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2020 – today
- 2024
[j27]Yuichiro Tanaka, Hakaru Tamukoh:
Reservoir-Based 1D Convolution: Low-Training-Cost AI. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 107(6): 941-944 (2024)- [c56]Ninnart Fuengfusin, Hakaru Tamukoh, Osamu Nomura, Takashi Morie:
Robust Binary Encoding for Ternary Neural Networks Toward Deployment on Emerging Memory. IJCNN 2024: 1-8 - [c55]Akinobu Mizutani, Yuichiro Tanaka, Hakaru Tamukoh, Osamu Nomura, Katsumi Tateno, Takashi Morie:
A Hippocampus-Inspired Environment-Specific Knowledge Acquisition System Utilizing Common Knowledge with Contextual Information. IJCNN 2024: 1-8 - [c54]Yuka Shishido, Osamu Nomura, Katsumi Tateno, Hakaru Tamukoh, Takashi Morie:
CMOS digital-analog mixed signal VLSI implementation of a hippocampus-inspired model. IJCNN 2024: 1-8 - [c53]Soshi Hirayae, Kanta Yoshioka, Atsuki Yokota, Ichiro Kawashima, Yuichiro Tanaka, Yuichi Katori, Osamu Nomura, Takashi Morie, Hakaru Tamukoh:
Enhancing Memory Capacity of Reservoir Computing with Delayed Input and Efficient Hardware Implementation with Shift Registers. ISCAS 2024: 1-5 - [c52]Shigeki Matsumoto, Yuki Ichikawa, Nobuki Kajihara, Hakaru Tamukoh:
FPGA Implementation for Large Scale Reservoir Computing based on Chaotic Boltzmann Machine. ISCAS 2024: 1-5 - [i13]Kouki Kimizuka, Saman Azhari, Shoshi Tokuno, Ahmet Karacali, Yuki Usami, Shuhei Ikemoto, Hakaru Tamukoh, Hirofumi Tanaka:
Haptic in-sensor computing device made of carbon nanotube-polydimethylsiloxane nanocomposites. CoRR abs/2406.03958 (2024) - 2023
- [j26]Yuichiro Tanaka
, Hakaru Tamukoh:
Self-Organizing Multiple Readouts for Reservoir Computing. IEEE Access 11: 138839-138849 (2023) - [j25]Yusuke Watanabe, Hakaru Tamukoh:
Optimizing a Field-Programmable Gate Array Object Detection System Considering Processing System and Programmable Logic Load Balance. J. Robotics Netw. Artif. Life 10(2): 105-114 (2023) - [c51]Daiju Kanaoka, Motoharu Sonogashira, Hakaru Tamukoh, Yasutomo Kawanishi:
ManifoldNeRF: View-dependent Image Feature Supervision for Few-shot Neural Radiance Fields. BMVC 2023: 682-684 - [c50]Kanta Yoshioka, Yuichiro Tanaka, Hakaru Tamukoh:
LUTNet-RC: Look-Up Tables Networks for Reservoir Computing on an FPGA. ICFPT 2023: 170-178 - [c49]Kanta Yoshioka, Yuichiro Tanaka, Hakaru Tamukoh:
Traffic Flow Optimization using a Chaotic Boltzmann Machine Annealer on an FPGA. ICFPT 2023: 266-267 - [c48]Ninnart Fuengfusin, Hakaru Tamukoh, Yuichiro Tanaka, Osamu Nomura, Takashi Morie:
Efficient Repetition Coding for Deep Learning Towards Implementation Using Emerging Non-Volatile Memory with Write-Errors. IJCNN 2023: 1-6 - [c47]Kanta Yoshioka, Yuichi Katori, Yuichiro Tanaka, Osamu Nomura, Takashi Morie, Hakaru Tamukoh:
FPGA Implementation of a Chaotic Boltzmann Machine Annealer. IJCNN 2023: 1-8 - [c46]Yuichiro Tanaka, Yuki Usami, Hirofumi Tanaka, Hakaru Tamukoh:
In-material reservoir implementation of reservoir-based convolution. ISCAS 2023: 1-5 - [c45]Yukiya Fukuda, Yuya Mii, Yuga Yano, Hidenari Iwai, Shintaro Inoue, Hakaru Tamukoh:
Dense Traversability Estimation System for Extreme Environments. IV 2023: 1-6 - [c44]Yuga Yano, Kosei Isomoto, Tomohiro Ono, Hakaru Tamukoh:
Autonomous Waiter Robot System for Recognizing Customers, Taking Orders, and Serving Food. RoboCup 2023: 252-261 - [c43]Ryogo Takemoto, Yuya Nagamine, Kazuki Yoshihiro, Masatoshi Shibata, Hideo Yamada, Yuichiro Tanaka, Shuichi Enokida, Hakaru Tamukoh:
Memory-Efficient Implementation of GMM-MRCoHOG for Human Recognition Hardware. VISIGRAPP (4: VISAPP) 2023: 648-655 - [i12]Tomoya Shiba, Akinobu Mizutani, Yuga Yano, Tomohiro Ono, Shoshi Tokuno, Daiju Kanaoka, Yukiya Fukuda, Hayato Amano, Mayu Koresawa, Yoshifumi Sakai, Ryogo Takemoto, Katsunori Tamai, Kazuo Nakahara, Hiroyuki Hayashi, Satsuki Fujimatsu, Yusuke Mizoguchi, Moeno Anraku, Mayo Suzuka, Lu Shen, Kohei Maeda, Fumiya Matsuzaki, Ikuya Matsumoto, Kazuya Murai, Kosei Isomoto, Kim Minje, Yuichiro Tanaka, Takashi Morie, Hakaru Tamukoh:
Hibikino-Musashi@Home 2023 Team Description Paper. CoRR abs/2310.12650 (2023) - [i11]Daiju Kanaoka, Motoharu Sonogashira, Hakaru Tamukoh, Yasutomo Kawanishi:
ManifoldNeRF: View-dependent Image Feature Supervision for Few-shot Neural Radiance Fields. CoRR abs/2310.13670 (2023) - 2022
- [j24]Sansei Hori, Hakaru Tamukoh:
An Implementation Method Using Cut-Off Bits for Restricted Boltzmann Machines Without Random Number Generators. IEEE Access 10: 42791-42801 (2022) - [j23]Deep Banerjee, Takumi Kotooka, Saman Azhari, Yuki Usami, Takuji Ogawa, James K. Gimzewski, Hakaru Tamukoh, Hirofumi Tanaka:
Emergence of In-Materio Intelligence from an Incidental Structure of a Single-Walled Carbon Nanotube-Porphyrin Polyoxometalate Random Network. Adv. Intell. Syst. 4(4) (2022) - [j22]Deep Banerjee, Takumi Kotooka, Saman Azhari, Yuki Usami, Takuji Ogawa, James K. Gimzewski, Hakaru Tamukoh, Hirofumi Tanaka:
Emergence of In-Materio Intelligence from an Incidental Structure of a Single-Walled Carbon Nanotube-Porphyrin Polyoxometalate Random Network. Adv. Intell. Syst. 4(4) (2022) - [j21]Tomohiro Ono, Daiju Kanaoka, Tomoya Shiba, Shoshi Tokuno, Yuga Yano, Akinobu Mizutani, Ikuya Matsumoto, Hayato Amano, Hakaru Tamukoh:
Solution of World Robot Challenge 2020 Partner Robot Challenge (Real Space). Adv. Robotics 36(17-18): 870-889 (2022) - [j20]Sansei Hori, Hakaru Tamukoh:
A Control and Data Transfer Platform for FPGA Applications. J. Robotics Netw. Artif. Life 9(1): 37-42 (2022) - [j19]Ninnart Fuengfusin, Hakaru Tamukoh:
INT8 Activation Ternary or Binary Weights Networks: Unifying Between INT8 and Lower-bit Width Quantization. J. Robotics Netw. Artif. Life 9(2): 171-176 (2022) - [c42]Hayato Mori, Hayato Amano, Akinobu Mizutani, Eisuke Okazaki, Yuki Konno, Kohei Sada, Tomohiro Ono, Yuma Yoshimoto, Hakaru Tamukoh, Takeshi Ohkawa, Midori Sugaya:
Desgin and Implementation of ROS2-based Autonomous Tiny Robot Car with Integration of Multiple ROS2 FPGA Nodes. FPT 2022: 1-4 - [c41]Ichiro Kawashima, Katsumi Tateno, Takashi Morie, Hakaru Tamukoh:
A memory-based entorhinal-hippocampal model and its FPGA implementation by on-chip RAMs. ISCAS 2022: 491-495 - [c40]Daiju Kanaoka, Yuichiro Tanaka, Hakaru Tamukoh:
Applying Center Loss to Multidimensional Feature Space in Deep Neural Networks for Open-set Recognition. VISIGRAPP (5: VISAPP) 2022: 359-365 - [c39]Ryogo Takemoto, Yuya Nagamine, Kazuki Yoshihiro, Masatoshi Shibata, Hideo Yamada, Yuichiro Tanaka, Shuichi Enokida, Hakaru Tamukoh:
Hardware-oriented Algorithm for Human Detection using GMM-MRCoHOG Features. VISIGRAPP (4: VISAPP) 2022: 749-757 - [i10]Yutaro Ishida, Sansei Hori, Yuichiro Tanaka, Yuma Yoshimoto, Kouhei Hashimoto, Gouki Iwamoto, Yoshiya Aratani, Kenya Yamashita, Shinya Ishimoto, Kyosuke Hitaka, Fumiaki Yamaguchi, Ryuhei Miyoshi, Kentaro Honda, Yushi Abe, Yoshitaka Kato, Takashi Morie, Hakaru Tamukoh:
Hibikino-Musashi@Home 2018 Team Description Paper. CoRR abs/2211.04972 (2022) - [i9]Tomoya Shiba, Tomohiro Ono, Shoshi Tokuno, Issei Uchino, Masaya Okamoto, Daiju Kanaoka, Kazutaka Takahashi, Kenta Tsukamoto, Yoshiaki Tsutsumi, Yugo Nakamura, Yukiya Fukuda, Yusuke Hoji, Hayato Amano, Yuma Kubota, Mayu Koresawa, Yoshifumi Sakai, Ryogo Takemoto, Katsunori Tamai, Kazuo Nakahara, Hiroyuki Hayashi, Satsuki Fujimatsu, Akinobu Mizutani, Yusuke Mizoguchi, Yuhei Yoshimitsu, Mayo Suzuka, Ikuya Matsumoto, Yuga Yano, Yuichiro Tanaka, Takashi Morie, Hakaru Tamukoh:
Hibikino-Musashi@Home 2022 Team Description Paper. CoRR abs/2211.06696 (2022) - 2021
- [j18]Masatoshi Yamaguchi, Goki Iwamoto, Yuta Nishimura, Hakaru Tamukoh, Takashi Morie:
An Energy-Efficient Time-Domain Analog CMOS BinaryConnect Neural Network Processor Based on a Pulse-Width Modulation Approach. IEEE Access 9: 2644-2654 (2021) - [j17]Yoeng Jye Yeoh, Takashi Morie, Hakaru Tamukoh:
An efficient hardware-oriented dropout algorithm. Neurocomputing 427: 191-200 (2021) - [j16]Yuma Yoshimoto, Hakaru Tamukoh:
FPGA Implementation of a Binarized Dual Stream Convolutional Neural Network for Service Robots. J. Robotics Mechatronics 33(2): 386-399 (2021) - [j15]Ninnart Fuengfusin, Hakaru Tamukoh:
Network with Sub-networks: Layer-wise Detachable Neural Network. J. Robotics Netw. Artif. Life 7(4): 240-244 (2021) - [j14]Ninnart Fuengfusin, Hakaru Tamukoh:
A Sub-Model Detachable Convolutional Neural Network. J. Robotics Netw. Artif. Life 8(1): 52-55 (2021) - [c38]Hayato Amano, Hayato Mori, Akinobu Mizutani, Tomohiro Ono, Yuma Yoshimoto, Takeshi Ohkawa, Hakaru Tamukoh:
A dataset generation for object recognition and a tool for generating ROS2 FPGA node. FPT 2021: 1-4 - [c37]Ichiro Kawashima, Yuichi Katori, Takashi Morie, Hakaru Tamukoh:
An area-efficient multiply-accumulation architecture and implementations for time-domain neural processing. FPT 2021: 1-4 - [c36]Dinda Pramanta, Hakaru Tamukoh:
FPGA Implementation of Pulse-Coupled Phase Oscillators working as a Reservoir at the Edge of Chaos. ISCAS 2021: 1-5 - [c35]Yukiya Fukuda, Ryosuke Kubota, Hakaru Tamukoh:
A Color Image Quantization Method Considering Chromatic Visual Impression. ISCIT 2021: 24-29 - [c34]Daiju Kanaoka, Yuichiro Tanaka, Hakaru Tamukoh:
Open Set Recognition Using the Feature Space of Deep Neural Networks. ISPACS 2021: 1-2 - [c33]Akinobu Mizutani, Yuichiro Tanaka, Hakaru Tamukoh, Yuichi Katori, Katsumi Tateno, Takashi Morie:
Brain-inspired neural network navigation system with hippocampus, prefrontal cortex, and amygdala functions. ISPACS 2021: 1-2 - 2020
- [j13]Ichiro Kawashima, Takashi Morie, Hakaru Tamukoh:
FPGA Implementation of Hardware-Oriented Chaotic Boltzmann Machines. IEEE Access 8: 204360-204377 (2020) - [j12]Yuichiro Tanaka, Takashi Morie, Hakaru Tamukoh:
An Amygdala-Inspired Classical Conditioning Model Implemented on an FPGA for Home Service Robots. IEEE Access 8: 212066-212078 (2020) - [j11]Yutaro Ishida, Takashi Morie, Hakaru Tamukoh:
A hardware intelligent processing accelerator for domestic service robots. Adv. Robotics 34(14): 947-957 (2020) - [j10]Yutaro Ishida, Hakaru Tamukoh:
Semi-Automatic Dataset Generation for Object Detection and Recognition and its Evaluation on Domestic Service Robots. J. Robotics Mechatronics 32(1): 245-253 (2020) - [j9]Obada Al Aama, Hakaru Tamukoh:
Training Autoencoder using Three Different Reversed Color Models for Anomaly Detection. J. Robotics Netw. Artif. Life 7(1): 35-40 (2020) - [j8]Kentaro Honda, Hakaru Tamukoh:
A Hardware-Oriented Echo State Network and its FPGA Implementation. J. Robotics Netw. Artif. Life 7(1): 58-62 (2020) - [c32]Dinda Pramanta, Hakaru Tamukoh:
Design and Implementation of Pulse-Coupled Phase Oscillators on a Field-Programmable Gate Array for Reservoir Computing. ICONIP (5) 2020: 333-341 - [c31]Yuma Yoshimoto, Hakaru Tamukoh:
Live Demonstration: Hardware-Oriented Dual Stream Object Recognition System using Binarized Neural Networks. ISCAS 2020: 1 - [c30]Yuma Yoshimoto, Hakaru Tamukoh:
Hardware-Oriented Dual Stream Object Recognition System using Binarized Neural Networks. ISCAS 2020: 1-5 - [i8]Tomohiro Ono, Yuichiro Tanaka, Yutaro Ishida, Yushi Abe, Kazuki Kanamaru, Daichi Kamimura, Kentaro Nakamura, Yuta Nishimura, Shoshi Tokuno, Yuya Mii, Morio Yamauchi, Yuichiro Uemura, Takunori Hashimoto, Yugo Nakamura, Issei Uchino, Daiju Kanaoka, Takeru Hanyu, Kenta Tsukamoto, Takashi Morie, Hakaru Tamukoh:
Hibikino-Musashi@Home 2020 Team Description Paper. CoRR abs/2005.14451 (2020) - [i7]Yuichiro Tanaka, Yutaro Ishida, Yushi Abe, Tomohiro Ono, Kohei Kabashima, Takuma Sakata, Masashi Fukuyado, Fuyuki Muto, Takumi Yoshii, Kazuki Kanamaru, Daichi Kamimura, Kentaro Nakamura, Yuta Nishimura, Takashi Morie, Hakaru Tamukoh:
Hibikino-Musashi@Home 2019 Team Description Paper. CoRR abs/2006.01233 (2020)
2010 – 2019
- 2019
- [c29]Dinda Pramanta, Hakaru Tamukoh:
High-Speed Synchronization of Pulse-Coupled Phase Oscillators on Multi-FPGA. ICONIP (5) 2019: 318-329 - [c28]Yuichi Katori, Hakaru Tamukoh, Takashi Morie:
Reservoir Computing Based on Dynamics of Pseudo-Billiard System in Hypercube. IJCNN 2019: 1-8 - [c27]Masatoshi Yamaguchi, Yuichi Katori, Daichi Kamimura, Hakaru Tamukoh, Takashi Morie:
A Chaotic Boltzmann Machine Working as a Reservoir and Its Analog VLSI Implementation. IJCNN 2019: 1-7 - [c26]Yuichiro Tanaka, Hakaru Tamukoh:
Live Demonstration: Hardware Implementation of Brain-Inspired Amygdala Model. ISCAS 2019: 1 - [c25]Yuichiro Tanaka, Hakaru Tamukoh:
Hardware Implementation of Brain-Inspired Amygdala Model. ISCAS 2019: 1-5 - [c24]Masatoshi Yamaguchi, Gouki Iwamoto, Yushi Abe, Yuichiro Tanaka, Yutaro Ishida, Hakaru Tamukoh, Takashi Morie:
Live Demonstration: A VLSI Implementation of Time-Domain Analog Weighted-Sum Calculation Model for Intelligent Processing on Robots. ISCAS 2019: 1 - [i6]Masatoshi Yamaguchi, Goki Iwamoto, Hakaru Tamukoh, Takashi Morie:
An Energy-efficient Time-domain Analog VLSI Neural Network Processor Based on a Pulse-width Modulation Approach. CoRR abs/1902.07707 (2019) - [i5]Ninnart Fuengfusin, Hakaru Tamukoh:
Network with Sub-Networks. CoRR abs/1908.00763 (2019) - [i4]Yoeng Jye Yeoh, Takashi Morie, Hakaru Tamukoh:
An Efficient Hardware-Oriented Dropout Algorithm. CoRR abs/1911.05941 (2019) - 2018
- [j7]Hakaru Tamukoh, Noriaki Suetake:
Foreword. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 101-A(11): 1735-1736 (2018) - [c23]Ninnart Fuengfusin, Hakaru Tamukoh:
Mixed Precision Weight Networks: Training Neural Networks with Varied Precision Weights. ICONIP (2) 2018: 614-623 - [c22]Yutaro Ishida, Takashi Morie, Hakaru Tamukoh:
Live Demonstration: A Hardware Accelerated Robot Middleware Package for Intelligent Processing on Robots. ISCAS 2018: 1- - [c21]Yutaro Ishida, Takashi Morie, Hakaru Tamukoh:
A Hardware Accelerated Robot Middleware Package for Intelligent Processing on Robots. ISCAS 2018: 1-5 - [c20]Akihiro Suzuki, Hakaru Tamukoh:
Reverse Reconstruction of Anomaly Input Using Autoencoders. ISPACS 2018: 431-435 - [c19]Yuma Yoshimoto, Hakaru Tamukoh:
Object Recognition System using Deep Learning with Depth Images for Service Robots. ISPACS 2018: 436-441 - [i3]Quan Wang, Hakaru Tamukoh, Takashi Morie:
A Time-domain Analog Weighted-sum Calculation Model for Extremely Low Power VLSI Implementation of Multi-layer Neural Networks. CoRR abs/1810.06819 (2018) - 2017
