memory scheme
Scaling Properties of Coarse-Coded Symbol Memories
Rosenfeld, Ronald, Touretzky, David S.
DCPS' memory scheme is a modified version of the Random Receptors method [5]. The symbol space is the set of all triples over a 25 letter alphabet. Units have fixed-size receptive fields organized as 6 x 6 x 6 subspaces. Patterns are manipulated to minimize the variance in pattern size across symbols.
- North America > United States > Pennsylvania > Allegheny County > Pittsburgh (0.14)
- North America > United States > California > Los Angeles County > Los Angeles (0.14)
- North America > United States > Ohio (0.04)
- (3 more...)
Scaling Properties of Coarse-Coded Symbol Memories
Rosenfeld, Ronald, Touretzky, David S.
DCPS' memory scheme is a modified version of the Random Receptors method [5]. The symbol space is the set of all triples over a 25 letter alphabet. Units have fixed-size receptive fields organized as 6 x 6 x 6 subspaces. Patterns are manipulated to minimize the variance in pattern size across symbols.
- North America > United States > Pennsylvania > Allegheny County > Pittsburgh (0.14)
- North America > United States > California > Los Angeles County > Los Angeles (0.14)
- North America > United States > Ohio (0.04)
- (3 more...)
Scaling Properties of Coarse-Coded Symbol Memories
Rosenfeld, Ronald, Touretzky, David S.
DCPS' memory scheme is a modified version of the Random Receptors method [5]. The symbol space is the set of all triples over a 25 letter alphabet. Units have fixed-size receptive fields organized as 6 x 6 x 6 subspaces. Patterns are manipulated to minimize the variance in pattern size across symbols.
- North America > United States > Pennsylvania > Allegheny County > Pittsburgh (0.14)
- North America > United States > California > Los Angeles County > Los Angeles (0.14)
- North America > United States > Ohio (0.04)
- (3 more...)