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Shoji Makino
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2020 – today
- 2023
- [j41]Li Li
, Hirokazu Kameoka
, Shoji Makino
:
FastMVAE2: On Improving and Accelerating the Fast Variational Autoencoder-Based Source Separation Algorithm for Determined Mixtures. IEEE ACM Trans. Audio Speech Lang. Process. 31: 96-110 (2023) - 2022
- [j40]Jennifer Santoso
, Takeshi Yamada
, Kenkichi Ishizuka, Taiichi Hashimoto
, Shoji Makino:
Speech Emotion Recognition Based on Self-Attention Weight Correction for Acoustic and Text Features. IEEE Access 10: 115732-115743 (2022) - [c160]Kana Goto, Tetsuya Ueda, Li Li, Takeshi Yamada, Shoji Makino:
Geometrically Constrained Independent Vector Analysis with Auxiliary Function Approach and Iterative Source Steering. EUSIPCO 2022: 757-761 - [c159]Jennifer Santoso, Takeshi Yamada, Kenkichi Ishizuka, Taiichi Hashimoto, Shoji Makino:
Performance Improvement of Speech Emotion Recognition by Neutral Speech Detection Using Autoencoder and Intermediate Representation. INTERSPEECH 2022: 4700-4704 - [c158]Shinya Furunaga, Kana Goto, Tetsuya Ueda, Li Li, Takeshi Yamada, Shoji Makino:
Numerical Investigation of Weight Parameters For Geometrically Constrained Independent Vector Analysis Using Vectorwise Coordinate Descent or Iterative Source Steering. IWAENC 2022: 1-5 - 2021
- [j39]Kouei Yamaoka
, Nobutaka Ono
, Shoji Makino
:
Time-Frequency-Bin-Wise Linear Combination of Beamformers for Distortionless Signal Enhancement. IEEE ACM Trans. Audio Speech Lang. Process. 29: 3461-3475 (2021) - [c157]Sota Misawa, Norihiro Takamune, Tomohiko Nakamura, Daichi Kitamura, Hiroshi Saruwatari, Masakazu Une, Shoji Makino:
Speech Enhancement by Noise Self-Supervised Rank-Constrained Spatial Covariance Matrix Estimation via Independent Deeply Learned Matrix Analysis. APSIPA ASC 2021: 578-584 - [c156]Hanako Segawa, Li Li, Shoji Makino, Takeshi Yamada:
Extension of virtual microphone technique to multiple real microphones and investigation of the impact of phase and amplitude interpolation on speech enhancement. APSIPA ASC 2021: 597-602 - [c155]Sotaro Nakaoka, Li Li, Shoji Makino, Takeshi Yamada:
Reducing algorithmic delay using low-overlap window for online Wave-U-Net. APSIPA ASC 2021: 1210-1214 - [c154]Tetsuya Ueda, Tomohiro Nakatani, Rintaro Ikeshita, Keisuke Kinoshita, Shoko Araki, Shoji Makino:
Low Latency Online Source Separation and Noise Reduction Based on Joint Optimization with Dereverberation. EUSIPCO 2021: 1000-1004 - [c153]Shota Inoue, Hirokazu Kameoka, Li Li, Shoji Makino
:
SepNet: A Deep Separation Matrix Prediction Network for Multichannel Audio Source Separation. ICASSP 2021: 191-195 - [c152]Tetsuya Ueda, Tomohiro Nakatani, Rintaro Ikeshita, Keisuke Kinoshita, Shoko Araki, Shoji Makino
:
Low Latency Online Blind Source Separation Based on Joint Optimization with Blind Dereverberation. ICASSP 2021: 506-510 - [c151]Sotaro Nakaoka, Li Li, Shota Inoue, Shoji Makino
:
Teacher-Student Learning for Low-Latency Online Speech Enhancement Using Wave-U-Net. ICASSP 2021: 661-665 - [c150]Jennifer Santoso, Takeshi Yamada, Shoji Makino, Kenkichi Ishizuka, Takekatsu Hiramura:
Speech Emotion Recognition Based on Attention Weight Correction Using Word-Level Confidence Measure. Interspeech 2021: 1947-1951 - [i21]Sota Misawa, Norihiro Takamune, Tomohiko Nakamura, Daichi Kitamura, Hiroshi Saruwatari, Masakazu Une, Shoji Makino:
Speech Enhancement by Noise Self-Supervised Rank-Constrained Spatial Covariance Matrix Estimation via Independent Deeply Learned Matrix Analysis. CoRR abs/2109.04658 (2021) - [i20]Li Li, Hirokazu Kameoka, Shoji Makino:
FastMVAE2: On improving and accelerating the fast variational autoencoder-based source separation algorithm for determined mixtures. CoRR abs/2109.13496 (2021) - 2020
- [j38]Li Li
, Hirokazu Kameoka
, Shoji Makino
:
Majorization-Minimization Algorithm for Discriminative Non-Negative Matrix Factorization. IEEE Access 8: 227399-227408 (2020) - [j37]Li Li
, Hirokazu Kameoka
, Shota Inoue, Shoji Makino
:
FastMVAE: A Fast Optimization Algorithm for the Multichannel Variational Autoencoder Method. IEEE Access 8: 228740-228753 (2020) - [c149]Hanako Segawa, Riki Takahashi, Ryoga Jinzai, Shoji Makino, Takeshi Yamada:
Applying Virtual Microphones to Triangular Microphone Array in in-Car Communication. APSIPA 2020: 421-425 - [c148]Kana Goto, Li Li, Riki Takahashi, Shoji Makino, Takeshi Yamada:
Study on Geometrically Constrained IVA with Auxiliary Function Approach and VCD for In-Car Communication. APSIPA 2020: 858-862 - [c147]Li Li, Kazuhito Koishida, Shoji Makino
:
Online Directional Speech Enhancement Using Geometrically Constrained Independent Vector Analysis. INTERSPEECH 2020: 61-65 - [c146]Li Li, Hirokazu Kameoka, Shoji Makino
:
Determined Audio Source Separation with Multichannel Star Generative Adversarial Network. MLSP 2020: 1-6
2010 – 2019
- 2019
- [j36]Hirokazu Kameoka, Li Li, Shota Inoue, Shoji Makino
:
Supervised Determined Source Separation with Multichannel Variational Autoencoder. Neural Comput. 31(9): 1891-1914 (2019) - [c145]Jennifer Santoso, Takeshi Yamada, Shoji Makino:
Classification of causes of speech recognition errors using attention-based bidirectional long short-term memory and modulation spectrum. APSIPA 2019: 302-306 - [c144]Masakazu Une, Yuki Kubo, Norihiro Takamune, Daichi Kitamura, Hiroshi Saruwatari, Shoji Makino:
Evaluation of Multichannel Hearing Aid System by Rank-Constrained Spatial Covariance Matrix Estimation. APSIPA 2019: 1874-1879 - [c143]Ryoga Jinzai
, Kouei Yamaoka, Mitsuo Matsumoto, Shoji Makino, Takeshi Yamada:
Wavelength Proportional Arrangement of Virtual Microphones Based on Interpolation/Extrapolation for Underdetermined Speech Enhancement. EUSIPCO 2019: 1-5 - [c142]Kouei Yamaoka, Li Li, Nobutaka Ono
, Shoji Makino
, Takeshi Yamada:
CNN-based virtual microphone signal estimation for MPDR beamforming in underdetermined situations. EUSIPCO 2019: 1-5 - [c141]Shota Inoue, Hirokazu Kameoka, Li Li, Shogo Seki, Shoji Makino:
Joint Separation and Dereverberation of Reverberant Mixtures with Multichannel Variational Autoencoder. ICASSP 2019: 96-100 - [c140]Li Li, Hirokazu Kameoka, Shoji Makino:
Fast MVAE: Joint Separation and Classification of Mixed Sources Based on Multichannel Variational Autoencoder with Auxiliary Classifier. ICASSP 2019: 546-550 - [c139]Kouei Yamaoka, Nobutaka Ono
, Shoji Makino, Takeshi Yamada:
Time-frequency-bin-wise Switching of Minimum Variance Distortionless Response Beamformer for Underdetermined Situations. ICASSP 2019: 7908-7912 - [c138]Li Li, Tomoki Toda, Kazuho Morikawa, Kazuhiro Kobayashi, Shoji Makino:
Improving Singing Aid System for Laryngectomees With Statistical Voice Conversion and VAE-SPACE. ISMIR 2019: 784-790 - 2018
