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ORCIDKunihiko Fukushima
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2020 – today
- 2024
[j53]Yusuke Yamakaji
, Hayaru Shouno, Kunihiko Fukushima:
Circuit2Graph: Circuits With Graph Neural Networks. IEEE Access 12: 51818-51827 (2024)- 2021
- [j52]Kunihiko Fukushima:
Artificial Vision by Deep CNN Neocognitron. IEEE Trans. Syst. Man Cybern. Syst. 51(1): 76-90 (2021)
2010 – 2019
- 2019
- [j51]Kunihiko Fukushima:
Efficient IntVec: High recognition rate with reduced computational cost. Neural Networks 119: 323-331 (2019) - 2018
- [j50]Diego Andina, Kunihiko Fukushima, Francisco Javier Ropero Peláez, Duc Truong Pham:
Introduction. Int. J. Neural Syst. 28(5): 1803001:1-1803001:2 (2018) - [j49]Kunihiko Fukushima:
Margined winner-take-all: New learning rule for pattern recognition. Neural Networks 97: 152-161 (2018) - 2016
- [c36]Toshisada Mariyama, Kunihiko Fukushima, Wataru Matsumoto:
Automatic Design of Neural Network Structures Using AiS. ICONIP (2) 2016: 280-287 - [c35]Wataru Matsumoto, Manabu Hagiwara, Petros T. Boufounos, Kunihiko Fukushima, Toshisada Mariyama, Xiongxin Zhao:
A Deep Neural Network Architecture Using Dimensionality Reduction with Sparse Matrices. ICONIP (4) 2016: 397-404 - [c34]Kunihiko Fukushima:
Margined Winner-Take-All: New learning rule for pattern recognition. IJCNN 2016: 977-984 - 2015
- [c33]Kunihiko Fukushima, Hayaru Shouno:
Deep convolutional network neocognitron: Improved Interpolating-Vector. IJCNN 2015: 1-8 - 2014
- [j48]Kunihiko Fukushima, Isao Hayashi, Jasmin Léveillé:
Neocognitron trained by winner-kill-loser with triple threshold. Neurocomputing 129: 78-84 (2014) - [j47]Jasmin Léveillé, Isao Hayashi, Kunihiko Fukushima:
A Probabilistic WKL Rule for Incremental Feature Learning and Pattern Recognition. J. Adv. Comput. Intell. Intell. Informatics 18(4): 672-681 (2014) - [c32]Kunihiko Fukushima:
One-Shot Learning with Feedback for Multi-layered Convolutional Network. ICANN 2014: 291-298 - [c31]Kunihiko Fukushima:
Add-if-Silent Rule for Training Multi-layered Convolutional Network Neocognitron. ICONIP (1) 2014: 78-85 - 2013
- [j46]Kunihiko Fukushima:
Artificial vision by multi-layered neural networks: Neocognitron and its advances. Neural Networks 37: 103-119 (2013) - [j45]Kunihiko Fukushima:
Training multi-layered neural network neocognitron. Neural Networks 40: 18-31 (2013) - 2012
- [c30]Jasmin Léveillé, Isao Hayashi, Kunihiko Fukushima:
Online learning of feature detectors from natural images with the probabilistic WKL rule. SCIS&ISIS 2012: 177-182 - 2011
- [j44]Kunihiko Fukushima:
Increasing robustness against background noise: Visual pattern recognition by a neocognitron. Neural Networks 24(7): 767-778 (2011) - [c29]Kunihiko Fukushima, Isao Hayashi, Jasmin Léveillé:
Neocognitron Trained by Winner-Kill-Loser with Triple Threshold. ICONIP (2) 2011: 628-637 - 2010
- [j43]Kunihiko Fukushima:
Neural network model for completing occluded contours. Neural Networks 23(4): 528-540 (2010) - [j42]Kunihiko Fukushima:
Neocognitron trained with winner-kill-loser rule. Neural Networks 23(7): 926-938 (2010) - [c28]Kunihiko Fukushima:
Increased Robustness against Background Noise: Pattern Recognition by a Neocognitron. ICONIP (2) 2010: 574-581
