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ORCIDKai Chen 0029
Person information
- affiliation: Nanjing University, Key Laboratory of Modern Acoustics, China
Other persons with the same name
- Kai Chen — disambiguation page
- Kai Chen 0001
![[0000-0001-6384-0355]](https://dblp.dagstuhl.de/img/orcid-mark.12x12.png "0000-0001-6384-0355")
— University of Science and Technology of China, Department of Electronics Science and Technology, Hefei, China (and 1 more) - Kai Chen 0002 — University of California at Berkeley, EECS Department, CA, USA
- Kai Chen 0003 — Google, Mountain View, CA, USA (and 1 more)
- Kai Chen 0004 — Xi'an Jiaotong University, School of Electronic and Information Engineering
- Kai Chen 0005 — Hong Kong University of Science and Technology (and 1 more)
- Kai Chen 0006 — Hong Kong University of Science and Technology, Robotics and Autonomous Systems Thrust, Guangzhou, China (and 1 more)
- Kai Chen 0007 — Cisco Systems (and 1 more)
- Kai Chen 0008 — University of Science and Technology of China, Department of Modern Physics
- Kai Chen 0009 — University of Science and Technology of China, Department of Computer Science
- Kai Chen 0010 — Google (and 2 more)
- Kai Chen 0011 — University of Fribourg, Switzerland
- Kai Chen 0012 — Chinese Academy of Sciences, Institute of Information Engineering, SKLOIS, Beijing, China
- Kai Chen 0013 — Qualcomm, Wireless R&D Department, Beijing, China (and 2 more)
- Kai Chen 0014 — China University of Geosciences, School of Geophysics and Information Technology, Beijing, China
- Kai Chen 0015 — University of Southern California, Dept. of Industrial and Systems Engineering
- Kai Chen 0016 — Huazhong University of Science and Technology, School of Computer Science and Technology, Services Computing Technology and System Lab / Cluster and Grid Computing Lab, China
- Kai Chen 0017 — Zhejiang University
- Kai Chen 0018 — University of Electronic Science and Technology of China, School of Automation Engineering, Chengdu, China
- Kai Chen 0019 — Xiamen University, China
- Kai Chen 0020 — National University of Defense Technology, National Laboratory for Parallel and Distributed Processing, Changsha, China
- Kai Chen 0021 — Wuhan University of Technology, Laboratory of Intelligent Manufacture and Control, China
- Kai Chen 0022 — University of Arizona, Department of Electrical and Computer Engineering, Tucson, AZ, USA
- Kai Chen 0023 — Huazhong University of Science and Technology, School of Automation, National Key Laboratory of Science and Technology on Multi-spectral Information Processing, Wuhan, China
- Kai Chen 0024 — Wuhan University, School of Remote Sensing and Information Engineering, Wuhan, China
- Kai Chen 0025 — BUPT, School of Information and Communication Engineering, Beijing, China
- Kai Chen 0026 — Shanghai AI Laboratory, Guangzhou, China (and 2 more)
- Kai Chen 0027 — Fudan University, School of Computer Science, Shanghai, China
- Kai Chen 0028 — Chinese University of Hong Kong, Department of Computer Science and Engineering, Hong Kong
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2020 – today
- 2025
[j7]Mengtong Li, Tao Zhuang, Kai Chen, Jiaxin Zhong, Jing Lu:
Deep Learning-Based Approach for Identification and Compensation of Nonlinear Distortions in Parametric Array Loudspeakers. IEEE Signal Process. Lett. 32: 1455-1459 (2025)- [c11]Tianyi Tan, Haoxin Ruan, Xin'an Chen, Kai Chen, Zhibin Lin, Jing Lu:
DistillW2N: A Lightweight One-Shot Whisper to Normal Voice Conversion Model Using Distillation of Self-Supervised Features. ICASSP 2025: 1-5 - 2024
- [c10]Zhongshu Hou, Tianchi Sun, Yuxiang Hu, Changbao Zhu, Kai Chen, Jing Lu:
SIR-Progressive Audio-Visual TF-Gridnet with ASR-Aware Selector for Target Speaker Extraction in MISP 2023 Challenge. ICASSP Workshops 2024: 11-12 - [c9]Haocheng Guo, Xiaohuai Le, Kai Chen, Jing Lu:
A Light-Weight State Detection Model for Kalman-Filter-Based Acoustic Feedback Cancellation with Rapid Recovery from Abrupt Path Changes. ICASSP 2024: 456-460 - [i11]Mengtong Li, Tao Zhuang, Kai Chen, Jiaxin Zhong, Jing Lu:
Deep Learning-Based Approach for Identification and Compensation of Nonlinear Distortions in Parametric Array Loudspeakers. CoRR abs/2412.01092 (2024) - 2023
