Department of Microelectronics
Faculty of Electrical Engineering, Mathematics, and Computer Science

dr.ir. R.C. Hendriks

Associate Professor
Signal Processing Systems (SPS), Department of Microelectronics

Expertise: Audio signal processing, signal processing for hearing aids, biomedical signal processing

Themes: Health and Wellbeing

Biography

Richard C. Hendriks was born in Schiedam, The Netherlands. He received the B.Sc., M.Sc. (cum laude) and Ph.D. (cum laude) degrees in electrical engineering from the Delft University of Technology, Delft, The Netherlands, in 2001, 2003 and 2008, respectively.

Currently, he is an associate professor in the Signal Processing Systems group at Delft University of Technology, and director of studies of the B.Sc. Electrical Engineering program. In March 2010 he received a VENI grant for his proposal "Intelligibility Enhancement for Speech Communication Systems". He obtained several best paper awards, among which the IEEE Signal Processing Society best paper award in 2016. He served as an Associate Editor for both the IEEE/ACM Trans. on Audio, Speech, and Language Processing from 2015  - 2019 and the EURASIP Journal on Advances in Signal Processing from 2015 - 2020. Currently  he is a Senior Associate Editor with the IEEE/ACM Trans. on Audio, Speech, and Language Processing.

He served the IEEE as  an elected member of the IEEE Signal Processing Society Technical Committee on Audio and Acoustic Signal Processing during two terms: a first term during the years 2019 - 2021 and a second term starting in 2024. In addition, he was one of the main organisers and financial chair of Eusipco 2020 in Amsterdam. 
 

Research interest

His main research interest is on biomedical signal processing, and, audio and speech processing, including speech enhancement, speech intelligibility improvement and intelligibility modelling.

 

 

EE4715 Array processing

Array processing techniques for signal separation and parameter estimation

ET4386 Estimation and detection

Basics of detection and estimation theory, as used in statistical signal processing, adaptive beamforming, speech enhancement, radar, telecommunication, localization, system identification, and elsewhere.

Education history

EE4182 Digital audio and speech processing

(not running) Audio, speech and acoustic signal processing, speech enhancement, microphone-array signal processing

Communication technology unlocking the ocean – UCOMMS at the edge

Development of underwater communication techniques to improve the communication efficiency.

Personalized Auditory Scene Modification to Assist Hearing Impaired People

Algorithms to personalize the presented auditory scene for improved speech intelligibility and sound localization hearing impaired users

Model Based Parameter Estimation to Assist Hearing Assistive Devices

To jointly estimate all acoustic scene parameters that are required to successfully improve the speech intelligibility and preserve the spatial cues.

Projects history

Earlier recognition of cardiovascular diseases

Atrial Fibrillation FIngerPrinting: Spotting Bio-Electrical Markers to Early Recognize Atrial Fibrillation by the Use of a Bottom-Up Approach

Signal processing over wireless acoustic sensor networks

Microphone subset selection for WASNs

Smart sensing for Aviation

Detecting damages in composite material manufacturing

Spatially Correct Multi-Microphone Noise Reduction Strategies suitable for Hearing Aids

multichannel signal processing algorithms to help hearing aid users

Speech enhancement in wireless acoustic sensor networks

Distributed speech enhancement algorithms using a large number of microphones distributed in the environment

Intelligibility enhancement for speech communication systems

Can we do "precoding" of speech signals to enhance their intelligibility at the receiver, taking channel distortions and environmental noise into account?

Intelligibility Enhancement of Noisy Speech

The objective of the project is to develop a speech enhancement system which specifically aims at improving the intelligibility of the speech signal.

General signal processing

Calculation of the Mean Strain of Smooth Non-uniform Strain Fields Using Conventional FBG Sensors

Matlab code for Calculation of the Mean Strain of Smooth Non-uniform Strain Fields Using Conventional FBG Sensors

Software, May 2018

Generalized discrete Fourier transform (gDFT)

A generalized Fourier transform is introduced that enables linear convolutions without the need of zero-padding. This results in faster, more resource- efficient computations

Software, Jan 2011

Acoustic Parameter Estimation

Multimicrophone Signal Parameter Estimation in a Multi-Source Noisy Reverberant Scenario

MATLAB software for jointly estimating the RTFs, source PSDs, late reverberation PSD and noise PSD for a multiple source scenario

Software, Jan 2025

Wideband Relative Transfer Function (RTF) Estimation Exploiting Frequency Correlations

Python software for estimating RTFs, taking into account spectral correlations

Software, Jan 2025

Alternating Least-Squares-Based Microphone Array Parameter Estimation for a Single-Source Reverberant and Noisy Acoustic Scenario

MATLAB software for estimating the RTF, source PSD, late reverberation PSD and ambient noise PSD at low complexity for a single source scenario

Software, Aug 2023

Joint Maximum Likelihood Estimation of Microphone Array Parameters for a Reverberant Single Source Scenario