2000 – 2009
- 2008
- [j41]Kunihiko Fukushima:
Extraction of visual motion and optic flow. Neural Networks 21(5): 774-785 (2008) - [c27]Kunihiko Fukushima:
Neural Network Capable of Amodal Completion. ICANN (2) 2008: 376-385 - 2007
- [j40]Kunihiko Fukushima:
Interpolating vectors for robust pattern recognition. Neural Networks 20(8): 904-916 (2007) - [j39]Kunihiko Fukushima:
Neocognitron. Scholarpedia 2(1): 1717 (2007) - [c26]Kunihiko Fukushima:
Interpolating Vectors: Powerful Algorithm for Pattern Recognition. ICONIP (2) 2007: 1-10 - [c25]Kunihiko Fukushima:
Recent Advances in the Neocognitron. ICONIP (1) 2007: 1041-1050 - [c24]Kunihiko Fukushima:
Robust Pattern Recognition by Interpolating Vectors. IJCNN 2007: 119-124 - 2006
- [j38]Kunihiko Fukushima, Masayuki Kikuchi:
Symmetry axis extraction by a neural network. Neurocomputing 69(16-18): 1827-1836 (2006) - [c23]Inwon Lee, Sang-Woo Ban, Kunihiko Fukushima, Minho Lee:
Selective Motion Analysis Based on Dynamic Visual Saliency Map Model. ICAISC 2006: 814-822 - 2005
- [j37]Kunihiko Fukushima:
Use of non-uniform spatial blur for image comparison: symmetry axis extraction. Neural Networks 18(1): 23-32 (2005) - [j36]Kunihiko Fukushima:
Restoring partly occluded patterns: a neural network model. Neural Networks 18(1): 33-43 (2005) - [j35]Kazuya Tohyama, Kunihiko Fukushima:
Neural network model for extracting optic flow. Neural Networks 18(5-6): 549-556 (2005) - [c22]Kunihiko Fukushima, Kazuya Tohyama:
Neural Network Model for Extracting Optic Flow. ICANN (1) 2005: 455-460 - 2004
- [j34]Kunihiko Fukushima:
Neural network model restoring partly occluded patterns. Int. J. Knowl. Based Intell. Eng. Syst. 8(2): 59-67 (2004) - [j33]Kunihiko Fukushima:
Neocognitron capable of incremental learning. Neural Networks 17(1): 37-46 (2004) - 2003
- [j32]Kunihiko Fukushima:
Neocognitron for handwritten digit recognition. Neurocomputing 51: 161-180 (2003) - [c21]Kunihiko Fukushima:
Restoring Partly Occluded Patterns: A Neural Network Model with Backward Paths. ICANN 2003: 393-400 - [c20]Masayuki Kikuchi, Kunihiko Fukushima:
Assignment of Figural Side to Contours Based on Symmetry, Parallelism, and Convexity. KES 2003: 123-130 - [c19]Kunihiko Fukushima:
Neural Network Model Restoring Partly Occluded Patterns. KES 2003: 131-138 - 2001
- [j31]Kunihiko Fukushima:
Recognition of partly occluded patterns: a neural network model. Biol. Cybern. 84(4): 251-259 (2001) - [j30]Masayuki Kikuchi, Kunihiko Fukushima:
Invariant pattern recognition with eye movement: A neural network model. Neurocomputing 38-40: 1359-1365 (2001) - [c18]Kunihiko Fukushima:
Neocognitron of a New Version: Handwritten Digit Recognition. ICANN 2001: 987-992 - 2000
- [c17]Kunihiko Fukushima:
Active and Adaptive Vision: Neural Network Models. Biologically Motivated Computer Vision 2000: 623-634 - [c16]Masayuki Kikuchi, Kunihiko Fukushima:
Pattern Recognition with Eye Movement: A Neural Network Model. IJCNN (2) 2000: 37-40 - [c15]Kunihiko Fukushima:
Recognition of Occluded Patterns: A Neural Network Model. IJCNN (3) 2000: 135-138
1990 – 1999
- 1999
- [j29]Osamu Watanabe, Kunihiko Fukushima:
Stereo algorithm that extracts a depth cue from interocularly unpaired points. Neural Networks 12(4-5): 569-578 (1999) - [j28]Kunihiko Fukushima:
Self-organization of shift-invariant receptive fields. Neural Networks 12(6): 791-801 (1999) - [j27]Hideki Hashimoto, Kunihiko Fukushima:
Recognition and segmentation of facial components using selective attention mechanism. Syst. Comput. Jpn. 30(9): 55-63 (1999) - [c14]Kunihiko Fukushima:
Self-organization of shift-invariant receptive fields. IJCNN 1999: 1087-1091 - [c13]Kunihiko Fukushima, Kazuya Yoshimoto:
Self-Organization of Shift-Invariant Receptive Fields. IWANN (1) 1999: 806-815 - 1998
- [j26]Kunihiko Fukushima, Eiji Kimura, Hayaru Shouno:
Neocognitron with improved bend-extractors: Recognition of handwritten digits in the real world. Neural Comput. Appl. 7(3): 260-272 (1998) - [j25]Yoshio Yamaguchi, Kunihiko Fukushima, Masato Okada:
A neural network model for associative recall of maps. Syst. Comput. Jpn. 29(13): 9-17 (1998) - [j24]Rama Chellappa, Kunihiko Fukushima, Aggelos K. Katsaggelos, Sun-Yuan Kung, Yann LeCun, Nasser M. Nasrabadi, Tomaso A. Poggio:
Guest Editorial Applications Of Artificial Neural Networks To Image Processing. IEEE Trans. Image Process. 7(8): 1093-1096 (1998) - [c12]José Hiroki Saito, Kunihiko Fukushima:
Modular Structure of Neocognitron to Pattern Recognition. ICONIP 1998: 279-282 - [c11]Masayuki Kikuchi, Koichi Anada, Kunihiko Fukushima:
Neural Network Model Completing Occluded Contour. ICONIP 1998: 315-318 - [c10]Kunihiko Fukushima, Kazuya Yoshimoto:
Self-Organization of Shift-Invariant Receptive Fields through Pre- and Post-Synaptic Competition. ICONIP 1998: 653-656 - [c9]Kunihiko Fukushima, Eiji Kimura, Hayaru Shouno:
Handwritten Digit Recognition by a Neocognitron with Improved Bend-Extractors. NC 1998: 240-246 - 1997
- [j23]Kunihiko Fukushima, Yoshio Yamaguchi, Masato Okada:
Neural Network Model of Spatial Memory: Associative Recall of Maps. Neural Networks 10(6): 971-979 (1997) - [c8]Kunihiko Fukushima, Hideki Hashimoto:
Recognition and Segmentation of Components of a Face by a Multi-Resolution Neural Network. ICANN 1997: 931-936 - [c7]Kunihiko Fukushima, Yoshio Yamaguchi:
Neural network model of spatial memory. ICNN 1997: 548-553 - [c6]H. Matsuda, Masayuki Kikuchi, Kunihiko Fukushima:
A Neural Network Model for Detecting the Motion of an Object Whose Vertexes are Masked. ICONIP (1) 1997: 18-21 - 1996
- [j22]Kunihiko Fukushima, Masashi Tanigawa:
Use of different thresholds in learning and recognition. Neurocomputing 11(1): 1-17 (1996) - [j21]Masayuki Kikuchi, Kunihiko Fukushima:
Neural Network Model of the Visual System: Binding Form and Motion. Neural Networks 9(8): 1417-1427 (1996) - [c5]Kunihiko Fukushima, Yoshio Yamaguchi, Masato Okada:
Neural Network Model Recalling Spatial Maps. ICANN 1996: 329-334 - 1995
- [j20]Kouichirou Yamauchi, Megumu Fukuda, Kunihiko Fukushima:
Speed invariant speech recognition using variable velocity delay lines. Neural Networks 8(2): 167-177 (1995) - [j19]Michihiro Ohno, Masato Okada, Kunihiko Fukushima:
Neocognitron learning by backpropagation. Syst. Comput. Jpn. 26(5): 19-28 (1995) - [j18]Hayaru Shouno, Kunihiko Fukushima:
Connected character recognition in cursive handwriting using selective attention model with bend processing. Syst. Comput. Jpn. 26(10): 35-46 (1995) - 1994
