Alert button
Picture for Zheng-Hua Tan

Zheng-Hua Tan

Alert button

Aalborg University

PAC-Bayesian-Like Error Bound for a Class of Linear Time-Invariant Stochastic State-Space Models

Dec 30, 2022
Deividas Eringis, John Leth, Zheng-Hua Tan, Rafal Wisniewski, Mihaly Petreczky

Figure 1 for PAC-Bayesian-Like Error Bound for a Class of Linear Time-Invariant Stochastic State-Space Models
Figure 2 for PAC-Bayesian-Like Error Bound for a Class of Linear Time-Invariant Stochastic State-Space Models
Figure 3 for PAC-Bayesian-Like Error Bound for a Class of Linear Time-Invariant Stochastic State-Space Models
Figure 4 for PAC-Bayesian-Like Error Bound for a Class of Linear Time-Invariant Stochastic State-Space Models
Viaarxiv icon

Filterbank Learning for Small-Footprint Keyword Spotting Robust to Noise

Nov 19, 2022
Iván López-Espejo, Ram C. M. C. Shekar, Zheng-Hua Tan, Jesper Jensen, John H. L. Hansen

Figure 1 for Filterbank Learning for Small-Footprint Keyword Spotting Robust to Noise
Figure 2 for Filterbank Learning for Small-Footprint Keyword Spotting Robust to Noise
Figure 3 for Filterbank Learning for Small-Footprint Keyword Spotting Robust to Noise
Figure 4 for Filterbank Learning for Small-Footprint Keyword Spotting Robust to Noise
Viaarxiv icon

Improved disentangled speech representations using contrastive learning in factorized hierarchical variational autoencoder

Nov 15, 2022
Yuying Xie, Thomas Arildsen, Zheng-Hua Tan

Figure 1 for Improved disentangled speech representations using contrastive learning in factorized hierarchical variational autoencoder
Figure 2 for Improved disentangled speech representations using contrastive learning in factorized hierarchical variational autoencoder
Figure 3 for Improved disentangled speech representations using contrastive learning in factorized hierarchical variational autoencoder
Figure 4 for Improved disentangled speech representations using contrastive learning in factorized hierarchical variational autoencoder
Viaarxiv icon

Leveraging Domain Features for Detecting Adversarial Attacks Against Deep Speech Recognition in Noise

Nov 03, 2022
Christian Heider Nielsen, Zheng-Hua Tan

Figure 1 for Leveraging Domain Features for Detecting Adversarial Attacks Against Deep Speech Recognition in Noise
Figure 2 for Leveraging Domain Features for Detecting Adversarial Attacks Against Deep Speech Recognition in Noise
Figure 3 for Leveraging Domain Features for Detecting Adversarial Attacks Against Deep Speech Recognition in Noise
Figure 4 for Leveraging Domain Features for Detecting Adversarial Attacks Against Deep Speech Recognition in Noise
Viaarxiv icon

Minimum Processing Near-end Listening Enhancement

Oct 31, 2022
Andreas Jonas Fuglsig, Jesper Jensen, Zheng-Hua Tan, Lars Søndergaard Bertelsen, Jens Christian Lindof, Jan Østergaard

Figure 1 for Minimum Processing Near-end Listening Enhancement
Figure 2 for Minimum Processing Near-end Listening Enhancement
Figure 3 for Minimum Processing Near-end Listening Enhancement
Figure 4 for Minimum Processing Near-end Listening Enhancement
Viaarxiv icon

Improving Label-Deficient Keyword Spotting Using Self-Supervised Pretraining

Oct 04, 2022
Holger Severin Bovbjerg, Zheng-Hua Tan

Figure 1 for Improving Label-Deficient Keyword Spotting Using Self-Supervised Pretraining
Figure 2 for Improving Label-Deficient Keyword Spotting Using Self-Supervised Pretraining
Figure 3 for Improving Label-Deficient Keyword Spotting Using Self-Supervised Pretraining
Figure 4 for Improving Label-Deficient Keyword Spotting Using Self-Supervised Pretraining
Viaarxiv icon

Adversarial Multi-Task Deep Learning for Noise-Robust Voice Activity Detection with Low Algorithmic Delay

Jul 04, 2022
Claus Meyer Larsen, Peter Koch, Zheng-Hua Tan

Figure 1 for Adversarial Multi-Task Deep Learning for Noise-Robust Voice Activity Detection with Low Algorithmic Delay
Figure 2 for Adversarial Multi-Task Deep Learning for Noise-Robust Voice Activity Detection with Low Algorithmic Delay
Figure 3 for Adversarial Multi-Task Deep Learning for Noise-Robust Voice Activity Detection with Low Algorithmic Delay
Figure 4 for Adversarial Multi-Task Deep Learning for Noise-Robust Voice Activity Detection with Low Algorithmic Delay
Viaarxiv icon

Floor Map Reconstruction Through Radio Sensing and Learning By a Large Intelligent Surface

Jun 21, 2022
Cristian J. Vaca-Rubio, Roberto Pereira, Xavier Mestre, David Gregoratti, Zheng-Hua Tan, Elisabeth de Carvalho, Petar Popovski

Figure 1 for Floor Map Reconstruction Through Radio Sensing and Learning By a Large Intelligent Surface
Figure 2 for Floor Map Reconstruction Through Radio Sensing and Learning By a Large Intelligent Surface
Figure 3 for Floor Map Reconstruction Through Radio Sensing and Learning By a Large Intelligent Surface
Figure 4 for Floor Map Reconstruction Through Radio Sensing and Learning By a Large Intelligent Surface
Viaarxiv icon

User Localization using RF Sensing: A Performance comparison between LIS and mmWave Radars

May 17, 2022
Cristian J. Vaca-Rubio, Dariush Salami, Petar Popovski, Elisabeth de Carvalho, Zheng-Hua Tan, Stephan Sigg

Figure 1 for User Localization using RF Sensing: A Performance comparison between LIS and mmWave Radars
Figure 2 for User Localization using RF Sensing: A Performance comparison between LIS and mmWave Radars
Figure 3 for User Localization using RF Sensing: A Performance comparison between LIS and mmWave Radars
Figure 4 for User Localization using RF Sensing: A Performance comparison between LIS and mmWave Radars
Viaarxiv icon

Complex Recurrent Variational Autoencoder for Speech Enhancement

Apr 05, 2022
Yuying Xie, Thomas Arildsen, Zheng-Hua Tan

Figure 1 for Complex Recurrent Variational Autoencoder for Speech Enhancement
Figure 2 for Complex Recurrent Variational Autoencoder for Speech Enhancement
Figure 3 for Complex Recurrent Variational Autoencoder for Speech Enhancement
Figure 4 for Complex Recurrent Variational Autoencoder for Speech Enhancement
Viaarxiv icon