Magnocellular Pathway for Rotation Invariant Neocognitron
In the mammalian visual system, magnocellular pathway and parvocellular pathway cooperatively process visual information in parallel. The magnocellular pathway is more global and less particular about the details while the parvocellular pathway recognizes objects based on the local features. In many...
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1993
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sg-smu-ink.lkcsb_research-17742010-09-23T06:24:04Z Magnocellular Pathway for Rotation Invariant Neocognitron TING, Hian Ann, Christopher In the mammalian visual system, magnocellular pathway and parvocellular pathway cooperatively process visual information in parallel. The magnocellular pathway is more global and less particular about the details while the parvocellular pathway recognizes objects based on the local features. In many aspects, Neocognitron may be regarded as the artificial analogue of the parvocellular pathway. It is interesting then to model the magnocellular pathway. In order to achieve rotation invariance for Neocognitron, we propose a neural network model after the magnocellular pathway and expand its roles to include surmising the orientation of the input pattern prior to recognition. With the incorporation of the magnocellular pathway, a basic shift in the original paradigm has taken place. A pattern is now said to be recognized when and only when one of the winners of the magnocellular pathway is validified by the parvocellular pathway. We have implemented the magnocellular pathway coupled with Neocognitron parallel on transputers; our simulation programme is now able to recognize numerals in arbitrary orientation. 1993-01-01T08:00:00Z text https://ink.library.smu.edu.sg/lkcsb_research/775 info:doi/10.1142/S0129065793000067 Research Collection Lee Kong Chian School Of Business eng Institutional Knowledge at Singapore Management University Business |
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Business TING, Hian Ann, Christopher Magnocellular Pathway for Rotation Invariant Neocognitron |
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In the mammalian visual system, magnocellular pathway and parvocellular pathway cooperatively process visual information in parallel. The magnocellular pathway is more global and less particular about the details while the parvocellular pathway recognizes objects based on the local features. In many aspects, Neocognitron may be regarded as the artificial analogue of the parvocellular pathway. It is interesting then to model the magnocellular pathway. In order to achieve rotation invariance for Neocognitron, we propose a neural network model after the magnocellular pathway and expand its roles to include surmising the orientation of the input pattern prior to recognition. With the incorporation of the magnocellular pathway, a basic shift in the original paradigm has taken place. A pattern is now said to be recognized when and only when one of the winners of the magnocellular pathway is validified by the parvocellular pathway. We have implemented the magnocellular pathway coupled with Neocognitron parallel on transputers; our simulation programme is now able to recognize numerals in arbitrary orientation. |
| format |
text |
| author |
TING, Hian Ann, Christopher |
| author_facet |
TING, Hian Ann, Christopher |
| author_sort |
TING, Hian Ann, Christopher |
| title |
Magnocellular Pathway for Rotation Invariant Neocognitron |
| title_short |
Magnocellular Pathway for Rotation Invariant Neocognitron |
| title_full |
Magnocellular Pathway for Rotation Invariant Neocognitron |
| title_fullStr |
Magnocellular Pathway for Rotation Invariant Neocognitron |
| title_full_unstemmed |
Magnocellular Pathway for Rotation Invariant Neocognitron |
| title_sort |
magnocellular pathway for rotation invariant neocognitron |
| publisher |
Institutional Knowledge at Singapore Management University |
| publishDate |
1993 |
| url |
https://ink.library.smu.edu.sg/lkcsb_research/775 |
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1770569685267382272 |