There are 64 squares on a chess board, so you need 64 * 5 bits to be able >> to place any piece on any square. >> 3. Amend the above (#1) to have 6 bits - you need to encode a "empty" piece >> - making #2 64 * 6 bits. >> >> So now you can express the entire chess board with all pieces having a >> square plus missing piece squares (empty squares). You should probably have >> topography using 64 * 6 bits so you might have to fudge to get an even root >> by upping the number of bits encoding a piece? >> >> Does that make sense? >> >> Another option is to use a MultiEncoder with a GeoSpatial and scalar >> encoder inside. Make a dimple coordinate system for the 64 squares of the >> chess board. >> >> David >> >> Sent from my iPhone >> >>> On Apr 13, 2015, at 1:14 PM, Matthew Taylor <[email protected]> wrote: >>> >>>> On Mon, Apr 13, 2015 at 11:07 AM, Ralf Seliger <[email protected]> wrote: >>>> For an example have a look at https://web.chessclub.com which is a web >>>> interface to the Internet Chess Club servers written in JavaScript/jQuery >>>> (client) and node.js (server). >>> Wow, that looks familiar... I created this (client-only) chessboard >>> with my son while trying to teach him some programming concepts: >>> >>> http://rhyolight.github.io/chesster/ >>> https://github.com/rhyolight/chesster >>> >>> On another note, I'm interesting in figuring out how to encode the >>> state of a chessboard into an SDR so I can train a model on a database >>> of history chess games. >>> >>> --------- >>> Matt Taylor >>> OS Community Flag-Bearer >>> Numenta >>> >> > >
