Perception coordination network : a neuro framework for multimodal concept acquisition and binding
To simulate the concept acquisition and binding of different senses in the brain, a biologically inspired neural network model named perception coordination network (PCN) is proposed. It is a hierarchical structure, which is functionally divided into the primary sensory area (PSA), the primary senso...
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sg-ntu-dr.10356-1406232020-06-01T02:33:49Z Perception coordination network : a neuro framework for multimodal concept acquisition and binding Xing, You-Lu Shi, Xiao-Feng Shen, Fu-Rao Zhao, Jin-Xi Pan, Jing-Xin Tan, Ah-Hwee School of Computer Science and Engineering Engineering::Computer science and engineering Concept Acquisition and Binding Multimodal Learning To simulate the concept acquisition and binding of different senses in the brain, a biologically inspired neural network model named perception coordination network (PCN) is proposed. It is a hierarchical structure, which is functionally divided into the primary sensory area (PSA), the primary sensory association area (SAA), and the higher order association area (HAA). The PSA contains feature neurons which respond to many elementary features, e.g., colors, shapes, syllables, and basic flavors. The SAA contains primary concept neurons which combine the elementary features in the PSA to represent unimodal concept of objects, e.g., the image of an apple, the Chinese word "[píng guǒ]" which names the apple, and the taste of the apple. The HAA contains associated neurons which connect the primary concept neurons of several PSA, e.g., connects the image, the taste, and the name of an apple. It means that the associated neurons have a multimodal response mode. Therefore, this area executes multisensory integration. PCN is an online incremental learning system, it is able to continuously acquire and bind multimodality concepts in an online way. The experimental results suggest that PCN is able to handle the multimodal concept acquisition and binding effectively. 2020-06-01T02:33:49Z 2020-06-01T02:33:49Z 2018 Journal Article Xing, Y.-L., Shi, X.-F., Shen, F.-R., Zhao, J.-X., Pan, J.-X., & Tan, A.-H. (2019). Perception coordination network : a neuro framework for multimodal concept acquisition and binding. IEEE Transactions on Neural Networks and Learning Systems, 30(4), 1104-1118. doi:10.1109/tnnls.2018.2861680 2162-237X https://hdl.handle.net/10356/140623 10.1109/TNNLS.2018.2861680 30137016 2-s2.0-85052700683 4 30 1104 1118 en IEEE Transactions on Neural Networks and Learning Systems © 2018 IEEE. All rights reserved. |
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Engineering::Computer science and engineering Concept Acquisition and Binding Multimodal Learning Xing, You-Lu Shi, Xiao-Feng Shen, Fu-Rao Zhao, Jin-Xi Pan, Jing-Xin Tan, Ah-Hwee Perception coordination network : a neuro framework for multimodal concept acquisition and binding |
| description |
To simulate the concept acquisition and binding of different senses in the brain, a biologically inspired neural network model named perception coordination network (PCN) is proposed. It is a hierarchical structure, which is functionally divided into the primary sensory area (PSA), the primary sensory association area (SAA), and the higher order association area (HAA). The PSA contains feature neurons which respond to many elementary features, e.g., colors, shapes, syllables, and basic flavors. The SAA contains primary concept neurons which combine the elementary features in the PSA to represent unimodal concept of objects, e.g., the image of an apple, the Chinese word "[píng guǒ]" which names the apple, and the taste of the apple. The HAA contains associated neurons which connect the primary concept neurons of several PSA, e.g., connects the image, the taste, and the name of an apple. It means that the associated neurons have a multimodal response mode. Therefore, this area executes multisensory integration. PCN is an online incremental learning system, it is able to continuously acquire and bind multimodality concepts in an online way. The experimental results suggest that PCN is able to handle the multimodal concept acquisition and binding effectively. |
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School of Computer Science and Engineering |
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School of Computer Science and Engineering Xing, You-Lu Shi, Xiao-Feng Shen, Fu-Rao Zhao, Jin-Xi Pan, Jing-Xin Tan, Ah-Hwee |
| format |
Article |
| author |
Xing, You-Lu Shi, Xiao-Feng Shen, Fu-Rao Zhao, Jin-Xi Pan, Jing-Xin Tan, Ah-Hwee |
| author_sort |
Xing, You-Lu |
| title |
Perception coordination network : a neuro framework for multimodal concept acquisition and binding |
| title_short |
Perception coordination network : a neuro framework for multimodal concept acquisition and binding |
| title_full |
Perception coordination network : a neuro framework for multimodal concept acquisition and binding |
| title_fullStr |
Perception coordination network : a neuro framework for multimodal concept acquisition and binding |
| title_full_unstemmed |
Perception coordination network : a neuro framework for multimodal concept acquisition and binding |
| title_sort |
perception coordination network : a neuro framework for multimodal concept acquisition and binding |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/140623 |
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1681057785639337984 |