MATLAB software for estimating the RTF, source PSD, and late reverberation PSD for a single source scenario

Software, Jan 2023

Relative Acoustic Transfer Function Estimation in Wireless Acoustic Sensor Networks

MATLAB software for estimating RTFs, using a a rate-distribution method

Software, Jun 2019

Robust Joint Estimation of Multimicrophone Signal Model Parameters

MATLAB software for jointly estimating RTFs, source PSDs, late reverberation PSD and noise PSD for a multiple source scenario, using SCFA

Software, Apr 2019

Unbiased MMSE-Based Noise Power Estimation With Low Complexity and Low Tracking Delay

MATLAB software for estimating noise PSD at low complexity, using a speech presence probability approach

Software, Nov 2011

MMSE Based Noise PSD Tracking with Low Complexity

MATLAB software for estimating noise PSD at low complexity

Software, Mar 2010

GenGam Log MMSE

Toolbox for log-spectral magnitude MMSE estimators of DFT coefficients under super-Gaussian densities

Software, Jan 2009

GenGam

Toolbox for MMSE estimators of DFT coefficients under the generalized Gamma density

Software, Jan 2008

Multi-Microphone Speech Enhancement

Beamforming with Interaural Time-To-Level Difference Conversion for Hearing Loss Compensation

MATLAB software for a binaural beamformer, preserving binaural cues while enhancing low-frequency ILDs

Software, Oct 2025

Binaural Beamforming Taking into Account Spatial Release from Masking

MATLAB software for a binaural beamformer, optimising a SRM-compensated SINR and preserving binaural cues

Software, Aug 2024

Distributed Rate-Constrained LCMV Beamforming

Software, Oct 2019

Distributed block-diagonal linearly constrained beamformer

Software, Apr 2019

relaxed binaural linearly constrained minimum variance (RJBLCMV) binaural beamformer using semi-definite convex relaxation (SDCR)

Software, Apr 2019

Rate-Distributed Spatial Filtering Based Noise Reduction in Wireless Acoustic Sensor Networks

Software, Jun 2018

Microphone Subset Selection for MVDR Beamformer Based Noise Reduction

Software, Jan 2018

Joint near-end and far-end intelligibility enhancement

Software, Jan 2017

Relaxed Binaural LCMV Beamforming

MATLAB software for RJBLCMV, a binaural beamformer with relaxed binaural cue preservation

Software, Nov 2016

Improved Multi-Microphone Noise Reduction Preserving Binaural Cues

MATLAB software for JBLCMV, a binaural beamformer with binaural cue preservation

Software, May 2016

Single-Microphone Speech Enhancement

Optimal energy redistribution for speech enhancement

Software, Feb 2015

Algorithm for Noise reduction for speech enhancement

DFT-based single channel noise reduction

Software, Jan 2013

Near-End Speech Enhancement

Pre-processing algorithm to improve speech intelligibility in noise for the near-end listener.

Software, May 2012

Speech & Intelligibility Modelling

STOI – Short-Time Objective Intelligibility

Software, Jan 2018

SIIB - Speech intelligibility in bits

Software, Jan 2018

STOI-Optimal N-of-M Channel Selection for Cochlear Implants

Software, Aug 2012

Cardiac Parameter Estimation

Simulation of Transmembrane Potentials and Epicardial Electrograms

MATLAB software for simulating cardiac transmembrane potentials and corresponding electrograms, based on the monodomain and Courtemanche models

Software, Jun 2023

Estimation of Cardiac Fibre Direction Based on Activation Maps

MATLAB software for estimating cardiac fibre direction from local activation times, based on fitting reciprocal conduction velocities

Software, Jun 2023

Estimation of the Atrial Activity from Electrograms: A Beamforming Perspective

MATLAB software for atrial activity estimation from electrograms, based on beamforming

Software, Sep 2022

Improved Local Activation Time Annotation in Fractionated Atrial Electrograms of Atrial Mappings

MATLAB software for improved LAT estimation, for fractionated atrial electrograms

Software, Feb 2020

  1. Wideband Relative Transfer Function (RTF) Estimation Exploiting Frequency Correlations
    Giovanni Bologni; Richard C. Hendriks; Richard Heusdens;
    IEEE Trans. Audio Speech Lang. Process.,
    Volume 33, pp. 731–747, 2025. DOI: 10.1109/TASLPRO.2025.3533371
    documentsoftware

  2. Multimicrophone Signal Parameter Estimation in a Multi-Source Noisy Reverberant Scenario
    Changheng Li; Richard C. Hendriks;
    IEEE Trans. Audio Speech Lang. Process.,
    Volume 33, pp. 678–692, 2025. DOI: 10.1109/TASLPRO.2025.3533374
    documentsoftware

  3. In search of a driver for atrial fibrillation
    Lianne N. van Staveren; Yannick J. H. J. Taverne; Richard C. Hendriks; Natasja M. S. de Groot;
    Heart Rhythm,
    2025. DOI: https://doi.org/10.1016/j.hrthm.2025.05.024

  4. A Binaural Cue Transformation Method to Preserve Spatial Release From Masking in Listeners With Impaired ITD Processing
    Timm-Jonas Bäumer; Stephan Töpken; Richard C. Hendriks; Peyman Goli; Steven van de Par;
    In Proc. German Annu. Conf. Acoust.(DAGA),
    2025.

