13. 雑音環境下における音源分離を認識規範とした音声認識法の提案 (第 309 回研究例会発表要旨) 羽二生篤, 鵜木祐史, 赤木正人 音声研究 8 (3), 82, 2004 | | 2004 |
A blind restoration model for bone-conducted speech based on a linear prediction scheme TT Vu, M Unoki, M Akagi IEICE Proceedings Series 41 (19AM2-C-5), 2007 | 7 | 2007 |
A comprehensive study on the effects of room reverberation on fundamental frequency estimation. R Petrick, M Unoki, A Mittal, C Segura, R Hoffmann INTERSPEECH, 131-134, 2008 | 4 | 2008 |
A computational model of co-modulation masking release M Unoki, M Akagi 北陸先端科学技術大学院大学情報科学研究科, 1998 | | 1998 |
A discriminative feature representation method based on cascaded attention network with adversarial strategy for speech emotion recognition Y Liu, H Sun, W Guan, Y Xia, Y Li, M Unoki, Z Zhao IEEE/ACM Transactions on Audio, Speech, and Language Processing 31, 1063-1074, 2023 | 4 | 2023 |
A fundamental frequency estimation method for noisy speech based on instantaneous amplitude and frequency Y Ishimoto, M Unoki, M Akagi Seventh European Conference on Speech Communication and Technology, 2001 | 19 | 2001 |
A fundamental frequency estimation method for noisy speech based on periodicity and harmonicity Y Ishimoto, M Unoki, M Akagi IEEE INTERNATIONAL CONFERENCE ON ACOUSTICS SPEECH AND SIGNAL PROCESSING 6 (1 …, 1999 | 1 | 1999 |
A fundamental study on modeling of auditory segregation based on auditory scene analysis M UNOKI | | 1996 |
A method based on the MTF concept for dereverberating the power envelope from the reverberant signal M Unoki, M Furukawa, K Sakata, M Akagi 2003 IEEE International Conference on Acoustics, Speech, and Signal …, 2003 | 35 | 2003 |
A METHOD BASED ON THE MTF FOR RECOVERING THE POWER ENVELOPE FROM REVERBERANT SPEECH M UNOKI, M FURUKAWA, M AKAGI | | |
A method for restoring bone-conducted speech based on the LPC model T tat Vu, M Unoki, M Akagi | | |
A method for signal extraction from noise‐added signals M Unoki, M Akagi Electronics and Communications in Japan (Part III: Fundamental Electronic …, 1997 | 18 | 1997 |
A method of extracting the harmonic tone from noisy signal based on auditory scene analysis M Unoki, M Akagi IEICE Trans 82, 1497-1507, 1999 | 5 | 1999 |
A method of signal extraction from noisy signal M Unoki, M Akagi Speech Communication 27 (3-4), 261-279, 1997 | 8 | 1997 |
A method of signal extraction from noisy signal based on auditory scene analysis M Unoki, M Akagi 北陸先端科学技術大学院大学情報科学研究科, 1998 | | 1998 |
A method of signal extraction from noisy signal based on auditory scene analysis M Unoki, M Akagi Speech Communication 27 (3-4), 261-279, 1999 | 80 | 1999 |
A model for selective segregation of a target instrument sound from the mixed sound of various instruments. M Unoki, M Kubo, A Haniu, M Akagi ICMC, 295-298, 2003 | 2 | 2003 |
A Model-Concept of the Selective Sound Segregation: A Prototype Model for Selective Segregation of Target Instrument Sound from the Mixed Sound of Various Instruments M Unoki, M Kubo, A Haniu, M Akagi Journal of signal processing, 2006 | 3 | 2006 |
A modulation-transfer-function-based method for restoring sub-band power envelope from noisy reverberant speech S Morita, M Unoki, X Lu, Y Liu, M Akagi, R Hoffmann The Journal of the Acoustical Society of America 131 (4_Supplement), 3521-3521, 2012 | 1 | 2012 |
A Non-Intrusive Speech Intelligibility Prediction Using Auditory Periphery Model Under Hearing Loss Perception CO Mawalim, BA Titalim, S Okada, M Unoki Available at SSRN 4424774, 0 | | |