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Changchun Bao
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2020 – today
- 2024
- [j40]Chunxi Wang, Maoshen Jia
, Meiran Li, Changchun Bao, Wenyu Jin:
Exploring the power of pure attention mechanisms in blind room parameter estimation. EURASIP J. Audio Speech Music. Process. 2024(1): 23 (2024) - [j39]Jing Zhou, Changchun Bao
, Maoshen Jia, Wenmeng Xiong:
A distortionless convolution beamformer design method based on the weighted minimum mean square error for joint dereverberation and denoising. Speech Commun. 158: 103054 (2024) - [j38]Wenmeng Xiong
, Changchun Bao
, Jing Zhou
, Maoshen Jia
, José Picheral
:
Joint DOA Estimation and Dereverberation Based on Multi-Channel Linear Prediction Filtering and Azimuth Sparsity. IEEE ACM Trans. Audio Speech Lang. Process. 32: 1481-1493 (2024) - [j37]Liang Tao
, Maoshen Jia
, Changchun Bao
, Wenmeng Xiong
:
First-Order Relative Harmonic Coefficient-Based Time-Frequency Points Selection for Multi-Source DOA Estimation. IEEE ACM Trans. Audio Speech Lang. Process. 32: 3200-3212 (2024) - [j36]Qi Wang
, Mingkuan Liu, Changchun Bao
, Maoshen Jia
:
Harmonic-Aware Frequency and Time Attention for Automatic Piano Transcription. IEEE ACM Trans. Audio Speech Lang. Process. 32: 3492-3506 (2024) - [j35]Xue Yang
, Changchun Bao
, Xianhong Chen
:
Coarse-to-Fine Target Speaker Extraction Based on Contextual Information Exploitation. IEEE ACM Trans. Audio Speech Lang. Process. 32: 3795-3810 (2024) - [j34]Lu Li
, Maoshen Jia
, Changchun Bao
:
Three-Dimensional Room Transfer Function Parameterization Based on Multiple Concentric Planar Circular Arrays. IEEE ACM Trans. Audio Speech Lang. Process. 32: 4384-4398 (2024) - [c117]Chunxi Wang, Maoshen Jia, Meiran Li, Changchun Bao, Wenyu Jin:
Attention Is All You Need For Blind Room Volume Estimation. ICASSP 2024: 1341-1345 - [c116]Xue Yang, Changchun Bao, Jing Zhou, Xianhong Chen:
Target Speaker Extraction by Directly Exploiting Contextual Information in the Time-Frequency Domain. ICASSP 2024: 10476-10480 - [c115]Xue Yang, Changchun Bao, Jing Zhou, Xu Zhang, Haiwei Duan, Yunhao Zhao, Wenwen Li:
Implementation of Multichannel Speech Coding Based on the Opus Codec and Spatial Parameters. ICSPCC 2024: 1-5 - [i6]Chunxi Wang, Maoshen Jia, Meiran Li, Changchun Bao, Wenyu Jin:
SS-BRPE: Self-Supervised Blind Room Parameter Estimation Using Attention Mechanisms. CoRR abs/2409.05212 (2024) - 2023
- [j33]Wenmeng Xiong, Changchun Bao
, Maoshen Jia, José Picheral:
Study of MVDR Beamforming with Spatially Distributed Source: Theoretical Analysis and Efficient Microphone Array Geometry Optimization Method. Circuits Syst. Signal Process. 42(8): 4897-4915 (2023) - [j32]Xue Yang, Changchun Bao
, Xianhong Chen:
Coarse-to-fine speech separation method in the time-frequency domain. Speech Commun. 155: 103003 (2023) - [c114]Yunhao Zhao, Changchun Bao, Xue Yang, Jing Zhou:
GAN-Based Time-Domain Packet Loss Concealment Method with Consistent Mapping Approach. APSIPA ASC 2023: 2429-2435 - [c113]Haiwei Duan, Changchun Bao, Jing Zhou:
Multi-Source Localization Method Based on the Log-Mel Spectrum Augmented Noise Subspace. ICSPCC 2023: 1-5 - [c112]Wenwen Li, Changchun Bao, Jing Zhou, Xue Yang:
A Time-domain Packet Loss Concealment Method by Designing Transformer-based Convolutional Recurrent Network. ICSPCC 2023: 1-5 - [c111]Xu Zhang, Changchun Bao, Jing Zhou, Xue Yang:
A Beam-TFDPRNN Based Speech Separation Method in Reverberant Environments. ICSPCC 2023: 1-5 - [c110]Yunhao Zhao, Changchun Bao, Xue Yang:
Predictive Packet Loss Concealment Method Based on Conformer and Temporal Convolution Module. ICSPCC 2023: 1-5 - [c109]Xue Yang, Changchun Bao, Xu Zhang, Xianhong Chen:
Monaural Speech Separation Method Based on Recurrent Attention with Parallel Branches. INTERSPEECH 2023: 3794-3798 - [i5]Chunxi Wang, Maoshen Jia, Meiran Li, Changchun Bao, Wenyu Jin:
Attention Is All You Need For Blind Room Volume Estimation. CoRR abs/2309.13504 (2023) - 2022
- [j31]Shuhao Deng, Changchun Bao:
Phase unwrapping based packet loss concealment using deep neural networks. Speech Commun. 138: 88-97 (2022) - [j30]Zihao Cui
, Changchun Bao
:
Analysis-by-synthesis based training target extraction of the DNN for noise masking. Speech Commun. 144: 26-41 (2022) - [j29]Wenmeng Xiong
, Changchun Bao
, Mao-shen Jia
, José Picheral:
Speech Enhancement With Robust Beamforming for Spatially Overlapped and Distributed Sources. IEEE ACM Trans. Audio Speech Lang. Process. 30: 2778-2790 (2022) - [c108]Shuhao Deng, Changchun Bao:
DNN-based Multi-Channel Speech Coding Employing Sound Localization. DCC 2022: 451 - [c107]Yao Zhou, Changchun Bao:
A New Parametric Coding Method Combined Linear Microphone Array Topology. DCC 2022: 497 - [c106]Deyu Luo
, Xianhong Chen
, Maoshen Jia
, Changchun Bao
:
Speech Recognition Method based on CTC Multilayer Loss. ICCPR 2022: 392-397 - [c105]Ting Liu, Changchun Bao, Jing Zhou, Fengqi Tan:
Dereverberation and Noise Reduction Based on PSD Estimation with Low Complexity. ICSPCC 2022: 1-5 - [c104]Fengqi Tan, Changchun Bao, Ting Liu:
An Effective Dereverberation Algorithm by Fusing MVDR and MCLP. ICSPCC 2022: 1-5 - [c103]Tongtong Zhao, Changchun Bao, Xue Yang, Xu Zhang:
DPTNet-based Beamforming for Speech Separation. ICSPCC 2022: 1-5 - [c102]Yao Zhou, Changchun Bao, Jinwei Huang, Yunhao Zhao:
A Neural Vocoder Based Packet Loss Concealment Algorithm. ICSPCC 2022: 1-5 - [c101]Xue Yang, Changchun Bao:
Embedding Recurrent Layers with Dual-Path Strategy in a Variant of Convolutional Network for Speaker-Independent Speech Separation. INTERSPEECH 2022: 5338-5342 - [c100]Jing Zhou, Changchun Bao:
Multi-source wideband DOA estimation method by frequency focusing and error weighting. INTERSPEECH 2022: 5423-5427 - [i4]Xue Yang, Changchun Bao:
Embedding Recurrent Layers with Dual-Path Strategy in a Variant of Convolutional Network for Speaker-Independent Speech Separation. CoRR abs/2203.13574 (2022) - [i3]Yao Zhou, Changchun Bao:
A Neural Vocoder Based Packet Loss Concealment Algorithm. CoRR abs/2203.14010 (2022) - [i2]Jing Zhou, Changchun Bao:
Multi-source wideband doa estimation method by frequency focusing and error weighting. CoRR abs/2203.14494 (2022) - 2021
- [j28]Changchun Bao, Yufei Guo
, Leru Luo, Guanqun Su:
Design of a Fixed-Wing UAV Controller Based on Adaptive Backstepping Sliding Mode Control Method. IEEE Access 9: 157825-157841 (2021) - [j27]Maoshen Jia
, Shang Gao, Changchun Bao:
Multi-source localization by using offset residual weight. EURASIP J. Audio Speech Music. Process. 2021(1): 23 (2021) - [j26]Zihao Cui
, Changchun Bao
:
Power Exponent Based Weighting Criterion for DNN-Based Mask Approximation in Speech Enhancement. IEEE Signal Process. Lett. 28: 618-622 (2021) - [j25]Maoshen Jia
, Yuxuan Wu, Changchun Bao
, Christian H. Ritz:
Multi-Source DOA Estimation in Reverberant Environments by Jointing Detection and Modeling of Time-Frequency Points. IEEE ACM Trans. Audio Speech Lang. Process. 29: 379-392 (2021) - [j24]Xianhong Chen
, Changchun Bao
:
Phoneme-Unit-Specific Time-Delay Neural Network for Speaker Verification. IEEE ACM Trans. Audio Speech Lang. Process. 29: 1243-1255 (2021) - [c99]Shang Gao, Maoshen Jia, Changchun Bao:
A multi-source localization method based on clustering and outlier removal. APSIPA ASC 2021: 950-955 - [c98]Xinyu Li, Changchun Bao, Zihao Cui
:
An NMF-based MMSE Approach for Single Channel Speech Enhancement Using Densely Connected Convolutional Network. ICSPCC 2021: 1-5 - [c97]Yuchen Liang, Changchun Bao, Jing Zhou:
An Implementaion of the CNN-Based MVDR Beamforming For Speech Enhancement. ICSPCC 2021: 1-5 - [c96]Fengqi Tan, Changchun Bao:
Kronecker Product Based Linear Prediction Kalman Filter for Dereverberation and Noise Reduction. ICSPCC 2021: 1-5 - [c95]Xue Yang, Changchun Bao:
A New Four-Channel Speech Coding Method Based on Recurrent Neural Network. ICSPCC 2021: 1-5 - [c94]Jinru Zhu, Changchun Bao:
Multi-channel Speech Coding Based on Phase Alignment and Energy Ratio of Internal Channels. ICSPCC 2021: 1-5 - [c93]Jinru Zhu, Changchun Bao:
GAN-Based Inter-Channel Amplitude Ratio Decoding in Multi-Channel Speech Coding. ISCSLP 2021: 1-5 - 2020
- [j23]Yang Xiang
, Changchun Bao
:
A Parallel-Data-Free Speech Enhancement Method Using Multi-Objective Learning Cycle-Consistent Generative Adversarial Network. IEEE ACM Trans. Audio Speech Lang. Process. 28: 1826-1838 (2020) - [c92]Zihao Cui
, Changchun Bao, Jesper Kjær Nielsen
, Mads Græsbøll Christensen
:
Autoregressive Parameter Estimation with Dnn-Based Pre-Processing. ICASSP 2020: 6759-6763 - [c91]Zhigang Bai, Changchun Bao, Zihao Cui
:
Prediction of NMF-based Wiener Filter for Speech Enhancement Using Deep Neural Networks. ICSPCC 2020: 1-5 - [c90]Shuhao Deng, Changchun Bao, Rui Cheng
:
GEV Beamforming with BAN Integrating LPS Estimation and Post-filtering. ICSPCC 2020: 1-5 - [c89]Dujuan Wang, Changchun Bao:
Multi-channel Speech Enhancement Based on the MVDR Beamformer and Postfilter. ICSPCC 2020: 1-5 - [c88]Yang Xiang, Changchun Bao, Jing Yuan:
A Weekly Supervised Speech Enhancement Strategy using Cycle-GAN. ICSPCC 2020: 1-5 - [c87]Jing Yuan, Changchun Bao:
Multi-channel Speech Enhancement with Multiple-target GANs. ICSPCC 2020: 1-5 - [c86]Rui Cheng
, Changchun Bao:
Speech Enhancement Based on Beamforming and Post-Filtering by Combining Phase Information. INTERSPEECH 2020: 4496-4500
2010 – 2019
- 2019
- [j22]Yan Yang, Changchun Bao
:
RS-CAE-Based AR-Wiener Filtering and Harmonic Recovery for Speech Enhancement. IEEE ACM Trans. Audio Speech Lang. Process. 27(11): 1752-1762 (2019) - [c85]Jing Yuan, Changchun Bao:
CycleGAN-based speech enhancement for the unpaired training data. APSIPA 2019: 878-883 - [c84]Rui Cheng
, Changchun Bao:
Phase Unwrapping Based Speech Enhancement. APSIPA 2019: 884-889 - [c83]Dujuan Wang, Changchun Bao:
End-to-End Speech Enhancement Using Fully Convolutional Networks with Skip Connections. APSIPA 2019: 890-895 - [c82]Yao Zhou, Changchun Bao, Rui Cheng
:
GSC Based Speech Enhancement with Generative Adversarial Network. APSIPA 2019: 901-906 - [c81]Zihao Cui
, Changchun Bao:
Linear Prediction-based Part-defined Auto-encoder Used for Speech Enhancement. ICASSP 2019: 6880-6884 - [c80]Jiaming Zhang, Mao-shen Jia, Changchun Bao, Qi Wang:
Sound Field Reproduction in Reverberant Room Using the Alternating Direction Method of Multipliers Based Lasso and Regularized Least-Square. ICIC (1) 2019: 111-120 - [c79]Xianyun Wang, Changchun Bao:
Masking Estimation with Phase Restoration of Clean Speech for Monaural Speech Enhancement. INTERSPEECH 2019: 3188-3192 - [c78]Xianyun Wang, Changchun Bao, Rui Cheng
:
IRM with Phase Parameterization for Speech Enhancement. WASPAA 2019: 209-213 - 2018
- [j21]Jundai Sun, Maoshen Jia, Changchun Bao:
Multiple Source Localization by Using Improved Single Source Bins Detection. J. Inf. Hiding Multim. Signal Process. 9(1): 145-152 (2018) - [j20]Mao-shen Jia
, Yuxuan Wu, Changchun Bao, Jing Wang
:
Multiple Sound Sources Localization with Frame-by-Frame Component Removal of Statistically Dominant Source. Sensors 18(11): 3613 (2018) - [j19]Mao-shen Jia
, Jundai Sun, Changchun Bao, Christian H. Ritz
:
Separation of multiple speech sources by recovering sparse and non-sparse components from B-format microphone recordings. Speech Commun. 96: 184-196 (2018) - [j18]Xianyun Wang, Feng Bao, Changchun Bao:
IRM estimation based on data field of cochleagram for speech enhancement. Speech Commun. 97: 19-31 (2018) - [j17]Bing Bu, Changchun Bao
, Mao-shen Jia
:
Design of a Planar First-Order Loudspeaker Array for Global Active Noise Control. IEEE ACM Trans. Audio Speech Lang. Process. 26(11): 2240-2250 (2018) - [c77]Rui Cheng
, Changchun Bao, Yang Xiang:
Speech Enhancement with Phase Correction based on Modified DNN Architecture. APSIPA 2018: 1222-1227 - [c76]Yan Yang, Changchun Bao:
Dnn-Based Ar-Wiener Filtering for Speech Enhancement. ICASSP 2018: 2901-2905 - [c75]Yang Xiang, Changchun Bao:
Speech Enhancement via Generative Adversarial LSTM Networks. IWAENC 2018: 46-50 - [c74]Qizheng Huang, Changchun Bao, Xianyun Wang, Yang Xiang:
DNN-Based Speech Enhancement Using MBE Model. IWAENC 2018: 196-200 - [i1]Dezhi Wang, Lilun Zhang, Changchun Bao, Kele Xu, Boqing Zhu, Qiuqiang Kong:
Weakly supervised CRNN system for sound event detection with large-scale unlabeled in-domain data. CoRR abs/1811.00301 (2018) - 2017
- [j16]Bing Bu, Changchun Bao, Mao-shen Jia:
Simulating the Three-Dimensional Room Transfer Function for a Rotatable Complex Source. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 100-A(11): 2487-2492 (2017) - [j15]Mao-shen Jia
, Jundai Sun, Changchun Bao:
Real-time multiple sound source localization and counting using a soundfield microphone. J. Ambient Intell. Humaniz. Comput. 8(6): 829-844 (2017) - [j14]Yue Hao, Feng Bao, Changchun Bao:
A data-driven speech enhancement method based on A* longest segment searching technique. Speech Commun. 92: 142-151 (2017) - [j13]Qi He, Feng Bao, Changchun Bao:
Multiplicative Update of Auto-Regressive Gains for Codebook-Based Speech Enhancement. IEEE ACM Trans. Audio Speech Lang. Process. 25(3): 457-468 (2017) - [c73]Nan Chen, Changchun Bao, Xianyun Wang:
Speech enhancement based on binaural cues. APSIPA 2017: 145-148 - [c72]Yan Yang, Changchun Bao, Xianyun Wang:
Codebook-driven speech enhancement using DNN and harmonic emphasis. APSIPA 2017: 149-154 - [c71]Jundai Sun, Mao-shen Jia, Changchun Bao:
Multiple source localization by using energy weighted single source zone detection. APSIPA 2017: 1679-1683 - [c70]Jundai Sun, Maoshen Jia, Changchun Bao, Boxuan Song:
Multiple audio source separation by using intra-object-sparsity encoding framework. ICSPCC 2017: 1-5 - [c69]Yang Xiang, Changchun Bao:
A codebook-driven speech enhancement method by exploiting speech harmonicity. ICSPCC 2017: 1-5 - [c68]Xianyun Wang, Changchun Bao, Feng Bao:
A Mask Estimation Method Integrating Data Field Model for Speech Enhancement. INTERSPEECH 2017: 1904-1908 - [c67]Qizheng Huang, Changchun Bao, Xianyun Wang:
Improved Codebook-Based Speech Enhancement Based on MBE Model. INTERSPEECH 2017: 3627-3631 - 2016
- [j12]Xin Liu, Changchun Bao:
Audio bandwidth extension using ensemble of recurrent neural networks. EURASIP J. Audio Speech Music. Process. 2016: 12 (2016) - [j11]Feng Deng, Changchun Bao:
Speech enhancement based on AR model parameters estimation. Speech Commun. 79: 30-46 (2016) - [j10]Xin Liu, Changchun Bao:
Audio Bandwidth Extension Based on Ensemble Echo State Networks with Temporal Evolution. IEEE ACM Trans. Audio Speech Lang. Process. 24(3): 594-607 (2016) - [c66]Jian-Hong Pan, Changchun Bao, Bing Bu, Mao-shen Jia:
Measurement of the acoustic transfer function using compressed sensing techniques. APSIPA 2016: 1-4 - [c65]Xianyun Wang, Changchun Bao:
Speech enhancement method with geometric phase estimation by incorporating MIXMAX model. APSIPA 2016: 1-4 - [c64]Qi He, Changchun Bao, Feng Bao:
Multiplicative update of AR gains in codebook-driven speech enhancement. ICASSP 2016: 5230-5234 - [c63]Nan Chen, Changchun Bao, Feng Deng:
Speech enhancement with binaural cues derived from a priori codebook. ISCSLP 2016: 1-5 - [c62]Feng Deng, Changchun Bao, Mao-shen Jia:
HMM-based cue parameters estimation for speech enhancement. ISCSLP 2016: 1-4 - 2015
- [j9]Feng Deng, Changchun Bao:
Speech enhancement based on Bayesian decision and spectral amplitude estimation. EURASIP J. Audio Speech Music. Process. 2015: 28 (2015) - [j8]Mao-shen Jia
, Ziyu Yang, Changchun Bao, Xiguang Zheng
, Christian H. Ritz
:
Encoding Multiple Audio Objects Using Intra-Object Sparsity. IEEE ACM Trans. Audio Speech Lang. Process. 23(6): 1082-1095 (2015) - [j7]Feng Deng, Changchun Bao, W. Bastiaan Kleijn
:
Sparse Hidden Markov Models for Speech Enhancement in Non-Stationary Noise Environments. IEEE ACM Trans. Audio Speech Lang. Process. 23(11): 1973-1987 (2015) - [c61]Meng-fang Zha, Changchun Bao, Mao-shen Jia:
3D multizone soundfield reproduction in the reverberant room using a spherical loudspeaker array. APSIPA 2015: 23-26 - [c60]Qi He, Changchun Bao:
A gain-adaptive parallel HMM for speech enhancement. APSIPA 2015: 35-42 - [c59]Ziyu Yang, Mao-shen Jia, Changchun Bao, Wenbei Wang:
An analysis-by-synthesis encoding approach for multiple audio objects. APSIPA 2015: 59-62 - [c58]Yue Hao, Changchun Bao:
An improved dictionary learning method for speech enhancement. APSIPA 2015: 144-147 - [c57]Qing Wang, Changchun Bao:
Codebook-based speech enhancement with Bayesian LP parameters estimation. APSIPA 2015: 1245-1248 - [c56]Bing Bu, Changchun Bao, Mao-shen Jia, Meng-fang Zha:
Conversion of multichannel sound signals based on spherical harmonics with L1-norm constraint. ChinaSIP 2015: 79-83 - [c55]Meng-fang Zha, Changchun Bao, Mao-shen Jia, Bing Bu:
3D multizone soundfield reproduction using spherical harmonic analysis. ChinaSIP 2015: 625-629 - [c54]Qing Wang, Changchun Bao, Feng Bao:
A novel Bayesian framework for speech enhancement using speech presence uncertainty. ChinaSIP 2015: 677-681 - [c53]Feng Deng, Changchun Bao, W. Bastiaan Kleijn
:
Sparse HMM-based speech enhancement method for stationary and non-stationary noise environments. ICASSP 2015: 5073-5077 - [c52]Qi He, Changchun Bao, Feng Bao:
Codebook-based speech enhancement using Markov process and speech-presence probability. INTERSPEECH 2015: 1780-1784 - [c51]Yue Hao, Changchun Bao, Feng Bao, Feng Deng:
A data-driven speech enhancement method based on modeled long-range temporal dynamics. INTERSPEECH 2015: 1790-1794 - 2014
- [j6]Changchun Bao, Xin Liu, Yong-tao Sha, Xingtao Zhang:
A blind bandwidth extension method for audio signals based on phase space reconstruction. EURASIP J. Audio Speech Music. Process. 2014: 1 (2014) - [j5]Xin Liu, Changchun Bao:
Audio bandwidth extension based on temporal smoothing cepstral coefficients. EURASIP J. Audio Speech Music. Process. 2014: 41 (2014) - [j4]Feng Deng, Feng Bao, Changchun Bao:
Speech enhancement using generalized weighted β-order spectral amplitude estimator. Speech Commun. 59: 55-68 (2014) - [j3]Bingyin Xia, Changchun Bao:
Wiener filtering based speech enhancement with Weighted Denoising Auto-encoder and noise classification. Speech Commun. 60: 13-29 (2014) - [c50]Feng Bao, Hui-jing Dou, Mao-shen Jia, Changchun Bao:
A novel speech enhancement method using power spectra smooth in Wiener filtering. APSIPA 2014: 1-4 - [c49]Feng Bao, Mao-shen Jia, Changchun Bao, Hui-jing Dou:
Speech enhancement based on a novel weighting spectral distortion measure. APSIPA 2014: 1-4 - [c48]Ling-song Zhou, Changchun Bao, Mao-shen Jia, Bing Bu:
Range extrapolation of Head-Related Transfer Function using improved Higher Order Ambisonics. APSIPA 2014: 1-4 - [c47]Rong Zhu, Changchun Bao, Mao-shen Jia, Bing Bu, Ling-song Zhou:
The design of HOA irregular decoders based on the optimal symmetrical virtual microphone response. APSIPA 2014: 1-4 - [c46]Feng Bao, Hui-jing Dou, Mao-shen Jia, Changchun Bao:
Speech enhancement based on a few shapes of speech spectrum. ChinaSIP 2014: 90-94 - [c45]Ling-song Zhou, Mao-shen Jia, Changchun Bao, Bing Bu:
Multi-source sound field reproduction using cylindrical harmonic analysis. ChinaSIP 2014: 129-132 - [c44]Zheng-yang Sun, Changchun Bao, Mao-shen Jia, Bing Bu:
Relative distance estimation in multi-channel spatial audio signal. ICAILP 2014: 35-38 - [c43]Rong Zhu, Changchun Bao, Mao-shen Jia, Bing Bu:
The design of ambisonics decoders for irregular speaker array conforming to subjective perception. ICAILP 2014: 721-725 - [c42]