  5. Block-Based Perceptually Adaptive Sound Zones with Reproduction Error Constraints
    N. de Koeijer; M Moller; J. Martinez; P. Martinez; R. C. Hendriks;
    Trans. Audio, Speech and Language Processing,
    2024.

  6. Binaural Beamforming Taking into Account Spatial Release from Masking
    Johannes W. de Vries; Steven van de Par; Geert Leus; Richard Heusdens; Richard C. Hendriks;
    IEEE/ACM Trans. Audio Speech Lang. Process.,
    Volume 32, pp. 4002–4012, 2024. DOI: 10.1109/TASLP.2024.3451988 Additional material: software

  7. A Singular-value-based Map to Highlight Abnormal Regions Associated with Atrial Fibrillation Using High-resolution Electrograms and Multi-lead ECG
    H. Moghaddasi; R.C. Hendriks; B. Hunyadi; P. Knops; M.S. van Schie; N.M.S. de Groot; A.J. van der Veen;
    IEEE Trans. Biomedical Eng.,
    2024. DOI: 10.1109/TBME.2024.3420412
    document

  8. Tensor decomposition-based data fusion for biomarker extraction from multiple EEG experiments
    Kenneth Stunnenberg; Richard Hendriks; Jantien Vroegop; Marloes Adank; Borbala Hunyadi;
    In International Conference on Acoustics, Speech, and Signal Processing (ICASSP),
    2024.

  9. Transmit and Receive Sensor Selection Using the Multiplicity in the Virtual Array
    I. van der Werf; C. Kokke; R. Heusdens; R. C. Hendriks; G. Leus; M. Coutino;
    In 32nd European Signal Processing Conference (EUSIPCO 2024),
    2024.

  10. A Comparison of Methods for Fiber Direction Estimation from Electrograms
    Elena van Breukelen; Johannes Willem de Vries; Mathijs van schie; Natasja de Groot; Richard C. Hendriks;
    In 2024 Computing in Cardiology (CinC),
    2024.

  11. Optimized Pilot Design for OTFS Modulation in Underwater Acoustic Communications
    Ids van der Werf; Costas Pelekanakis; Richard Hendriks; Richard Heusdens; Geert Leus;
    In Seventh Underwater Communications and Networking Conference 2024,
    2024.

  12. Harmonics to the Rescue: Why Voiced Speech is Not a WSS Process
    Giovanni Bologni; Richard Heusdens; Richard C. Hendriks;
    In Proc. 2024 18th Int. Workshop Acoust. Signal Enhancement (IWAENC),
    Aalborg, Denmark, pp. 409–413, 2024. DOI: 10.1109/IWAENC61483.2024.10694182

  13. Joint Maximum Likelihood Estimation of Microphone Array Parameters for a Reverberant Single Source Scenario
    Changheng Li; Jorge Martinez; Richard C. Hendriks;
    IEEE/ACM Trans. Audio Speech Lang. Process.,
    Volume 31, pp. 695–705, 2023. DOI: 10.1109/TASLP.2022.3231706
    documentsoftware

  14. Exploring the Use of Granger Causality for the Identification of Chemical Exposure Based on Physiological Data
    S. Difrancesco ; J. U. Van Baardewijk; A. S. Cornelissen; C. Varon; R. C. Hendriks; A. M. Brouwer;
    Frontiers in Network Physiology,
    Volume 3, 2023. DOI: 10.3389/fnetp.2023.1106650

  15. High Dominant Frequencies and Fractionated Potentials Do Not Indicate Focal or Rotational Activation During AF
    L. N. van Staveren; R. C. Hendriks; Y. J. H. J. Taverne; N. M. S. de Groot;
    Journal of the American College of Cardiology: Clinical Electrophysiology,
    2023.

  16. On the equivalence of OSDM and OTFS
    I. van der Werf; H. S. Dol; K. C. H. Blom; R. Heusdens; R. C. Hendriks; G. J. T. Leus;
    Elsevier Signal Processing,
    2023.