- [j17]Kunihiko Fukushima, Masato Okada, Kazuhito Hiroshige:
Neocognitron with dual C-cell layers. Neural Networks 7(1): 41-47 (1994) - [j16]Kunihiko Fukushima:
Response to letter by S. Grossberg. Neural Networks 7(1): 206-207 (1994) - [j15]Masashi Tanigawa, Kunihiko Fukushima:
How to adjust the thresholds of feature-extracting cells in the neocognitron. Syst. Comput. Jpn. 25(10): 98-107 (1994) - 1993
- [j14]Kunihiko Fukushima, Taro Imagawa:
Recognition and segmentation of connected characters with selective attention. Neural Networks 6(1): 33-41 (1993) - [j13]Taro Imagawa, Kunihiko Fukushima:
Character recognition in cursive handwriting with the mechanism of selective attention. Syst. Comput. Jpn. 24(3): 89-97 (1993) - [c4]Kunihiko Fukushima:
Neural network for connected character recognition. ANNES 1993: 76-78 - [c3]Kunihiko Fukushima:
Connected character recognition with a neural network. ICDAR 1993: 240-243 - 1992
- [j12]Kunihiko Fukushima:
Character recognition with neural networks. Neurocomputing 4(3): 221-233 (1992) - [c2]Kunihiko Fukushima:
Visual Pattern Recognition with Neural Networks. ICPIA 1992: 16-31 - 1991
- [j11]Kunihiko Fukushima, Nobuaki Wake:
Handwritten alphanumeric character recognition by the neocognitron. IEEE Trans. Neural Networks 2(3): 355-365 (1991) - 1990
- [j10]Takayuki Ito, Kunihiko Fukushima, Sei Miyake:
Realization of a Neural Network Model Neocognitron on a Hypercube Parallel Computer. Int. J. High Speed Comput. 2(1): 1-16 (1990)
1980 – 1989
- 1989
- [j9]Kunihiko Fukushima:
Analysis of the process of visual pattern recognition by the neocognitron. Neural Networks 2(6): 413-420 (1989) - 1988
- [j8]Kunihiko Fukushima:
A Neural Network for Visual Pattern Recognition. Computer 21(3): 65-75 (1988) - [j7]Kunihiko Fukushima:
Neocognitron: A hierarchical neural network capable of visual pattern recognition. Neural Networks 1(2): 119-130 (1988) - [j6]Takayuki Ito, Kunihiko Fukushima:
A neural network model extracting features from speech signals. Syst. Comput. Jpn. 19(3): 32-45 (1988) - 1987
- [j5]Kunihiko Fukushima:
A neural network model for the mechanism of selective attention in visual pattern recognition. Syst. Comput. Jpn. 18(1): 102-113 (1987) - 1983
- [j4]Kunihiko Fukushima, Sei Miyake, Takayuki Ito:
Neocognitron: A neural network model for a mechanism of visual pattern recognition. IEEE Trans. Syst. Man Cybern. 13(5): 826-834 (1983) - 1982
- [j3]Kunihiko Fukushima, Sei Miyake:
Neocognitron: A new algorithm for pattern recognition tolerant of deformations and shifts in position. Pattern Recognit. 15(6): 455-469 (1982)
1970 – 1979
- 1979
- [c1]Kunihiko Fukushima:
Self-Organization of a Neural Network which Gives Position-Invariant Response. IJCAI 1979: 291-293 - 1970
- [j2]Kunihiko Fukushima:
Correction to "Visual Feature Extraction by a Multilayered Network of Analog Threshold Elements". IEEE Trans. Syst. Sci. Cybern. 6(3): 239 (1970)
1960 – 1969
- 1969
- [j1]Kunihiko Fukushima:
Visual Feature Extraction by a Multilayered Network of Analog Threshold Elements. IEEE Trans. Syst. Sci. Cybern. 5(4): 322-333 (1969)
Coauthor Index
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