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ORCIDShun Nishide
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2020 – today
- 2022
[j9]Zheng Liu
, Xin Kang, Shun Nishide, Fuji Ren:
Vowel priority lip matching scheme and similarity evaluation model based on humanoid robot Ren-Xin. J. Ambient Intell. Humaniz. Comput. 13(11): 5055-5066 (2022)- 2020
- [c32]Koji Masago, Mizuho Amo, Shun Nishide, Xin Kang, Fuji Ren:
Generation of Musical Scores from Chord Sequences Using Neurodynamic Model. IEA/AIE 2020: 638-648 - [c31]Fusei Nomoto, Tadayoshi Yasuda, Shun Nishide, Xin Kang, Fuji Ren:
Hierarchical Learning of Primitives Using Neurodynamic Model. IEA/AIE 2020: 722-731
2010 – 2019
- 2019
- [c30]Zheng Zhou, Xin Kang, Shun Nishide, Fuji Ren:
IDMN: A Two-Pass Attention Mechanism in Dynamic Memory Network. CCIS 2019: 1-5 - [c29]Junlin Hu, Xin Kang, Shun Nishide, Fuji Ren:
Text multi-label sentiment analysis based on Bi-LSTM. CCIS 2019: 16-20 - [c28]Rongyu Dou, Shun Nishide, Fuji Ren, Xin Kang:
Exploring Uncertain Samples through Active Learning To Enhance Text Emotion Classification. CCIS 2019: 26-30 - [c27]Xin Lu, Xin Kang, Shun Nishide, Fuji Ren:
Object detection based on SSD-ResNet. CCIS 2019: 89-92 - [c26]Jiaen Li, Fuji Ren, Shun Nishide, Xin Kang:
Character action recognition based on deep convolutional neural network and action sequence. CCIS 2019: 149-153 - [c25]Ryosuke Yasumura, Shun Nishide, Xin Kang, Fuji Ren:
Constructing a Fundamental Developmental Drawing Learning Model Using an Arm Robot. CCIS 2019: 185-189 - [c24]Haiyan Chen, Zheng Liu, Xin Kang, Shun Nishide, Fuji Ren:
Investigating voice features for Speech emotion recognition based on four kinds of machine learning methods. CCIS 2019: 195-199 - 2018
- [c23]Tianhao She, Xin Kang, Shun Nishide, Fuji Ren:
Improving LEO Robot Conversational Ability via Deep Learning Algorithms for Children with Autism. CCIS 2018: 416-420 - [c22]Yoshie Setsu, Xin Kang, Shun Nishide, Fuji Ren:
Emotion recognition for Twitter language based on lingual and expressional information. CCIS 2018: 730-734 - [c21]Shun Nishide, Fuji Ren:
Improvement of Developmental Drawing Imitation Using Recurrent Neural Network Through Incorporation of AVITEWRITE Model. SMC 2018: 1-5 - 2017
- [c20]Chyon Hae Kim, Kanta Watanabe, Shun Nishide, Manabu Gouko:
Epsilon-greedy babbling. ICDL-EPIROB 2017: 227-232 - 2016
- [c19]Yuta Inoue, Shun Nishide, Fuji Ren:
Facial Expression Recognition Adaptive to Face Pose Using RGB-D Camera. IEA/AIE 2016: 422-427 - [c18]Kanta Watanabe, Shun Nishide, Manabu Gouko, Chyon Hae Kim:
Fully Automated Learning for Position and Contact Force of Manipulated Object with Wired Flexible Finger Joints. IEA/AIE 2016: 753-767 - 2015
- [j8]Shun Nishide, Harumitsu Nobuta, Hiroshi G. Okuno, Tetsuya Ogata:
Preferential training of neurodynamical model based on predictability of target dynamics. Adv. Robotics 29(9): 587-596 (2015) - 2014
- [c17]Shun Nishide, Keita Mochizuki, Hiroshi G. Okuno, Tetsuya Ogata:
Insertion of pause in drawing from babbling for robot's developmental imitation learning. ICRA 2014: 4785-4791 - [c16]Shun Nishide, Harumitsu Nobuta, Hiroshi G. Okuno, Tetsuya Ogata:
Applying intrinsic motivation for visuomotor learning of robot arm motion. URAI 2014: 364-367 - 2013
- [c15]Yuki Yamaguchi, Kuniaki Noda, Shun Nishide, Hiroshi G. Okuno, Tetsuya Ogata:
Learning and association of synaesthesia phenomenon using deep neural networks. SII 2013: 659-664 - [c14]Keita Mochizuki, Shun Nishide, Hiroshi G. Okuno, Tetsuya Ogata:
Developmental Human-Robot Imitation Learning of Drawing with a Neuro Dynamical System. SMC 2013: 2336-2341 - 2012
- [j7]Shun Nishide, Jun Tani, Toru Takahashi, Hiroshi G. Okuno, Tetsuya Ogata:
Tool-Body Assimilation of Humanoid Robot Using a Neurodynamical System. IEEE Trans. Auton. Ment. Dev. 4(2): 139-149 (2012) - [c13]Shun Nishide, Jun Tani, Hiroshi G. Okuno, Tetsuya Ogata:
Self-organization of object features representing motion using Multiple Timescales Recurrent Neural Network. IJCNN 2012: 1-8 - [c12]Harumitsu Nobuta, Kenta Kawamoto, Kuniaki Noda, Kohtaro Sabe, Shun Nishide, Hiroshi G. Okuno, Tetsuya Ogata:
Body area segmentation from visual scene based on predictability of neuro-dynamical system. IJCNN 2012: 1-8 - 2011
- [j6]Yang Zhang, Tetsuya Ogata, Shun Nishide, Toru Takahashi, Hiroshi G. Okuno:
Classification of Known and Unknown Environmental Sounds Based on Self-Organized Space Using a Recurrent Neural Network. Adv. Robotics 25(17): 2127-2141 (2011) - [j5]Shun Nishide, Jun Tani, Hiroshi G. Okuno, Tetsuya Ogata:
Towards Written Text Recognition Based on Handwriting Experiences Using a Recurrent Neural Network. Adv. Robotics 25(17): 2173-2187 (2011) - [c11]Yang Zhang, Shun Nishide, Toru Takahashi, Hiroshi G. Okuno, Tetsuya Ogata:
Cluster Self-organization of Known and Unknown Environmental Sounds Using Recurrent Neural Network. ICANN (1) 2011: 167-175 - [c10]Hiromitsu Awano, Shun Nishide, Hiroaki Arie, Jun Tani, Toru Takahashi, Hiroshi G. Okuno, Tetsuya Ogata:
Use of a Sparse Structure to Improve Learning Performance of Recurrent Neural Networks. ICONIP (3) 2011: 323-331 - [c9]Shun Nishide, Hiroshi G. Okuno, Tetsuya Ogata, Jun Tani:
Handwriting prediction based character recognition using recurrent neural network. SMC 2011: 2549-2554 - 2010
- [j4]Tetsuya Ogata, Shun Nishide, Hideki Kozima, Kazunori Komatani, Hiroshi G. Okuno:
Inter-modality mapping in robot with recurrent neural network. Pattern Recognit. Lett. 31(12): 1560-1569 (2010) - [c8]Shun Nishide, Tetsuya Ogata, Jun Tani, Toru Takahashi, Kazunori Komatani, Hiroshi G. Okuno:
Motion generation based on reliable predictability using self-organized object features. IROS 2010: 3453-3458 - [c7]Hiromitsu Awano, Tetsuya Ogata, Shun Nishide, Toru Takahashi, Kazunori Komatani, Hiroshi G. Okuno:
Human-robot cooperation in arrangement of objects using confidence measure of neuro-dynamical system. SMC 2010: 2533-2538
2000 – 2009
- 2009
- [j3]Shun Nishide, Tetsuya Ogata, Jun Tani, Kazunori Komatani, Hiroshi G. Okuno:
Self-organization of Dynamic Object Features Based on Bidirectional Training. Adv. Robotics 23(15): 2035-2057 (2009) - [j2]Shun Nishide, Tetsuya Ogata, Jun Tani, Kazunori Komatani, Hiroshi G. Okuno:
Autonomous Motion Generation Based on Reliable Predictability. J. Robotics Mechatronics 21(4): 478-488 (2009) - [c6]Shun Nishide, Tatsuhiro Nakagawa, Tetsuya Ogata, Jun Tani, Toru Takahashi, Hiroshi G. Okuno:
Modeling tool-body assimilation using second-order Recurrent Neural Network. IROS 2009: 5376-5381 - 2008
- [j1]Shun Nishide, Tetsuya Ogata, Jun Tani, Kazunori Komatani, Hiroshi G. Okuno:
Predicting Object Dynamics From Visual Images Through Active Sensing Experiences. Adv. Robotics 22(5): 527-546 (2008) - [c5]Shun Nishide, Tetsuya Ogata, Ryunosuke Yokoya, Jun Tani, Kazunori Komatani, Hiroshi G. Okuno:
Object dynamics prediction and motion generation based on reliable predictability. ICRA 2008: 1608-1614 - [c4]Shun Nishide, Tetsuya Ogata, Ryunosuke Yokoya, Jun Tani, Kazunori Komatani, Hiroshi G. Okuno:
Active sensing based dynamical object feature extraction. IROS 2008: 1-7 - 2007
- [c3]Shun Nishide, Tetsuya Ogata, Jun Tani, Kazunori Komatani, Hiroshi G. Okuno:
Predicting Object Dynamics from Visual Images through Active Sensing Experiences. ICRA 2007: 2501-2506 - 2005
- [c2]Shun Nishide, Tomohito Takubo, Kenji Inoue, Tatsuo Arai:
Wide-Area Recognition Using Hybrid Motion Stereo. ICRA 2005: 806-811 - [c1]Shun Nishide, Tomohito Takubo, Kenji Inoue, Tatsuo Arai:
Wide-area recognition using hybrid motion stereo outlier rejection for motion stereo: outlier rejection for motion stereo using sequential data. IROS 2005: 647-652
Coauthor Index
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