  17. Alternating Least-Squares-Based Microphone Array Parameter Estimation for a Single-Source Reverberant and Noisy Acoustic Scenario
    Changheng Li; Richard C. Hendriks;
    IEEE/ACM Trans. Audio Speech Lang. Process.,
    Volume 31, pp. 3922–3934, 2023. DOI: 10.1109/TASLP.2023.3306713
    documentsoftware

  18. Estimation of Cardiac Fibre Direction Based on Activation Maps
    J. W. de Vries; M. Sun; N. M. S. de Groot; R. C. Hendriks;
    In IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP),
    2023. Additional material: softwaresoftware

  19. Noise PSD Insensitive RTF Estimation in a Reverberant and Noisy Environment
    Changheng Li; Richard C. Hendriks;
    In Proc. 2023 IEEE Int. Conf. Acoust. Speech Signal Process. (ICASSP),
    Rhodes Island, Greece, 2023. DOI: 10.1109/ICASSP49357.2023.10094840

  20. Channel Parameter Estimation Using a Wideband LFM Preamble: Comparison of the Fractional Fourier Transform and Matched Filtering
    I. van der Werf; R. C. Hendriks; R. Heusdens;
    In In 31st European Signal Processing Conference (EUSIPCO 2023),
    2023.

  21. Adaptive Time Segmentation for Improved Signal Model Parameter Estimation for a Single-Source Scenario
    Changheng Li; Richard C. Hendriks;
    In Conf. Rec. 57th Alisomar Conf. Signals Syst. Comp.,
    Pacific Grove, CA, USA, pp. 1106–1111, 2023. DOI: 10.1109/IEEECONF59524.2023.10476904

  22. Transmit Waveform Design Based on the Cramér-Rao Lower Bound
    Ids van der Werf; Richard C. Hendriks; Richard Heusdens; Geert Leus;
    In Proc. of IEEE Workshop on Computational Advances in Multi-Sensor Adaptive Processing (CAMSAP),
    2023.

  23. An accurate and efficient method to train classifiers for atrial fibrillation detection in ECGs: Learning by asking better questions
    F. J. Wesselius; M. S.van Schie ; N. M. S. de Groot; Richard C. Hendriks;
    Computers in Biology and Medicine,
    Volume 143, April 2022. DOI: 10.1016/j.compbiomed.2022.105331
    document

  24. Joint cardiac tissue conductivity and activation time estimation using confirmatory factor analysis
    Miao Sun; Natasja de Groot; Richard C. Hendriks;
    Computers in Biology and Medicine,
    Volume 144, May 2022. DOI: 10.1016/j.compbiomed.2022.105393
    document

  25. Classification of De Novo Post-Operative and Persistent Atrial Fibrillation Using Multi-Channel ECG Recordings
    Hanie Moghaddasi; Richard C. Hendriks; Alle-Jan van der Veen; Natasja M.S. de Groot; Borbala Hunyadi;
    Computers in Biology and Medicine,
    Volume 143, April 2022. DOI: 10.1016/j.compbiomed.2022.105270
    document

  26. Quantifying Interactions between Physiological Signals to Identify Exposure to Different Chemicals
    J. U. van Baardewijk; S. Agarwal; A.S. Cornelissen; C. Varon; R.C. Hendriks; J. Kentrop; M.J.A. Joosen; A.-M. Brouwer;
    In Proceedings of Measuring Behavior 2022,
    2022.

  27. On Loudspeakers as Recording Devices
    Tobias Roest; Jorge Martinez; Han Oosterom; Richard C. Hendriks;
    In 152nd AES Convention,
    2022.

  28. On the integration of acoustics and LIDAR: A multi-modal approach to acoustic reflector estimation
    Ellen Riemens; Pablo Martinez-Nuevo; Jorge Martinez; Martin Moller; Richard C. Hendriks;
    In 30th European Signal Processing Conference (EUSIPCO 2022),
    2022.
    document

  29. Towards gridless sound field reconstruction
    Ids van der Werf; Pablo Martínez-Nuevo; Martin Møller; Richard C. Hendriks; Jorge Martinez;
    In 30th European Signal Processing Conference (EUSIPCO 2022),
    2022.
    document

  30. Estimation of the Atrial Activity from Electrograms: A Beamforming Perspective
    Tijs Moree; Mathijs S. van Schie; Natasja M. S. de Groot; Richard C. Hendriks;
    In Computing in Cardiology,
    2022.
    documentsoftware

  31. Surface Electrocardiogram Reconstruction Using Intra-operative Electrograms
    H. Moghaddasi; B. Hunyadi; A.J. van der Veen; N.M.S. de Groot; R.C. Hendriks;
    In 42nd WIC Symposium on Information Theory and Signal Processing in the Benelux (SITB 2022),
    Louvain la Neuve, Belgium, pp. 136, 2022.
    document

  32. Novel rank-based features of atrial potentials for the classification between paroxysmal and persistent atrial fibrillation
    H. Moghaddasi; R.C. Hendriks; A.J. van der Veen; N.M.S. de Groot; B. Hunyadi;
    In 2022 Computing in Cardiology (CinC),
    IEEE, September 2022.
    document