- [c8]Tong Lei, Zhongshu Hou, Yuxiang Hu, Wanyu Yang, Tianchi Sun, Xiaobin Rong, Dahan Wang, Kai Chen, Jing Lu:
A Low-Latency Hybrid Multi-Channel Speech Enhancement System For Hearing Aids. ICASSP 2023: 1-2 - [i10]Zhongshu Hou, Qinwen Hu, Kai Chen, Jing Lu:
Attention does not guarantee best performance in speech enhancement. CoRR abs/2302.05690 (2023) - [i9]Zhongshu Hou, Qinwen Hu, Kai Chen, Jing Lu:
Local spectral attention for full-band speech enhancement. CoRR abs/2302.05693 (2023) - 2022
- [j6]Haoxin Ruan, Tong Lei, Kai Chen, Jing Lu:
An Explicit Connection Between Independent Vector Analysis and Tensor Decomposition in Blind Source Separation. IEEE Signal Process. Lett. 29: 1277-1281 (2022) - [j5]Lele Liao, Guoliang Cheng, Haoxin Ruan, Kai Chen, Jing Lu:
Multichannel Variational Autoencoder-Based Speech Separation in Designated Speaker Order. Symmetry 14(12): 2514 (2022) - [j4]Xiaohuai Le, Tong Lei, Kai Chen, Jing Lu:
Inference Skipping for More Efficient Real-Time Speech Enhancement With Parallel RNNs. IEEE ACM Trans. Audio Speech Lang. Process. 30: 2411-2421 (2022) - [c7]Tong Lei, Haoxin Ruan, Kai Chen, Jing Lu:
A Priori SNR Estimation for Speech Enhancement Based on PESQ-Induced Reinforcement Learning. ICASSP 2022: 6957-6961 - [i8]Zhongshu Hou, Qinwen Hu, Kai Chen, Jing Lu:
A two-stage full-band speech enhancement model with effective spectral compression mapping. CoRR abs/2206.13136 (2022) - [i7]Guoliang Cheng, Lele Liao, Kai Chen, Yuxiang Hu, Changbao Zhu, Jing Lu:
Semi-blind source separation using convolutive transfer function for nonlinear acoustic echo cancellation. CoRR abs/2207.01556 (2022) - [i6]Xiaohuai Le, Tong Lei, Kai Chen, Jing Lu:
Inference skipping for more efficient real-time speech enhancement with parallel RNNs. CoRR abs/2207.11108 (2022) - 2021
- [j3]Hongsheng Chen, Guoliang Chen, Kai Chen, Jing Lu:
Nonlinear residual echo suppression based on dual-stream DPRNN. EURASIP J. Audio Speech Music. Process. 2021(1): 35 (2021) - [c6]Xiaohuai Le, Hongsheng Chen, Kai Chen, Jing Lu:
DPCRN: Dual-Path Convolution Recurrent Network for Single Channel Speech Enhancement. Interspeech 2021: 2811-2815 - [i5]Xiaohuai Le, Hongsheng Chen, Kai Chen, Jing Lu:
DPCRN: Dual-Path Convolution Recurrent Network for Single Channel Speech Enhancement. CoRR abs/2107.05429 (2021) - 2020
- [c5]Hongsheng Chen, Teng Xiang, Kai Chen, Jing Lu:
Nonlinear Residual Echo Suppression Based on Multi-Stream Conv-TasNet. INTERSPEECH 2020: 3959-3963 - [c4]Hao Wang, Kai Chen, Jing Lu:
U-Net Based Direct-Path Dominance Test for Robust Direction-of-Arrival Estimation. INTERSPEECH 2020: 5086-5090 - [i4]Hongsheng Chen, Teng Xiang, Kai Chen, Jing Lu:
Nonlinear Residual Echo Suppression Based on Multi-stream Conv-TasNet. CoRR abs/2005.07631 (2020)
2010 – 2019
- 2019
- [j2]Wenzhi Fan, Kai Chen, Jing Lu, Jiancheng Tao:
Effective Improvement of Under-Modeling Frequency-Domain Kalman Filter. IEEE Signal Process. Lett. 26(2): 342-346 (2019) - [c3]Zhaoyi Gu, Jing Lu, Kai Chen:
Speech Separation Using Independent Vector Analysis with an Amplitude Variable Gaussian Mixture Model. INTERSPEECH 2019: 1358-1362 - 2018
- [c2]Teng Xiang, Jing Lu, Kai Chen:
RLS-Based Adaptive Dereverberation Tracing Abrupt Position Change of Target Speaker. SAM 2018: 336-340 - [c1]Zelin Wang, Jing Lu, Kai Chen:
Frequency Domain Trinicon-Based Blind Source Separation Method with Multi-Source Activity Detection for Sparsely Mixed Signals. SAM 2018: 637-641 - [i3]Teng Xiang, Jing Lu, Kai Chen:
Multi-channel Adaptive Dereverberation Tracing Abrupt Position Change of Target Speaker. CoRR abs/1802.08997 (2018) - [i2]Zelin Wang, Jing Lu, Kai Chen:
Frequency domain TRINICON-based blind source separation method with multi-source activity detection for sparsely mixed signals. CoRR abs/1802.09005 (2018) - [i1]Wenzhi Fan, Kai Chen, Jing Lu, Jiancheng Tao:
Efficient improvement of frequency-domain Kalman filter. CoRR abs/1808.08442 (2018) - 2017
- [j1]Jing Lu, Kai Chen, Xiaojun Qiu:
Convergence analysis of the modified frequency-domain block LMS algorithm with guaranteed optimal steady state performance. Signal Process. 132: 165-169 (2017)
Coauthor Index
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