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Shoji Makino
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2020 – today
- 2024
- [j45]Tetsuya Ueda, Tomohiro Nakatani, Rintaro Ikeshita, Shoko Araki, Shoji Makino:
DOA-informed switching independent vector extraction and beamforming for speech enhancement in underdetermined situations. EURASIP J. Audio Speech Music. Process. 2024(1): 52 (2024) - [j44]Tetsuya Ueda, Tomohiro Nakatani, Rintaro Ikeshita, Keisuke Kinoshita, Shoko Araki, Shoji Makino:
Blind and Spatially-Regularized Online Joint Optimization of Source Separation, Dereverberation, and Noise Reduction. IEEE ACM Trans. Audio Speech Lang. Process. 32: 1157-1172 (2024) - [j43]Xianrui Wang, Yichen Yang, Andreas Brendel, Tetsuya Ueda, Shoji Makino, Jacob Benesty, Walter Kellermann, Jingdong Chen:
On Semi-Blind Source Separation-Based Approaches to Nonlinear Echo Cancellation Based on Bilinear Alternating Optimization. IEEE ACM Trans. Audio Speech Lang. Process. 32: 2973-2987 (2024) - [c178]Kaien Mo, Xianrui Wang, Yichen Yang, Shoji Makino, Jingdong Chen:
Low Algorithmic Delay Implementation of Convolutional Beamformer for Online Joint Source Separation and Dereverberation. EUSIPCO 2024: 912-916 - [c177]Jiahui Hu, Tetsuya Ueda, Bo He, Shoji Makino:
A Computationally Efficient Online Algorithm for Tracking Single Moving Source using Geometrically Constrained Independent Vector Analysis. GCCE 2024: 522-523 - [c176]Rino Kimura, Tomohiro Nakatani, Naoyuki Kamo, Marc Delcroix, Shoko Araki, Tetsuya Ueda, Shoji Makino:
Diffusion Model-Based MIMO Speech Denoising and Dereverberation. ICASSP Workshops 2024: 455-459 - [c175]Mingxue Song, Tetsuya Ueda, Ruifeng Zhang, Jiahui Hu, Shoji Makino:
Geometrically Constrained Joint Moving Source Extraction and Dereverberation Based on Constant Separating Vector Mixing Model. ICASSP Workshops 2024: 530-534 - [c174]Kunxing Lu, Xianrui Wang, Tetsuya Ueda, Shoji Makino, Jingdong Chen:
A Computationally Efficient Semi-Blind Source Separation Approach for Nonlinear Echo Cancellation Based on an Element-Wise Iterative Source Steering. ICASSP 2024: 756-760 - [c173]Bo He, Shiqi Zhang, Xianrui Wang, Zheng Qiu, Daiki Takeuchi, Daisuke Niizumi, Noboru Harada, Shoji Makino:
Light Gated Multi Mini-Patch Extractor for Audio Classification. ICASSP Workshops 2024: 765-769 - [c172]Yichen Yang, Haowen Li, Xianrui Wang, Wen Zhang, Shoji Makino, Jingdong Chen:
Stereophonic Music Source Separation with Spatially-Informed Bridging Band-Split Network. ICASSP 2024: 786-790 - [c171]Shiqi Zhang, Zheng Qiu, Daiki Takeuchi, Noboru Harada, Shoji Makino:
Unrestricted Global Phase Bias-Aware Single-Channel Speech Enhancement with Conformer-Based Metric Gan. ICASSP 2024: 1026-1030 - [c170]Hanako Segawa, Tsubasa Ochiai, Marc Delcroix, Tomohiro Nakatani, Rintaro Ikeshita, Shoko Araki, Takeshi Yamada, Shoji Makino:
Neural Network-Based Virtual Microphone Estimation with Virtual Microphone and Beamformer-Level Multi-Task Loss. ICASSP 2024: 11021-11025 - [c169]Shinya Furunaga, Hiroshi Sawada, Rintaro Ikeshita, Tomohiro Nakatani, Shoji Makino:
Accurate Delayed Source Model for Multi-Frame Full-Rank Spatial Covariance Analysis. IWAENC 2024: 170-174 - [c168]Xianrui Wang, Kaien Mo, Yichen Yang, Liyuan Zhang, Shoji Makino, Jingdong Chen:
A Cascaded Semi-Blind Source Separation Method for Joint Acoustic Echo Cancellation, Interference Suppression, and Noise Reduction. IWAENC 2024: 369-373 - [c167]Yichen Yang, Xianrui Wang, Andreas Brendel, Wen Zhang, Jacob Benesty, Shoji Makino, Jingdong Chen:
A Data-Reuse Semi-Blind Source Separation Approach for Nonlinear Acoustic Echo Cancellation. IWAENC 2024: 379-383 - [i23]Shiqi Zhang, Zheng Qiu, Daiki Takeuchi, Noboru Harada, Shoji Makino:
Unrestricted Global Phase Bias-Aware Single-channel Speech Enhancement with Conformer-based Metric GAN. CoRR abs/2402.08252 (2024) - 2023
- [j42]Gaël Richard, Paris Smaragdis, Sharon Gannot, Patrick A. Naylor, Shoji Makino, Walter Kellermann, Akihiko Sugiyama:
Audio Signal Processing in the 21st Century: The important outcomes of the past 25 years. IEEE Signal Process. Mag. 40(5): 12-26 (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) - [c166]Shinya Furunaga, Tetsuya Ueda, Shoji Makino:
Moving Interference Speaker removal using Geometrically Constrained Independent Vector Analysis. APSIPA ASC 2023: 1058-1063 - [c165]Kaien Mo, Xianrui Wang, Yichen Yang, Tetsuya Ueda, Shoji Makino, Jingdong Chen:
On Joint Dereverberation and Source Separation with Geometrical Constraints and Iterative Source Steering. APSIPA ASC 2023: 1138-1142 - [c164]Haoran Xing, Shiqi Zhang, Daiki Takeuchi, Daisuke Niizumi, Noboru Harada, Shoji Makino:
Enhancing Spectrogram for Audio Classification Using Time-Frequency Enhancer. APSIPA ASC 2023: 1155-1160 - [c163]Ruifeng Zhang, Tetsuya Ueda, Shoji Makino:
Geometrically Constrained Blind Moving Source Extraction based on Constant Separation Vector and Auxiliary Function Technique. APSIPA ASC 2023: 2008-2012 - [c162]Tetsuya Ueda, Tomohiro Nakatani, Rintaro Ikeshita, Shoko Araki, Shoji Makino:
Spatially-Regularized Switching Independent Vector Analysis. APSIPA ASC 2023: 2024-2030 - [c161]Tetsuya Ueda, Shoji Makino:
Constant Separating Vector-based Blind Source Extraction and Dereverberation for a Moving Speaker. EUSIPCO 2023: 930-934 - [i22]Kunxing Lu, Xianrui Wang, Tetsuya Ueda, Shoji Makino, Jingdong Chen:
A computationally efficient semi-blind source separation based approach for nonlinear echo cancellation based on an element-wise iterative source steering. CoRR abs/2312.08610 (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]Takuro Maruyama, Shoko Araki, Tomohiro Nakatani, Shigeki Miyabe, Takeshi Yamada, Shoji Makino, Atsushi Nakamura:
New analytical update rule for TDOA inference for underdetermined BSS in noisy environments. ICASSP 2012: 269-272 - [c71]Yuya Sugimoto, Shigeki Miyabe, Takeshi Yamada, Shoji Makino, Fred Juang:
Underdetermined DOA Estimation by the Non-Linear MUSIC Exploiting Higher-Order Moments. IWAENC 2012 - [c70]Hiromu Mori, Yoshihiro Matsumito, Shoji Makino, Victor V. Kryssanov, Tomasz M. Rutkowski:
Vibrotactile stimulus frequency optimization for the haptic BCI prototype. SCIS&ISIS 2012: 2150-2153 - [c69]Moonjeong Chang, Nozomu Nishikawa, Zhenyu Cai, Shoji Makino, Tomasz M. Rutkowski:
Psychophysical responses comparison in spatial visual, audiovisual, and auditory BCI-spelling paradigms. SCIS&ISIS 2012: 2154-2157 - [i6]Tomasz M. Rutkowski, Hiromu Mori, Yoshihiro Matsumoto, Zhenyu Cai, Moonjeong Chang, Nozomu Nishikawa, Shoji Makino, Koichi Mori:
Haptic BCI Paradigm based on Somatosensory Evoked Potential. CoRR abs/1207.5720 (2012) - [i5]Hiromu Mori, Yoshihiro Matsumito, Shoji Makino, Victor V. Kryssanov, Tomasz M. Rutkowski:
Vibrotactile Stimulus Frequency Optimization for the Haptic BCI Prototype. CoRR abs/1210.2942 (2012) - [i4]Yoshihiro Matsumoto, Nozomu Nishikawa, Takeshi Yamada, Shoji Makino, Tomasz M. Rutkowski:
Auditory Steady-State Response Stimuli based BCI Application - The Optimization of the Stimuli Types and Lengths. CoRR abs/1210.2943 (2012) - [i3]Zhenyu Cai, Shoji Makino, Takeshi Yamada, Tomasz M. Rutkowski:
Spatial Auditory BCI Paradigm Utilizing N200 and P300 Responses. CoRR abs/1210.2944 (2012) - [i2]Nozomu Nishikawa, Yoshihiro Matsumoto, Shoji Makino, Tomasz M. Rutkowski:
The Spatial Real and Virtual Sound Stimuli Optimization for the Auditory BCI. CoRR abs/1210.2945 (2012) - [i1]Moonjeong Chang, Nozomu Nishikawa, Zhenyu Cai, Shoji Makino, Tomasz M. Rutkowski:
Psychophysical Responses Comparison in Spatial Visual, Audiovisual, and Auditory BCI-Spelling Paradigms. CoRR abs/1210.2959 (2012) - 2011
- [j28]Hiroshi Sawada, Shoko Araki, Shoji Makino:
Underdetermined Convolutive Blind Source Separation via Frequency Bin-Wise Clustering and Permutation Alignment. IEEE Trans. Speech Audio Process. 19(3): 516-527 (2011) - [j27]Shoko Araki, Hiroshi Sawada, Ryo Mukai, Shoji Makino:
DOA Estimation for Multiple Sparse Sources with Arbitrarily Arranged Multiple Sensors. J. Signal Process. Syst. 63(3): 265-275 (2011) - 2010
- [j26]Shoji Makino, Andrzej Cichocki, Wei Xing Zheng, Aurelio Uncini:
Guest Editorial Special Section on Blind Signal Processing and Its Applications. IEEE Trans. Circuits Syst. I Regul. Pap. 57-I(7): 1401-1403 (2010) - [c68]Takeshi Yoshitome, Kazuto Kamikura, Shoji Makino, Nobuhiko Kitawaki:
MPEG-2/H.264 Transcoding with Vector Conversion Reducing Re-Quantization Noise. ICCCN 2010: 1-6 - [c67]Takeshi Yamada, Tomohiro Nakajima, Nobuhiko Kitawaki, Shoji Makino:
Performance estimation of noisy speech recognition considering recognition task complexity. INTERSPEECH 2010: 2042-2045 - [c66]Yumi Ansa, Shoko Araki, Shoji Makino, Tomohiro Nakatani, Takeshi Yamada, Atsushi Nakamura, Nobuhiko Kitawaki:
Cepstral smoothing of separated signals for underdetermined speech separation. ISCAS 2010: 2506-2509 - [c65]Zhenyu Cai, Nobuhiko Kitawaki, Takeshi Yamada, Shoji Makino:
Comparison of MOS evaluation characteristics for Chinese, Japanese, and English in IP telephony. IUCS 2010: 112-115
2000 – 2009
- 2009
- [j25]Hiroko Kato Solvang, Yuichi Nagahara, Shoko Araki, Hiroshi Sawada, Shoji Makino:
Frequency-Domain Pearson Distribution Approach for Independent Component Analysis (FD-Pearson-ICA) in Blind Source Separation. IEEE Trans. Speech Audio Process. 17(4): 639-649 (2009) - [c64]Shoko Araki, Tomohiro Nakatani, Hiroshi Sawada, Shoji Makino:
Blind sparse source separation for unknown number of sources using Gaussian mixture model fitting with Dirichlet prior. ICASSP 2009: 33-36 - [c63]Shoko Araki, Tomohiro Nakatani, Hiroshi Sawada, Shoji Makino:
Stereo Source Separation and Source Counting with MAP Estimation with Dirichlet Prior Considering Spatial Aliasing Problem. ICA 2009: 742-750 - 2008
- [j24]Shoji Makino:
Special Section on Acoustic Scene Analysis and Reproduction. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 91-A(6): 1301-1302 (2008) - [c62]Shoko Araki, Masakiyo Fujimoto, Kentaro Ishizuka, Hiroshi Sawada, Shoji Makino:
Speaker indexing and speech enhancement in real meetings / conversations. ICASSP 2008: 93-96 - [c61]Dorothea Kolossa, Shoko Araki, Marc Delcroix, Tomohiro Nakatani, Reinhold Orglmeister, Shoji Makino:
Missing feature speech recognition in a meeting situation with maximum SNR beamforming. ISCAS 2008: 3218-3221 - 2007
- [j23]Stefan Winter, Walter Kellermann, Hiroshi Sawada, Shoji Makino:
MAP-Based Underdetermined Blind Source Separation of Convolutive Mixtures by Hierarchical Clustering and ℓ1-Norm Minimization. EURASIP J. Adv. Signal Process. 2007 (2007) - [j22]Shoko Araki, Hiroshi Sawada, Ryo Mukai, Shoji Makino:
Underdetermined blind sparse source separation for arbitrarily arranged multiple sensors. Signal Process. 87(8): 1833-1847 (2007) - [j21]Mirko Knaak, Shoko Araki, Shoji Makino:
Geometrically Constrained Independent Component Analysis. IEEE Trans. Speech Audio Process. 15(2): 715-726 (2007) - [j20]Scott C. Douglas, Malay Gupta, Hiroshi Sawada, Shoji Makino:
Spatio-Temporal FastICA Algorithms for the Blind Separation of Convolutive Mixtures. IEEE Trans. Speech Audio Process. 15(5): 1511-1520 (2007) - [j19]Hiroshi Sawada, Shoko Araki, Ryo Mukai, Shoji Makino:
Grouping Separated Frequency Components by Estimating Propagation Model Parameters in Frequency-Domain Blind Source Separation. IEEE Trans. Speech Audio Process. 15(5): 1592-1604 (2007) - [j18]Rodrigo Capobianco Guido, Li Deng, Shoji Makino:
Guest Editors' Introduction: Special Section on Emergent Systems, Algorithms and Architectures for Speech-Based Human-Machine Interaction. IEEE Trans. Computers 56(9): 1153-1155 (2007) - [c60]Emmanuel Vincent, Hiroshi Sawada, Pau Bofill, Shoji Makino, Justinian P. Rosca:
First Stereo Audio Source Separation Evaluation Campaign: Data, Algorithms and Results. ICA 2007: 552-559 - [c59]Shoji Makino, Hiroshi Sawada, Shoko Araki:
Blind Audio Source Separation Based on Independent Component Analysis. ICA 2007: 843 - [c58]Shoko Araki, Hiroshi Sawada, Shoji Makino:
Blind Speech Separation in a Meeting Situation with Maximum SNR Beamformers. ICASSP (1) 2007: 41-44 - [c57]Jan Cermak, Shoko Araki, Hiroshi Sawada, Shoji Makino:
Blind Source Separation Based on a Beamformer Array and Time Frequency Binary Masking. ICASSP (1) 2007: 145-148 - [c56]Hiroshi Sawada, Shoko Araki, Shoji Makino:
Measuring Dependence of Bin-wise Separated Signals for Permutation Alignment in Frequency-domain BSS. ISCAS 2007: 3247-3250 - [p3]Shoji Makino, Hiroshi Sawada, Shoko Araki:
Frequency-Domain Blind Source Separation. Blind Speech Separation 2007: 47-78 - [p2]Shoko Araki, Hiroshi Sawada, Shoji Makino:
K-means Based Underdetermined Blind Speech Separation. Blind Speech Separation 2007: 243-270 - [p1]Stefan Winter, Walter Kellermann, Hiroshi Sawada, Shoji Makino:
Underdetermined Blind Source Separation of Convolutive Mixtures by Hierarchical Clustering and L1-Norm Minimization. Blind Speech Separation 2007: 271-304 - [e1]Shoji Makino, Hiroshi Sawada, Te-Won Lee:
Blind Speech Separation. Signals and Communication Technology, Springer 2007, ISBN 978-1-4020-6478-4 [contents] - 2006
- [j17]Ryo Mukai, Hiroshi Sawada, Shoko Araki, Shoji Makino:
Frequency-Domain Blind Source Separation of Many Speech Signals Using Near-Field and Far-Field Models. EURASIP J. Adv. Signal Process. 2006 (2006) - [j16]Stefan Winter, Hiroshi Sawada, Shoji Makino:
Geometrical Interpretation of the PCA Subspace Approach for Overdetermined Blind Source Separation. EURASIP J. Adv. Signal Process. 2006 (2006) - [j15]Satoru Emura, Youichi Haneda, Akitoshi Kataoka, Shoji Makino:
Stereo echo cancellation algorithm using adaptive update on the basis of enhanced input-signal vector. Signal Process. 86(6): 1157-1167 (2006) - [j14]Hiroshi Sawada, Shoko Araki, Ryo Mukai, Shoji Makino:
Blind Extraction of Dominant Target Sources Using ICA and Time-Frequency Masking. IEEE Trans. Speech Audio Process. 14(6): 2165-2173 (2006) - [c55]Shoko Araki, Hiroshi Sawada, Ryo Mukai, Shoji Makino:
Normalized observation vector clustering approach for sparse source separation. EUSIPCO 2006: 1-5 - [c54]Hiroko Kato, Yuichi Nagahara, Shoko Araki, Hiroshi Sawada, Shoji Makino:
Parametric-Pearson-based independent component analysis for frequency-domain blind speech separation. EUSIPCO 2006: 1-5 - [c53]Stefan Winter, Walter Kellermann, Hiroshi Sawada, Shoji Makino:
Underdetermined source separation for colored sources. EUSIPCO 2006: 1-5 - [c52]Hiroshi Sawada, Shoko Araki, Ryo Mukai, Shoji Makino:
On Calculating the Inverse of Separation Matrix in Frequency-Domain Blind Source Separation. ICA 2006: 691-699 - [c51]Shoko Araki, Hiroshi Sawada, Ryo Mukai, Shoji Makino:
Doa Estimation for Multiple Sparse Sources with Normalized Observation Vector Clustering. ICASSP (5) 2006: 33-36 - [c50]Hiroshi Sawada, Shoko Araki, Ryo Mukai, Shoji Makino:
Solving the Permutation Problem of Frequency-Domain BSS when Spatial Aliasing Occurs with Wide Sensor Spacing. ICASSP (5) 2006: 77-80 - [c49]Enrique Robledo-Arnuncio, Hiroshi Sawada, Shoji Makino:
Frequency Domain Blind Source Separation of a Reduced Amount of Data Using Frequency Normalization. ICASSP (5) 2006: 837-840 - [c48]Ryo Mukai, Hiroshi Sawada, Shoko Araki, Shoji Makino:
Blind Source Separation of Many Signals in the Frequency Domain. ICASSP (5) 2006: 969-972 - [c47]Shoko Araki, Hiroshi Sawada, Ryo Mukai, Shoji Makino:
Underdetermined sparse source separation of convolutive mixtures with observation vector clustering. ISCAS 2006 - 2005
- [j13]Shoji Makino, Hiroshi Sawada, Ryo Mukai, Shoko Araki:
Blind Source Separation of Convolutive Mixtures of Speech in Frequency Domain. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 88-A(7): 1640-1655 (2005) - [j12]Audrey Blin, Shoko Araki, Shoji Makino:
Underdetermined Blind Separation of Convolutive Mixtures of Speech Using Time-Frequency Mask and Mixing Matrix Estimation. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 88-A(7): 1693-1700 (2005) - [j11]Shoko Araki, Shoji Makino, Robert Aichner, Tsuyoki Nishikawa, Hiroshi Saruwatari:
Subband-Based Blind Separation for Convolutive Mixtures of Speech. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 88-A(12): 3593-3603 (2005) - [j10]Scott C. Douglas, Hiroshi Sawada, Shoji Makino:
Natural gradient multichannel blind deconvolution and speech separation using causal FIR filters. IEEE Trans. Speech Audio Process. 13(1): 92-104 (2005) - [c46]Hiroshi Sawada, Shoko Araki, Ryo Mukai, Shoji Makino:
Blind extraction of a dominant source signal from mixtures of many sources [audio source separation applications]. ICASSP (3) 2005: 61-64 - [c45]Shoko Araki, Shoji Makino, Hiroshi Sawada, Ryo Mukai:
Reducing musical noise by a fine-shift overlap-add method applied to source separation using a time-frequency mask. ICASSP (3) 2005: 81-84 - [c44]Scott C. Douglas, Hiroshi Sawada, Shoji Makino:
A spatio-temporal fastICA algorithm for separating convolutive mixtures. ICASSP (5) 2005: 165-168 - [c43]Hiroshi Sawada, Shoko Araki, Ryo Mukai, Shoji Makino:
Blind extraction of a dominant source from mixtures of many sources using ICA and time-frequency masking. ISCAS (6) 2005: 5882-5885 - 2004
- [j9]Hiroshi Sawada, Ryo Mukai, Shoko Araki, Shoji Makino:
A robust and precise method for solving the permutation problem of frequency-domain blind source separation. IEEE Trans. Speech Audio Process. 12(5): 530-538 (2004) - [c42]Shoko Araki, Shoji Makino, Hiroshi Sawada, Ryo Mukai:
Underdetermined blind speech separation with directivity pattern based continuous mask and ICA. EUSIPCO 2004: 1991-1994 - [c41]Ryo Mukai, Hiroshi Sawada, Shoko Araki, Shoji Makino:
Frequency Domain Blind Source Separation for Many Speech Signals. ICA 2004: 461-469 - [c40]Hiroshi Sawada, Stefan Winter, Ryo Mukai, Shoko Araki, Shoji Makino:
Estimating the Number of Sources for Frequency-Domain Blind Source Separation. ICA 2004: 610-617 - [c39]Scott C. Douglas, Hiroshi Sawada, Shoji Makino:
On Coefficient Delay in Natural Gradient Blind Deconvolution and Source Separation Algorithms. ICA 2004: 634-642 - [c38]Stefan Winter, Hiroshi Sawada, Shoko Araki, Shoji Makino:
Overcomplete BSS for Convolutive Mixtures Based on Hierarchical Clustering. ICA 2004: 652-660 - [c37]Shoko Araki, Shoji Makino, Hiroshi Sawada, Ryo Mukai:
Underdetermined Blind Separation of Convolutive Mixtures of Speech with Directivity Pattern Based Mask and ICA. ICA 2004: 898-905 - [c36]Ryo Mukai, Hiroshi Sawada, Shoko Araki, Shoji Makino:
Near-field frequency domain blind source separation for convolutive mixtures. ICASSP (4) 2004: 49-52 - [c35]Audrey Blin, Shoko Araki, Shoji Makino:
A sparseness-mixing matrix estimation (SMME) solving the underdetermined BSS for convolutive mixtures. ICASSP (4) 2004: 85-88 - [c34]Scott C. Douglas, Hiroshi Sawada, Shoji Makino:
Natural gradient multichannel blind deconvolution and source separation using causal FIR filters. ICASSP (5) 2004: 477-480 - [c33]Shoko Araki, Shoji Makino, Audrey Blin, Ryo Mukai, Hiroshi Sawada:
Underdetermined blind separation for speech in real environments with sparseness and ICA. ICASSP (3) 2004: 881-884 - [c32]Hiroshi Sawada, Ryo Mukai, Shoko Araki, Shoji Makino:
Convolutive blind source separation for more than two sources in the frequency domain. ICASSP (3) 2004: 885-888 - [c31]Stefan Winter, Hiroshi Sawada, Shoko Araki, Shoji Makino:
Hierarchical clustering applied to overcomplete BSS for convolutive mixtures. SAPA@INTERSPEECH 2004: 48 - [c30]Ryo Mukai, Hiroshi Sawada, Shoko Araki, Shoji Makino:
Frequency domain blind source separation using small and large spacing sensor pairs. ISCAS (5) 2004: 1-4 - [c29]Shoji Makino, Shoko Araki, Ryo Mukai, Hiroshi Sawada:
Audio source separation based on independent component analysis. ISCAS (5) 2004: 668-671 - 2003
- [j8]Shoko Araki, Shoji Makino, Yoichi Hinamoto, Ryo Mukai, Tsuyoki Nishikawa, Hiroshi Saruwatari:
Equivalence between Frequency-Domain Blind Source Separation and Frequency-Domain Adaptive Beamforming for Convolutive Mixtures. EURASIP J. Adv. Signal Process. 2003(11): 1157-1166 (2003) - [j7]Hiroshi Sawada, Ryo Mukai, Shoko Araki, Shoji Makino:
Polar Coordinate Based Nonlinear Function for Frequency-Domain Blind Source Separation. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 86-A(3): 590-596 (2003) - [j6]Shoko Araki, Ryo Mukai, Shoji Makino, Tsuyoki Nishikawa, Hiroshi Saruwatari:
The fundamental limitation of frequency domain blind source separation for convolutive mixtures of speech. IEEE Trans. Speech Audio Process. 11(2): 109-116 (2003) - [c28]Hiroshi Sawada, Ryo Mukai, Shoko Araki, Shoji Makino:
A robust approach to the permutation problem of frequency-domain blind source separation. ICASSP (5) 2003: 381-384 - [c27]Ryo Mukai, Hiroshi Sawada, Shoko Araki, Shoji Makino:
Robust real-time blind source separation for moving speakers in a room. ICASSP (5) 2003: 469-472 - [c26]Shoko Araki, Shoji Makino, Robert Aichner, Tsuyoki Nishikawa, Hiroshi Saruwatari:
Subband based blind source separation for convolutive mixtures of speech. ICASSP (5) 2003: 509-512 - [c25]Mirko Knaak, Shoko Araki, Shoji Makino:
Geometrically constraint ICA for convolutive mixtures of sound. ICASSP (2) 2003: 725-728 - [c24]Stefan Winter, Hiroshi Sawada, Shoji Makino:
Geometrical understanding of the PCA subspace method for overdetermined blind source separation. ICASSP (2) 2003: 769-772 - [c23]Hiroshi Sawada, Ryo Mukai, Shoji Makino:
Direction of arrival estimation for multiple source signals using independent component analysis. ISSPA (2) 2003: 411-414 - 2002
- [c22]Hiroshi Sawada, Ryo Mukai, Shoko Araki, Shoji Makino:
Polar coordinate based nonlinear function for frequency-domain blind source separation. ICASSP 2002: 1001-1004 - [c21]Shoko Araki, Yoichi Hinamoto, Shoji Makino, Tsuyoki Nishikawa, Ryo Mukai, Hiroshi Saruwatari:
Equivalence between frequency domain blind source separation and frequency domain adaptive beamforming. ICASSP 2002: 1785-1788 - [c20]Ryo Mukai, Shoko Araki, Hiroshi Sawada, Shoji Makino:
Removal of residual cross-talk components in Blind Source Separation using time-delayed spectral subtraction. ICASSP 2002: 1789-1792 - [c19]Satoru Emura, Yoichi Haneda, Shoji Makino:
Enhanced frequency-domain adaptive algorithm for stereo echo cancellation. ICASSP 2002: 1901-1904 - [c18]Ryo Mukai, Shoko Araki, Hiroshi Sawada, Shoji Makino:
Removal of residual crosstalk components in blind source separation using LMS filters. NNSP 2002: 435-444 - [c17]Robert Aichner, Shoko Araki, Shoji Makino, Tsuyoki Nishikawa, Hiroshi Saruwatari:
Time domain blind source separation of non-stationary convolved signals by utilizing geometric beamforming. NNSP 2002: 445-454 - [c16]Hiroshi Sawada, Shoko Araki, Ryo Mukai, Shoji Makino:
Blind source separation with different sensor spacing and filter length for each frequency range. NNSP 2002: 465-474 - 2001
- [c15]Shoko Araki, Shoji Makino, Tsuyoki Nishikawa, Hiroshi Saruwatari:
Fundamental limitation of frequency domain blind source separation for convolutive mixture of speech. ICASSP 2001: 2737-2740 - [c14]Shoko Araki, Shoji Makino, Ryo Mukai, Hiroshi Saruwatari:
Equivalence between frequency domain blind source separation and frequency domain adaptive null beamformers. INTERSPEECH 2001: 2595-2598 - [c13]Ryo Mukai, Shoko Araki, Shoji Makino:
Separation and dereverberation performance of frequency domain blind source separation for speech in a reverberant environment. INTERSPEECH 2001: 2599-2602 - 2000
- [c12]Akira Nakagawa, Suehiro Shimauchi, Yoichi Haneda, Shigeaki Aoki, Shoji Makino:
Channel-number-compressed multi-channel acoustic echo canceller for high-presence teleconferencing system with large display. ICASSP 2000: 813-816
1990 – 1999
- 1999
- [j5]Masashi Tanaka, Shoji Makino, Junji Kojima:
A block exact fast affine projection algorithm. IEEE Trans. Speech Audio Process. 7(1): 79-86 (1999) - [j4]Yoichi Haneda, Shoji Makino, Yutaka Kaneda, Nobuhiko Kitawaki:
Common-acoustical-pole and zero modeling of head-related transfer functions. IEEE Trans. Speech Audio Process. 7(2): 188-196 (1999) - [c11]Suehiro Shimauchi, Shoji Makino, Yoichi Haneda, Akira Nakagawa, Sumitaka Sakauchi:
A stereo echo canceller implemented using a stereo shaker and a duo-filter control system. ICASSP 1999: 857-860 - 1998
- [c10]Suehiro Shimauchi, Yoichi Haneda, Shoji Makino, Yutaka Kaneda:
New configuration for a stereo echo canceller with nonlinear pre-processing. ICASSP 1998: 3685-3688 - 1997
- [j3]Yoichi Haneda, Shoji Makino, Yutaka Kaneda:
Multiple-point equalization of room transfer functions by using common acoustical poles. IEEE Trans. Speech Audio Process. 5(4): 325-333 (1997) - [c9]Shoji Makino, Klaus Strauss, Suehiro Shimauchi, Yoichi Haneda, Akira Nakagawa:
Subband stereo echo canceller using the projection algorithm with fast convergence to the true echo path. ICASSP 1997: 299-302 - 1996
- [c8]Yoichi Haneda, Shoji Makino, Junji Kojima, Suehiro Shimauchi:
Implementation and evaluation of an acoustic echo canceller using duo-filter control system. EUSIPCO 1996: 1-4 - [c7]Suehiro Shimauchi, Shoji Makino:
Stereo echo cancellation algorithm using imaginary input-output relationships. ICASSP 1996: 941-944 - [c6]Shoji Makino, Josef Noebauer, Yoichi Haneda, Akira Nakagawa:
SSB subband echo canceller using low-order projection algorithm. ICASSP 1996: 945-948 - 1995
- [c5]Masashi Tanaka, Yutaka Kaneda, Shoji Makino, Junji Kojima:
Fast projection algorithm and its step size control. ICASSP 1995: 945-948 - [c4]Suehiro Shimauchi, Shoji Makino:
Stereo projection echo canceller with true echo path estimation. ICASSP 1995: 3059-3062 - 1994
- [j2]Yoichi Haneda, Shoji Makino, Yutaka Kaneda:
Common acoustical pole and zero modeling of room transfer functions. IEEE Trans. Speech Audio Process. 2(2): 320-328 (1994) - [c3]Shoji Makino, Yutaka Kaneda:
A new RLS algorithm based on the variation characteristics of a room impulse response. ICASSP (3) 1994: 373-376 - 1993
- [j1]Shoji Makino, Yutaka Kaneda, Nobuo Koizumi:
Exponentially weighted stepsize NLMS adaptive filter based on the statistics of a room impulse response. IEEE Trans. Speech Audio Process. 1(1): 101-108 (1993) - 1992
- [c2]Yoichi Haneda, Shoji Makino, Yutaka Kaneda:
Modeling of a room transfer function using common acoustical poles. ICASSP 1992: 213-216 - 1990
- [c1]Shoji Makino, Yutaka Kaneda:
Acoustic echo canceller algorithm based on the variation characteristics of a room impulse response. ICASSP 1990: 1133-1136
Coauthor Index
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last updated on 2024-12-13 19:12 CET by the dblp team
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