  33. Low Complex Accurate Multi-Source RTF Estimation
    Changheng Li; Jorge Martinez; Richard C. Hendriks;
    In Proc. 2022 IEEE Int. Conf. Acoust. Speech Signal Process.,
    Singapore, Singapore, pp. 4953–4957, 2022. DOI: 10.1109/ICASSP43922.2022.9747170
    document

  34. Localization Based on Enhanced Low Frequency Interaural Level Difference
    Metin Calis; Steven van de Par; Richard Heusdens; Richard C. Hendriks;
    IEEE/ACM Trans. Audio Speech Lang. Process.,
    Volume 29, pp. 3025–3039, 2021. DOI: 10.1109/TASLP.2021.3111583
    document

  35. Analyzing the Effect of Electrode Size on Electrogram and Activation Map Properties
    Bahareh Abdi; Mathijs S. van Schie; N. M. S. de Groot; Richard C. Hendriks;
    Computers in Biology and Medicine,
    Volume 134, July 2021. DOI: https://doi.org/10.1016/j.compbiomed.2021.104467
    document

  36. Cardiac Tissue Conductivity Estimation Using Confirmatory Factor Analysis
    Miao Sun; Natasja M.S. de Groot; Richard C. Hendriks;
    Computers in Biology and Medicine,
    Volume 135, Aug. 2021. DOI: https://doi.org/10.1016/j.compbiomed.2021.104604
    document

  37. Assessing the signal quality of electrocardiograms from varied acquisition sources: A generic machine learning pipeline for model generation
    A. Albaba; Neide Simoes-Capela; Yuyang Wang; Richard C. Hendriks; Walter De Raedt; Chris Van Hoof;
    Computers in Biology and Medicine,
    Volume 130, March 2021. DOI: 10.1016/j.compbiomed.2020.104164
    document

  38. Digital Biomarkers and Algorithms for Detection of Atrial Fibrillation using Surface Electrocardiograms: A Systematic Review
    Fons J.Wesselius; Mathijs S. van Schie; Natasja M. S. de Groot; Richard C. Hendriks;
    Computers in Biology and Medicine,
    2021. DOI: https://doi.org/10.1016/j.compbiomed.2021.104404
    document

  39. Binaural beam-forming with dominant spatial cue preservation for hearing aids
    Vasudha Sathyapriyan; Metin Calis; Richard C. Hendriks;
    In 29th European Signal Processing Conference (EUSIPCO 2021),
    2021.
    document

  40. Improved local activation time annotation of fractionated atrial electrograms for atrial mapping
    Bahareh Abdi; Richard C. Hendriks; Alle-Jan van der Veen; Natasja M.S. de Groot;
    Computers in Biology and Medicine,
    Volume 117, February 2020. ISSN: 0010-4825. DOI: 10.1016/j.compbiomed.2019.103590
    documentsoftware

  41. A Study on Reference Microphone Selection for Multi-Microphone Speech Enhancement
    Jie Zhang; Huawei Chen; Li-Rong Dai; Richard C. Hendriks;
    IEEE Trans. Audio, Speech and Language Processing,
    Volume 29, pp. 671 - 683, Nov. 2020. DOI: 10.1109/TASLP.2020.3039930
    document

  42. Spatially Correct Rate-Constrained Noise Reduction For Binaural Hearing Aids in Wireless Acoustic Sensor Networks
    Jamal Amini; Richard C. Hendriks; Richard Heusdens; Meng Guo; Jesper Jensen;
    IEEE Trans. Audio, Speech and Language processing,
    Volume 28, pp. 2731-2742, Oct. 2020. DOI: 10.1109/TASLP.2020.3028264
    document

  43. Graph-Time Spectral Analysis for Atrial Fibrillation
    Miao Sun; Elvin Isufi; Natasja M.S. de Groot; Richard C. Hendriks;
    Biomedical Signal Processing and Control,
    Volume 59, May 2020. DOI: https://doi.org/10.1016/j.bspc.2020.101915
    document

  44. A Privacy-Preserving Asynchronous Averaging Algorithm based on State Decomposition
    M. Calis; R. Heusdens; R.C. Hendriks;
    In 29th European Signal Processing Conference (EUSIPCO 2020),
    Amsterdam (Netherlands), EURASIP, pp. 2115-2119, August 2020.
    document

  45. Local Activation Time Estimation in Atrial Electrograms Using Cross-Correlation over Higher-Order Neighbors
    B. Kolling; B. Abdi; N.M.S. de Groot; R.C. Hendriks;
    In 29th European Signal Processing Conference (EUSIPCO 2020),
    Amsterdam (Netherlands), EURASIP, pp. 905-909, August 2020.
    document

  46. Clock-Offset and Microphone Gain Mismatch Invariant Beamforming
    S.E. Kotti; R. Heusdens; R.C. Hendriks;
    In 29th European Signal Processing Conference (EUSIPCO 2020),
    Amsterdam (Netherlands), EURASIP, pp. 176-180, August 2020.
    document