- [c137]Ryoga Jinzai
, Kouei Yamaoka, Mitsuo Matsumoto, Takeshi Yamada, Shoji Makino:
Microphone Position Realignment by Extrapolation of Virtual Microphone. APSIPA 2018: 367-372 - [c136]Taiki Matsuyoshi, Tatsuya Komatsu, Reishi Kondo, Takeshi Yamada, Shoji Makino
:
Weakly Labeled Learning Using BLSTM-CTC for Sound Event Detection. APSIPA 2018: 1918-1923 - [c135]Kouei Yamaoka, Andreas Brendel, Nobutaka Ono
, Shoji Makino, Michael Buerger, Takeshi Yamada, Walter Kellermann:
Time-Frequency-Bin-Wise Beamformer Selection and Masking for Speech Enhancement in Underdetermined Noisy Scenarios. EUSIPCO 2018: 1582-1586 - [c134]Yutaro Matsui, Tomohiro Nakatani, Marc Delcroix
, Keisuke Kinoshita, Nobutaka Ito, Shoko Araki
, Shoji Makino:
Online Integration of DNN-Based and Spatial Clustering-Based Mask Estimation for Robust MVDR Beamforming. IWAENC 2018: 71-75 - [i19]Hirokazu Kameoka, Li Li, Shota Inoue, Shoji Makino:
Semi-blind source separation with multichannel variational autoencoder. CoRR abs/1808.00892 (2018) - [i18]Li Li, Hirokazu Kameoka, Shoji Makino:
Fast MVAE: Joint separation and classification of mixed sources based on multichannel variational autoencoder with auxiliary classifier. CoRR abs/1812.06391 (2018) - 2017
- [j35]Yoshiaki Bando, Hiroshi Saruwatari, Nobutaka Ono
, Shoji Makino
, Katsutoshi Itoyama, Daichi Kitamura, Masaru Ishimura, Moe Takakusaki, Narumi Mae, Kouei Yamaoka, Yutaro Matsui, Yuichi Ambe
, Masashi Konyo, Satoshi Tadokoro, Kazuyoshi Yoshii
, Hiroshi G. Okuno
:
Low Latency and High Quality Two-Stage Human-Voice-Enhancement System for a Hose-Shaped Rescue Robot. J. Robotics Mechatronics 29(1): 198-212 (2017) - [c133]Kouei Yamaoka, Nobutaka Ono
, Shoji Makino, Takeshi Yamada:
Abnormal sound detection by two microphones using virtual microphone technique. APSIPA 2017: 478-482 - [c132]Narumi Mae, Yoshiki Mitsui, Shoji Makino, Daichi Kitamura, Nobutaka Ono
, Takeshi Yamada, Hiroshi Saruwatari:
Sound source localization using binaural difference for hose-shaped rescue robot. APSIPA 2017: 1621-1627 - [c131]Gen Takahashi, Takeshi Yamada, Nobutaka Ono
, Shoji Makino:
Performance evaluation of acoustic scene classification using DNN-GMM and frame-concatenated acoustic features. APSIPA 2017: 1739-1743 - [c130]Takumi Kodama, Shoji Makino
:
Convolutional neural network architecture and input volume matrix design for ERP classifications in a tactile P300-based Brain-Computer Interface. EMBC 2017: 3814-3817 - [c129]Yutaro Matsui, Shoji Makino, Nobutaka Ono
, Takeshi Yamada:
Multiple far noise suppression in a real environment using transfer-function-gain NMF. EUSIPCO 2017: 2314-2318 - [c128]Kouei Yamaoka, Shoji Makino, Nobutaka Ono
, Takeshi Yamada:
Performance evaluation of nonlinear speech enhancement based on virtual increase of channels in reverberant environments. EUSIPCO 2017: 2324-2328 - [c127]Shota Amada, Yutaka Kamamoto, Noboru Harada, Ryosuke Sugiura, Takehiro Moriya, Shoji Makino
, Takeshi Yamada:
Experimental evaluation of encoding parameters of MPEG-4 ALS for high-resolution audio. GCCE 2017: 1-4 - [c126]Li Li, Hirokazu Kameoka, Shoji Makino:
Discriminative non-negative matrix factorization with majorization-minimization. HSCMA 2017: 141-145 - [c125]Narumi Mae, Masaru Ishimura, Shoji Makino
, Daichi Kitamura, Nobutaka Ono
, Takeshi Yamada, Hiroshi Saruwatari:
Ego Noise Reduction for Hose-Shaped Rescue Robot Combining Independent Low-Rank Matrix Analysis and Multichannel Noise Cancellation. LVA/ICA 2017: 141-151 - [c124]Li Li, Hirokazu Kameoka, Tomoki Toda, Shoji Makino:
Speech Enhancement Using Non-Negative Spectrogram Models with Mel-Generalized Cepstral Regularization. INTERSPEECH 2017: 1998-2002 - [c123]Li Li, Hirokazu Kameoka, Shoji Makino:
Mel-Generalized cepstral regularization for discriminative non-negative matrix factorization. MLSP 2017: 1-6 - 2016
- [j34]Hiroki Katahira, Nobutaka Ono
, Shigeki Miyabe, Takeshi Yamada, Shoji Makino
:
Nonlinear speech enhancement by virtual increase of channels and maximum SNR beamformer. EURASIP J. Adv. Signal Process. 2016: 11 (2016) - [j33]Yuya Sugimoto, Shigeki Miyabe, Takeshi Yamada, Shoji Makino
, Biing-Hwang Juang:
An Extension of MUSIC Exploiting Higher-Order Moments via Nonlinear Mapping. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 99-A(6): 1152-1162 (2016) - [c122]Ling Guo, Takeshi Yamada, Shoji Makino
:
Performance estimation of spontaneous speech recognition using non-reference acoustic features. APSIPA 2016: 1-4 - [c121]Takumi Kodama, Shoji Makino
, Tomasz M. Rutkowski:
Tactile brain-computer interface using classification of P300 responses evoked by full body spatial vibrotactile stimuli. APSIPA 2016: 1-8 - [c120]Narumi Mae, Daichi Kitamura, Masaru Ishimura, Takeshi Yamada, Shoji Makino:
Ego noise reduction for hose-shaped rescue robot combining independent low-rank matrix analysis and noise cancellation. APSIPA 2016: 1-6 - [c119]Keiko Ochi, Nobutaka Ono
, Shigeki Miyabe, Shoji Makino
:
Multi-Talker Speech Recognition Based on Blind Source Separation with ad hoc Microphone Array Using Smartphones and Cloud Storage. INTERSPEECH 2016: 3369-3373 - [c118]Masaru Ishimura, Shoji Makino
, Takeshi Yamada, Nobutaka Ono
, Hiroshi Saruwatari:
Noise reduction using independent vector analysis and noise cancellation for a hose-shaped rescue robot. IWAENC 2016: 1-5 - [c117]Moe Takakusaki, Daichi Kitamura, Nobutaka Ono
, Takeshi Yamada, Shoji Makino, Hiroshi Saruwatari:
Ego-noise reduction for a hose-shaped rescue robot using determined rank-1 multichannel nonnegative matrix factorization. IWAENC 2016: 1-4 - 2015
- [j32]Zhenyu Cai, Shoji Makino
, Tomasz M. Rutkowski
:
Brain Evoked Potential Latencies Optimization for Spatial Auditory Brain-Computer Interface. Cogn. Comput. 7(1): 34-43 (2015) - [j31]Shigeki Miyabe, Nobutaka Ono
, Shoji Makino
:
Blind compensation of interchannel sampling frequency mismatch for ad hoc microphone array based on maximum likelihood estimation. Signal Process. 107: 185-196 (2015) - [j30]Sven Nordholm
, Walter Kellermann, Simon Doclo
, Vesa Välimäki
, Shoji Makino
, John E. Hershey:
Signal Processing Techniques for Assisted Listening [From the Guest Editors]. IEEE Signal Process. Mag. 32(2): 16-17 (2015) - [j29]Simon Doclo
, Walter Kellermann, Shoji Makino
, Sven Erik Nordholm
:
Multichannel Signal Enhancement Algorithms for Assisted Listening Devices: Exploiting spatial diversity using multiple microphones. IEEE Signal Process. Mag. 32(2): 18-30 (2015) - [c116]Yoshikazu Murase, Hironobu Chiba, Nobutaka Ono
, Shigeki Miyabe, Takeshi Yamada, Shoji Makino:
Diffuse noise suppression with asynchronous microphone array based on amplitude additivity model. APSIPA 2015: 599-603 - [c115]Hiroki Yajima, Shoji Makino
, Tomasz M. Rutkowski
:
Fingertip stimulus cue-based tactile brain-computer interface. APSIPA 2015: 1059-1064 - [c114]Daiki Aminaka, Shoji Makino
, Tomasz M. Rutkowski
:
SVM classification study of code-modulated visual evoked potentials. APSIPA 2015: 1065-1070 - [c113]Chisaki Nakaizumi, Shoji Makino
, Tomasz M. Rutkowski
:
Variable sound elevation features for head-related impulse response spatial auditory BCI. APSIPA 2015: 1094-1099 - [c112]Daiki Aminaka, Shoji Makino
, Tomasz M. Rutkowski
:
Classification Accuracy Improvement of Chromatic and High-Frequency Code-Modulated Visual Evoked Potential-Based BCI. BIH 2015: 232-241 - [c111]Chisaki Nakaizumi, Shoji Makino
, Tomasz M. Rutkowski
:
Head-related impulse response cues for spatial auditory brain-computer interface. EMBC 2015: 1071-1074 - [c110]Daiki Aminaka, Shoji Makino
, Tomasz M. Rutkowski
:
Chromatic and high-frequency cVEP-based BCI paradigm. EMBC 2015: 1906-1909 - [c109]Kensuke Shimizu, Shoji Makino
, Tomasz M. Rutkowski
:
Inter-stimulus interval study for the tactile point-pressure brain-computer interface. EMBC 2015: 1910-1913 - [c108]Shigeki Miyabe, Nobutaka Ono
, Shoji Makino
:
Estimating Correlation Coefficient Between Two Complex Signals Without Phase Observation. LVA/ICA 2015: 421-428 - [c107]Daiki Aminaka, Shoji Makino, Tomasz M. Rutkowski
:
EEG Filtering Optimization for Code-Modulated Chromatic Visual Evoked Potential-Based Brain-Computer Interface. Symbiotic 2015: 1-6 - [i17]Chisaki Nakaizumi, Shoji Makino, Tomasz M. Rutkowski:
Head-related Impulse Response Cues for Spatial Auditory Brain-computer Interface. CoRR abs/1506.04374 (2015) - [i16]Kensuke Shimizu, Shoji Makino, Tomasz M. Rutkowski:
Inter-stimulus Interval Study for the Tactile Point-pressure Brain-computer Interface. CoRR abs/1506.04458 (2015) - [i15]Daiki Aminaka, Shoji Makino, Tomasz M. Rutkowski:
Chromatic and High-frequency cVEP-based BCI Paradigm. CoRR abs/1506.04461 (2015) - 2014
- [c106]Hironobu Chiba, Yutaka Kamamoto, Takehiro Moriya, Noboru Harada, Shigeki Miyabe, Takeshi Yamada, Shoji Makino
:
Adaptive post-filtering controlled by pitch frequency for CELP-based speech coder. ACSSC 2014: 838-842 - [c105]Daiki Aminaka, Shoji Makino
, Tomasz M. Rutkowski
:
Chromatic SSVEP BCI paradigm targeting the higher frequency EEG responses. APSIPA 2014: 1-7 - [c104]Hao Lu, Takeshi Yamada, Shingo Imai, Takahiro Shinozaki, Ryuichi Nisimura, Kenkichi Ishizuka, Shoji Makino, Nobuhiko Kitawaki:
Automatic scoring method for open answer task in the SJ-CAT speaking test considering utterance difficulty level. APSIPA 2014: 1-5 - [c103]Hiromu Mori, Shoji Makino
, Tomasz M. Rutkowski
:
Tactile and bone-conduction auditory brain computer interface for vision and hearing impaired users - Stimulus pattern and BCI accuracy improvement. APSIPA 2014: 1-7 - [c102]Yoshikazu Murase, Hironobu Chiba, Nobutaka Ono
, Shigeki Miyabe, Takeshi Yamada, Shoji Makino:
On microphone arrangement for multichannel speech enhancement based on nonnegative matrix factorization in time-channel domain. APSIPA 2014: 1-5 - [c101]Hiroki Yajima, Shoji Makino
, Tomasz M. Rutkowski
:
P300 responses classification improvement in tactile BCI with touch-sense glove. APSIPA 2014: 1-7 - [c100]Xiao-Dong Zhai, Yuya Sugimoto, Shigeki Miyabe, Takeshi Yamada, Shoji Makino:
TDOA estimation by mapped steered response power analysis utilizing higher-order moments. APSIPA 2014: 1-4 - [c99]Keita Tsuzuki, Tomoyasu Nakano, Masataka Goto, Takeshi Yamada, Shoji Makino:
Unisoner: An Interactive Interface for Derivative Chorus Creation from Various Singing Voices on the Web. ICMC 2014 - [c98]Hiroki Katahira, Nobutaka Ono
, Shigeki Miyabe, Takeshi Yamada, Shoji Makino:
Generalized amplitude interpolation by β-divergence for virtual microphone array. IWAENC 2014: 149-153 - [c97]Hironobu Chiba, Nobutaka Ono
, Shigeki Miyabe, Yu Takahashi, Takeshi Yamada, Shoji Makino:
Amplitude-based speech enhancement with nonnegative matrix factorization for asynchronous distributed recording. IWAENC 2014: 203-207 - [c96]Takuya Toyoda, Nobutaka Ono
, Shigeki Miyabe, Takeshi Yamada, Shoji Makino:
Traffic monitoring with ad-hoc microphone array. IWAENC 2014: 318-322 - [c95]Kensuke Shimizu, Hiromu Mori, Shoji Makino
, Tomasz M. Rutkowski
:
Tactile pressure brain-computer interface using point matrix pattern paradigm. SCIS&ISIS 2014: 473-477 - [i14]Chisaki Nakaizumi, Toshie Matsui, Koichi Mori, Shoji Makino, Tomasz M. Rutkowski:
Head-related Impulse Response-based Spatial Auditory Brain-computer Interface. CoRR abs/1404.3958 (2014) - [i13]Takumi Kodama, Shoji Makino, Tomasz M. Rutkowski:
Spatial Tactile Brain-Computer Interface Paradigm Applying Vibration Stimuli to Large Areas of User's Back. CoRR abs/1404.4226 (2014) - 2013
- [c94]Zhenyu Cai, Shoji Makino
, Tomasz M. Rutkowski
:
Spatial auditory BCI with ERP responses to front-back to the head stimuli distinction support. APSIPA 2013: 1-8 - [c93]Jen-Tzung Chien
, Hiroshi Sawada, Shoji Makino:
Adaptive processing and learning for audio source separation. APSIPA 2013: 1-6 - [c92]Yoshihiro Matsumoto, Shoji Makino
, Koichi Mori, Tomasz M. Rutkowski
:
Classifying P300 responses to vowel stimuli for auditory brain-computer interface. APSIPA 2013: 1-5 - [c91]Nozomu Nishikawa, Shoji Makino
, Tomasz M. Rutkowski
:
Spatial auditory BCI paradigm based on real and virtual sound image generation. APSIPA 2013: 1-5 - [c90]Ryutaro Sakanashi, Nobutaka Ono
, Shigeki Miyabe, Takeshi Yamada, Shoji Makino:
Speech enhancement with ad-hoc microphone array using single source activity. APSIPA 2013: 1-6 - [c89]Hiromu Mori, Shoji Makino
, Tomasz M. Rutkowski
:
Multi-command Chest Tactile Brain Computer Interface for Small Vehicle Robot Navigation. Brain and Health Informatics 2013: 469-478 - [c88]Hiroki Katahira, Nobutaka Ono, Shigeki Miyabe, Takeshi Yamada, Shoji Makino:
Virtually increasing microphone array elements by interpolation in complex-logarithmic domain. EUSIPCO 2013: 1-5 - [c87]Hiromu Mori, Yoshihiro Matsumoto, Victor V. Kryssanov, Eric W. Cooper, Hitoshi Ogawa, Shoji Makino, Zbigniew R. Struzik
, Tomasz M. Rutkowski
:
Multi-command Tactile Brain Computer Interface: A Feasibility Study. HAID 2013: 50-59 - [c86]Shigeki Miyabe, Nobutaka Ono
, Shoji Makino:
Blind compensation of inter-channel sampling frequency mismatch with maximum likelihood estimation in STFT domain. ICASSP 2013: 674-678 - [c85]Chisaki Nakaizumi, Koichi Mori, Toshie Matsui, Shoji Makino
, Tomasz M. Rutkowski
:
Auditory Brain-Computer Interface Paradigm with Head Related Impulse Response-Based Spatial Cues. SITIS 2013: 806-811 - [c84]Shota Kono, Daiki Aminaka, Shoji Makino
, Tomasz M. Rutkowski
:
EEG Signal Processing and Classification for the Novel Tactile-Force Brain-Computer Interface Paradigm. SITIS 2013: 812-817 - [c83]Daiki Aminaka, Koichi Mori, Toshie Matsui, Shoji Makino
