Gerard J Rinkus

20110047110, Feb 24, 2011

Aug 2, 2010

12/848401

Gerard J. Rinkus - Newton MA, US

G06N 3/02

706 18

The invention provides a computer-implemented chunking process (named “OP”) to assign and physically associate unique spatial representations (“chunk codes”) in one representational (coding) space (“chunk coding space”) with unique temporal sequences of spatial codes (“items”) in another coding space (“item coding space”). OP differs from all prior chunking processes in that, for any particular item sequence, it activates a unique chunk code for that sequence during presentation of that sequence's first item, even if other sequences from the input domain may begin with the same item.

20170169346, Jun 15, 2017

Dec 14, 2016

15/379388

Gerard John Rinkus - Newton MA, US

G06N 5/04
G06N 7/00
G06N 99/00

The invention is methods and apparatus for: a) performing nonlinear time warp invariant sequence recognition using a back-off procedure; and b) recognizing complex sequences, using physically embodied computer memories that represent information using a sparse distributed representational (SDR) format. Recognition of complex sequences often requires that multiple equally plausible hypotheses (multiple competing hypotheses, MCHs) can be simultaneously physically active in memory until disambiguating information arrives whereupon only hypotheses that are consistent with the new information are active. The invention is the first description of both back-off and MCH-handling methods in combination with representing information using a sparse distributed representation (SDR) format.