- [j6]Dinda Pramanta, Takashi Morie, Hakaru Tamukoh:
Synchronization of Pulse-Coupled Phase Oscillators over Multi-FPGA Communication Links. J. Robotics Netw. Artif. Life 4(1): 91-96 (2017) - [c18]Yoeng Jye Yeoh, Takashi Morie, Hakaru Tamukoh:
A Hardware-Oriented Dropout Algorithm for Efficient FPGA Implementation. ICONIP (6) 2017: 821-829 - [c17]Masatoshi Yamaguchi, Hakaru Tamukoh, Hideyuki Suzuki, Takashi Morie:
A CMOS chaotic Boltzmann machine circuit and three-neuron network operation. IJCNN 2017: 1218-1224 - [c16]Yuta Yamasaki, Shiryu Ooe, Akihiro Suzuki, Kazuhiro Kuno, Hideo Yamada, Shuichi Enokida, Hakaru Tamukoh:
Evaluation of Hardware Oriented MRCoHOG using Logic Simulation. VISIGRAPP (5: VISAPP) 2017: 341-345 - [i2]Sansei Hori, Yutaro Ishida, Yuta Kiyama, Yuichiro Tanaka, Yuki Kuroda, Masataka Hisano, Yuto Imamura, Tomotaka Himaki, Yuma Yoshimoto, Yoshiya Aratani, Kouhei Hashimoto, Gouki Iwamoto, Hiroto Fujita, Takashi Morie, Hakaru Tamukoh:
Hibikino-Musashi@Home 2017 Team Description Paper. CoRR abs/1711.05457 (2017) - 2016
- [j5]Shi Bao, Go Tanaka, Hakaru Tamukoh, Noriaki Suetake:
Lightness Modification Method Considering Craik-O'Brien Effect for Protanopia and Deuteranopia. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 99-A(11): 2008-2011 (2016) - [c15]Sansei Hori, Takashi Morie, Hakaru Tamukoh:
Restricted Boltzmann Machines Without Random Number Generators for Efficient Digital Hardware Implementation. ICANN (1) 2016: 391-398 - [c14]Akihiro Suzuki, Takashi Morie, Hakaru Tamukoh:
FPGA Implementation of Autoencoders Having Shared Synapse Architecture. ICONIP (1) 2016: 231-239 - [c13]Quan Wang, Hakaru Tamukoh, Takashi Morie:
Time-Domain Weighted-Sum Calculation for Ultimately Low Power VLSI Neural Networks. ICONIP (1) 2016: 240-247 - [c12]Masatoshi Yamaguchi, Takashi Kato, Quan Wang, Hideyuki Suzuki, Hakaru Tamukoh, Takashi Morie:
A CMOS Unit Circuit Using Subthreshold Operation of MOSFETs for Chaotic Boltzmann Machines. ICONIP (1) 2016: 248-255 - [c11]Ludovic Hofer, Michio Tanaka, Hakaru Tamukoh, Amir Ali Forough Nassiraei, Takashi Morie:
Depth-Based Visual Servoing Using Low-Accurate Arm. SCIS&ISIS 2016: 524-531 - [i1]Ludovic Hofer, Michio Tanaka, Hakaru Tamukoh, Amir Ali Forough Nassiraei, Takashi Morie:
Depth-Based Visual Servoing Using Low-Accurate Arm. CoRR abs/1612.03784 (2016) - 2015
- [j4]Jiang Li, Yusuke Atsumari, Hiromasa Kubo, Yuichi Ogishima, Satoru Yokota, Hakaru Tamukoh, Masatoshi Sekine:
A Multidimensional Configurable Processor Array - Vocalise. IEICE Trans. Inf. Syst. 98-D(2): 313-324 (2015) - [j3]Yasuhiro Suedomi, Hakaru Tamukoh, Kenji Matsuzaka, Michio Tanaka, Takashi Morie:
Parameterized digital hardware design of pulse-coupled phase oscillator networks. Neurocomputing 165: 54-62 (2015) - [c10]Shi Bao, Go Tanaka, Hakaru Tamukoh, Noriaki Suetake:
Improvement of lightness modification method based on Craik-O'Brien effect for dichromats. ISPACS 2015: 75-78 - [c9]Ryosuke Kubota, Hakaru Tamukoh, Hideaki Kawano, Noriaki Suetake, Byungki Cha, Takashi Aso:
A Color Quantization Based on Vector Error Diffusion and Particle Swarm Optimization Considering Human Visibility. PSIVT 2015: 332-343 - 2014
- [c8]Hakaru Tamukoh, Kensuke Koga, Hideaki Harada, Takashi Morie:
Morphological Associative Memory Employing a Split Store Method. ICONIP (3) 2014: 341-348 - [c7]Hakaru Tamukoh, Noriaki Suetake, Hideaki Kawano, Ryosuke Kubota, Byungki Cha, Takashi Aso:
Fuzzy-rule-embedded Reduction Image Construction Method for Image Enlargement with High Magnification. VISAPP (1) 2014: 228-233 - 2013
- [c6]Yasuhiro Suedomi, Hakaru Tamukoh, Michio Tanaka, Kenji Matsuzaka, Takashi Morie:
Parameterized Digital Hardware Design of Pulse-Coupled Phase Oscillator Model toward Spike-Based Computing. ICONIP (3) 2013: 17-24 - [c5]Hakaru Tamukoh, Masatoshi Sekine:
Design of networked hw/sw complex system using hardware object model and its application. IECON 2013: 2250-2255 - 2012
- [c4]Jiang Li, Kenichi Takahashi, Hakaru Tamukoh, Masatoshi Sekine:
2D/3D FPGA array for brain process and numerical computation. ICNC 2012: 16-19 - [c3]Hakaru Tamukoh, Nadav Bergstein, Kotoko Fujita, Masatoshi Sekine:
Live demonstration: "Internet Booster" a novel WEB application platform accelerated by reconfigurable virtual hardware circuits. ISCAS 2012: 716 - 2011
- [j2]Hakaru Tamukoh, Keiichi Horio, Takeshi Yamakawa, Masatoshi Sekine:
Rough winner-take-all for hardware oriented vector quantization algorithm. IEICE Electron. Express 8(11): 773-779 (2011) - 2010
- [c2]Hakaru Tamukoh, Masatoshi Sekine:
A Dynamically Reconfigurable Platform for Self-Organizing Neural Network Hardware. ICONIP (2) 2010: 439-446 - [p2]Satoshi Sonoh, Shuji Aou, Keiichi Horio, Hakaru Tamukoh, Takanori Koga, Naoki Shimo, Takeshi Yamakawa:
Emotional Behavior and Expression Based on a Neural Network Model of Amygdala. Brain-Inspired Information Technology 2010: 165-170 - [p1]Naoki Shimo, Shaoning Pang, Keiichi Horio, Nikola K. Kasabov, Hakaru Tamukoh, Takanori Koga, Satoshi Sonoh, Hirohisa Isogai, Takeshi Yamakawa:
Effective and Adaptive Learning Based on Diversive/Specific Curiosity. Brain-Inspired Information Technology 2010: 171-175
2000 – 2009
- 2007
- [j1]Hakaru Tamukoh, Keiichi Horio, Takeshi Yamakawa:
A bit-shifting-based fuzzy inference for self-organizing relationship (SOR) network. IEICE Electron. Express 4(2): 60-65 (2007) - 2006
- [c1]Hakaru Tamukoh, Keiichi Horio, Takeshi Yamakawa:
A Digital Hardware Architecture of Self-Organizing Relationship (SOR) Network. ICONIP (3) 2006: 1168-1177
Coauthor Index
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