  47. A Method for Determining the Length of FBG Sensors Accurately
    Aydin Rajabzadeh; Richard Heusdens; Richard C. Hendriks; Roger M. Groves;
    IEEE Photonics Technology Letters,
    Volume 31, Issue 2, pp. 197-200, January 2019. DOI: 10.1109/LPT.2019.2891009
    document

  48. A Compact Matrix Model for Atrial Electrograms for Tissue Conductivity Estimation
    Bahareh Abdi; Richard C. Hendriks; Alle-Jan van der Veen; Natasja M. S. de Groot;
    Computers in Biology and Medicine,
    Volume 107, pp. 284-291, April 2019. DOI: 10.1016/j.compbiomed.2019.02.012
    document

  49. A Convex Approximation of the Relaxed Binaural Beamforming Optimization Problem
    Andreas I. Koutrouvelis; Richard C. Hendriks; Richard Heusdens; Jesper Jensen;
    IEEE/ACM Trans. on Audio, Speech and Language Processing,
    Volume 27, Issue 2, pp. 321-331, February 2019. DOI: 10.1109/TASLP.2018.2878618
    documentsoftware

  50. Distributed Rate-Constrained LCMV Beamforming
    Jie Zhang; Andreas Koutrouvelis; Richard Heusdens; Richard C. Hendriks;
    IEEE Signal Processing Letters,
    Volume 26, Issue 5, pp. 675-697, May 2019. DOI: 10.1109/LSP.2019.2905161
    documentsoftware

  51. Asymmetric Coding for Rate-Constrained Noise Reduction in Binaural Hearing Aids
    Jamal Amini; Richard C. Hendriks; Richard Heusdens; Meng Guo; Jesper Jensen;
    IEEE/ACM Trans. on Audio, Speech and Language Processing,
    Volume 27, Issue 1, pp. 154-167, 2019. DOI: 10.1109/TASLP.2018.2876172
    document

  52. Characterisation of Transverse Matrix Cracks in Composite Materials Using Fibre Bragg Grating Sensors
    A. Rajabzadeh; R. Heusdens; R. C. Hendriks; R. M. Groves;
    IEEE/OSA Journal of Lightwave Technology,
    Volume 37, Issue 18, pp. 4720 - 4727, 2019. DOI: 10.1109/JLT.2019.2919339
    document

  53. Robust Joint Estimation of Multimicrophone Signal Model Parameters
    Andreas I. Koutrouvelis; Richard C. Hendriks; Richard Heusdens; Jesper Jensen;;
    IEEE/ACM Trans. Audio Speech Lang. Process.,
    Volume 27, Issue 7, pp. 1136–1150, Jul. 2019. DOI: 10.1109/TASLP.2019.2911167
    documentsoftware

  54. Relative Acoustic Transfer Function Estimation in Wireless Acoustic Sensor Networks
    Jie Zhang; Richard Heusdens; Richard C. Hendriks;
    IEEE/ACM Trans. Audio Speech Lang. Process.,
    Volume 27, Issue 10, pp. 1507–1519, 2019. DOI: 10.1109/TASLP.2019.2923542
    documentsoftware

  55. Rate-Constrained Noise Reduction in Wireless Acoustic Sensor Networks
    Jamal Amini; Richard C. Hendriks; Richard Heusdens; Meng Guo; Jesper Jensen;
    IEEE/ACM Trans. on Audio, Speech and Language Processing,
    Volume 28, Issue 1-12, 2019. DOI: 10.1109/TASLP.2019.2947777
    document

  56. A Simplified Atrial Electrogram Model for Tissue Conductivity Estimation
    Bahareh Abdi; Richard C. Hendriks; Alle-Jan van der Veen; Natasja M. S. de Groot;
    In 7th Dutch Bio-Medical Engineering Conference (Book of abstracts),
    Egmond aan Zee (Netherlands), January 2019.

  57. Local Activation Time Estimation in Fractionated Electrograms of Cardiac Mappings
    Bahareh Abdi; Alle-Jan van der Veen; Natasja de Groot; Richard C. Hendriks;
    In 41st Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC),
    pp. 285-288, 2019. ISBN: 978-1-5386-1312-2. DOI: 10.1109/EMBC.2019.8856683
    document

  58. A novel binaural beamforming scheme with low complexity minimizing binaural-cue distortions
    Andreas Koutrouvelis; Richard Hendriks; Richard Heusdens; Jesper Jensen; Meng Guo;
    In IEEE Int. Conf. on Acoustics, Speech and Signal Processing (ICASSP),
    Brighton, UK, pp. 8013-8017, May 2019. DOI: 10.1109/ICASSP.2019.8682886
    document

  59. Binaural beamforming based on automatic interferer selection
    Costas Kokke; Richard Hendriks; Andreas Koutrouvelis;
    In IEEE Int. Conf. on Acoustics, Speech and Signal Processing (ICASSP),
    Brighton, UK, pp. 6850-6854, May 2019. DOI: 10.1109/ICASSP.2019.8683417
    document