, Tomasz M. Rutkowski
:
Bone-Conduction-Based Brain Computer Interface Paradigm - EEG Signal Processing, Feature Extraction and Classification. SITIS 2013: 818-824 - [c82]Shigeki Miyabe, Nobutaka Ono
, Shoji Makino:
Optimizing frame analysis with non-integrer shift for sampling mismatch compensation of long recording. WASPAA 2013: 1-4 - [c81]Yuya Sugimoto, Shigeki Miyabe, Takeshi Yamada, Shoji Makino, Fred Juang:
Employing moments of multiple high orders for high-resolution underdetermined DOA estimation based on MUSIC. WASPAA 2013: 1-4 - [i12]Hiromu Mori, Yoshihiro Matsumoto, Zbigniew R. Struzik, Koichi Mori, Shoji Makino, Danilo P. Mandic, Tomasz M. Rutkowski:
Multi-command Tactile and Auditory Brain Computer Interface based on Head Position Stimulation. CoRR abs/1301.6357 (2013) - [i11]Moonjeong Chang, Nozomu Nishikawa, Zbigniew R. Struzik, Koichi Mori, Shoji Makino, Danilo P. Mandic, Tomasz M. Rutkowski:
Comparison of P300 Responses in Auditory, Visual and Audiovisual Spatial Speller BCI Paradigms. CoRR abs/1301.6360 (2013) - [i10]Hiromu Mori, Yoshihiro Matsumoto, Victor V. Kryssanov, Eric W. Cooper, Hitoshi Ogawa, Shoji Makino, Zbigniew R. Struzik, Tomasz M. Rutkowski:
Multi-command Tactile Brain Computer Interface: A Feasibility Study. CoRR abs/1305.4319 (2013) - [i9]Hiromu Mori, Shoji Makino, Tomasz M. Rutkowski:
Multi-command Chest Tactile Brain Computer Interface for Small Vehicle Robot Navigation. CoRR abs/1307.7342 (2013) - [i8]Shota Kono, Daiki Aminaka, Shoji Makino, Tomasz M. Rutkowski:
EEG Signal Processing and Classification for the Novel Tactile-Force Brain-Computer Interface Paradigm. CoRR abs/1310.1593 (2013) - [i7]Chisaki Nakaizumi, Koichi Mori, Toshie Matsui, Shoji Makino, Tomasz M. Rutkowski:
Auditory Brain-Computer Interface Paradigm with Head Related Impulse Response-based Spatial Cues. CoRR abs/1312.4106 (2013) - 2012
- [c80]Zhenyu Cai, Shoji Makino, Takeshi Yamada, Tomasz M. Rutkowski:
Spatial auditory BCI paradigm utilizing N200 and P300 responses. APSIPA 2012: 1-7 - [c79]Teruaki Kaniwa, Hiroko Terasawa, Masaki Matsubara, Tomasz M. Rutkowski, Shoji Makino:
EEG steady state synchrony patterns sonification. APSIPA 2012: 1-6 - [c78]Takuro Maruyama, Shoko Araki, Tomohiro Nakatani, Shigeki Miyabe, Takeshi Yamada, Shoji Makino, Atsushi Nakamura:
New analytical calculation and estimation of TDOA for underdetermined BSS in noisy environments. APSIPA 2012: 1-6 - [c77]Masaki Matsubara, Hiroko Terasawa, Hideki Kadone, Kenji Suzuki, Shoji Makino:
Sonification of muscular activity in human movements using the temporal patterns in EMG. APSIPA 2012: 1-5 - [c76]Yoshihiro Matsumoto, Nozomu Nishikawa, Shoji Makino, Takeshi Yamada, Tomasz M. Rutkowski:
Auditory steady-state response stimuli based BCI application - the optimization of the stimuli types and lengths. APSIPA 2012: 1-7 - [c75]Shigeki Miyabe, Takaya Hayashi, Takeshi Yamada, Shoji Makino:
Distance attenuation control of spherical loudspeaker array. APSIPA 2012: 1-4 - [c74]Nozomu Nishikawa, Yoshihiro Matsumoto, Shoji Makino, Tomasz M. Rutkowski:
The spatial real and virtual sound stimuli optimization for the auditory BCI. APSIPA 2012: 1-9 - [c73]Ryutaro Sakanashi, Shigeki Miyabe, Takeshi Yamada, Shoji Makino:
Comparison of superimposition and sparse models in blind source separation by multichannel Wiener filter. APSIPA 2012: 1-6 - [c72]