  60. Ventricular Activity Signal Removal in Atrial Electrograms of Atrial Fibrillation
    Bahareh Abdi; Richard C. Hendriks; Alle-Jan van der Veen; Natasja M. S. de Groot;
    In Biosignals,
    Prague (Czech Republic), pp. 179-184, February 2019. DOI: 10.5220/0007388901790184
    document

  61. Sensor Selection and Rate Distribution Based Beamforming in Wireless Acoustic Sensor Networks
    Jie Zhang; Richard Heusdens; Richard C. Hendriks;
    In 27th European Signal Processing Conference (EUSIPCO 2019),
    2019.
    document

  62. A Graph Signal Processing Framework for Atrial Activity Extraction
    Miao Sun; Elvin Isufi; M.S de Groot; Richard C. Hendriks;
    In 27th European Signal Processing Conference (EUSIPCO 2019),
    2019.
    document

  63. Estimation of Sensor Array Signal Model Parameters Using Factor Analysis
    Andreas I. Koutrouvelis; Richard C. Hendriks; Richard Heusdens; Jesper Jensen;
    In 2019 27th Eur. Signal Process. Conf. (EUSIPCO),
    A Coruna, Spain, 2019. DOI: 10.23919/EUSIPCO.2019.8902967
    documentsoftware

  64. A method for determining the position of FBG sensors accurately
    Aydin Rajabzadeh; Richard C. Hendriks; Richard Heusdens; Roger M. Groves;
    In Proceedings Seventh European Workshop on Optical Fibre Sensors,
    2019.

  65. Local activation time annotation in atrial electrogram arrays using deconvolution
    B. Abdi; R.C. Hendriks; A.J. van der Veen; N.M.S. de Groot;
    In 2019 Computing in Cardiology (CinC),
    IEEE, 2019. DOI: 10.23919/CinC49843.2019.9005874
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  66. An Instrumental Intelligibility Metric Based on Information Theory
    S. Van Kuyk; W. B. Kleijn; R. C. Hendriks;
    IEEE Signal Processing Letters,
    Volume 25, Issue 1, pp. 115-119, January 2018. ISSN: 1070-9908. DOI: 10.1109/LSP.2017.2774250
    documentsoftware
    A Matlab implementation can be downloaded here

  67. An Evaluation of Intrusive Instrumental Intelligibility Metrics
    Steven Van Kuyk; W. Bastiaan Kleijn; Richard C. Hendriks;
    IEEE Trans. on Audio, Speech and Language Processing,
    Volume 26, Issue 11, pp. 2153-2166, November 2018. ISSN: 2329-9290. DOI: 10.1109/TASLP.2018.2856374
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  68. A Low-Cost Robust Distributed Linearly Constrained Beamformer for Wireless Acoustic Sensor Networks with Arbitrary Topology
    A.I. Koutrouvelis; T.W. Sherson; R. Heusdens; R.C. Hendriks;
    IEEE/ACM Transactions on Audio, Speech, and Language Processing,
    Volume 26, Issue 8, pp. 1434-1448, August 2018. ISSN: 2329-9290. DOI: 10.1109/TASLP.2018.2829405
    documentsoftware

  69. Calculation of the Mean Strain of Non-uniform Strain Fields Using Conventional FBG Sensors
    Aydin Rajabzadeh; Richard Heusdens; Richard C. Hendriks; Roger M. Groves;
    Journal of Lightwave Technology,
    Volume 36, Issue 17, pp. 3716-3725, September 2018.
    documentsoftware

  70. Rate-Distributed Spatial Filtering Based Noise Reduction in Wireless Acoustic Sensor Networks
    Jie Zhang; R. Heusdens; R. C. Hendriks;
    IEEE/ACM trans. Audio, Speech and Language Processing,
    Volume 26, Issue 11, pp. 2015-2026, November 2018. ISSN: 2329-9290. DOI: 10.1109/TASLP.2018.2851157
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  71. Microphone Subset Selection for MVDR Beamformer Based Noise Reduction
    Jie Zhang; S. P. Chepuri; R. C. Hendriks; R. Heusdens;
    IEEE/ACM Transactions on Audio, Speech, and Language Processing,
    Volume 26, Issue 3, pp. 550-563, March 2018. ISSN: 2329-9290. DOI: 10.1109/TASLP.2017.2786544
    documentsoftware

  72. Operational Rate-Constrained Beamforming in Binaural Hearing Aids
    J. Amini; R.C. Hendriks; R. Heusdens; Meng Guo; J. Jensen;
    In 26th European Signal Processing Conference (EUSIPCO 2018),
    2018.

  73. Evaluation of Binaural Noise Reduction Methods in Terms of Intelligibility and Perceived Localization
    A. I. Koutrouvelis; R. C. Hendriks; R. Heusdens; S. van de Par; J. Jensen; Meng Guo;
    In 26th European Signal Processing Conference (EUSIPCO 2018),
    2018.
    document

  74. Analysis of FBG reflection spectra under anti-symmetrical strain distributions using the approximated transfer matrix model
    A. Rajabzadeh; R.C. Hendriks; R. Heusdens; R.M. Groves;
    In Proc. SPIE 10680, Optical Sensing and Detection V,
    May 2018. DOI: 10.1117/12.2306381
    documentsoftware

  75. Rate-Distributed Binaural LCMV Beamforming for Assistive Hearing in Wireless Acoustic Sensor Networks
    Jie Zhang; Richard Heusdens; Richard Hendriks;
    In IEEE 10th Sensor Array and Multichannel Signal Processing Workshop (SAM),
    pp. 460-464, July 2018. ISSN: 2151-870X. DOI: 10.1109/SAM.2018.8448449
    document

  76. Operational Rate-Constrained Noise Reduction for Generalized Binaural Hearing Aid Setups
    J. Amini; R.C. Hendriks; R. Heusdens; Meng Guo; Jesper Jensen;
    In 2018 Symposium on Information Theory and Signal Processing in the Benelux,
    University of Twente, Enschede, The Netherlands, May 2018.

  77. Analysis of the Side-lobes of FBG Reflection Spectra From Matrix Cracks in Composites
    A. Rajabzadeh; R. Heusdens; R.C. Hendriks; R.M. Groves;
    In Optical Fiber Sensors,
    Lausanne (Switzerland), Optical Society of America, pp. TuE97, September 2018. ISBN: 978-1-943580-50-7.
    document

  78. Binaural beamformer filtering unit, a hearing system and a hearing device
    Jesper Jensen; Meng Guo; Richard Heusdens; Richard Hendriks; Jamal Amini;
    Patent, US, EP EP 3306956A1, US 20180098, 2018. Assignee: Oticon AS.
    document

  79. Relaxed Binaural LCMV Beamforming
    A. I. Koutrouvelis; R. C. Hendriks; R. Heusdens; J. Jensen;
    IEEE/ACM Transactions on Audio, Speech, and Language Processing,
    Volume 25, Issue 1, pp. 137-152, Jan. 2017. DOI: 10.1109/TASLP.2016.2628642
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  80. Intelligibility Enhancement Based on Mutual Information
    S. Khademi; R.C. Hendriks; W.B. Kleijn;
    IEEE/ACM Trans. Audio, Speech, Language Process.,
    Volume 25, Issue 8, pp. 1694-1708, August 2017. ISSN 2329-9290. DOI: 10.1109/TASLP.2017.2714424
    documentsoftware

  81. Classification of composite damage from fiber Bragg grating load monitoring signals
    Aydin Rajabzadeh; Richard C. Hendriks; Richard Heusdens; Roger M. Groves;
    In Proc. SPIE 10168: Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems,
    Portland (OR), SPIE, 2017. DOI: 10.1117/12.2257660
    document

  82. Modelling non-uniform strain distributions in aerospace composites using fibre Bragg gratings
    Aydin Rajabzadeh; Roger M. Groves; Richard C. Hendriks; Richard Heusdens;
    In Proc. SPIE 10323: 25th International Conference on Optical Fiber Sensors,
    S. Korea, SPIE, 2017. DOI: 10.1117/12.2265376
    document

  83. On the information rate of speech communication
    S. Van Kuyk; W.B. Kleijn; R.C. Hendriks;
    In Int. Conf. Audio Speech Signal Proc. (ICASSP),
    New Orleans (USA), IEEE, pp. 5625-5629, March 2017. DOI: 10.1109/ICASSP.2017.7953233
    document

  84. Binaural Beamforming Using Pre-Determined Relative Acoustic Transfer Functions
    A. Koutrouvelis; R.C. Hendriks; R. Heusdens; J. Jensen; Meng Guo;
    In 25th European Signal Processing Conference (EUSIPCO 2017),
    Kos (Greece), EURASIP, pp. 1-5, August 2017. ISBN 978-0-9928626-7-1, ISSN: ISSN: 2076-1465. DOI: 10.23919/EUSIPCO.2017.8081277
    document

  85. Binaural Speech Enhancement with Spatial Cue Preservation Utilising Simultaneous Masking
    A. Koutrouvelis; J. Jensen; Meng Guo; R.C. Hendriks; R. Heusdens;
    In 25th European Signal Processing Conference (EUSIPCO 2017),
    Kos (Greece), EURASIP, pp. 628-632, August 2017. ISBN 978-0-9928626-7-1. DOI: 10.23919/EUSIPCO.2017.8081277
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  86. Distributed beamforming based on message passing
    Heusdens, R.; Guoqiang Zhang; Hendriks, R.; Yang Zeng; Kleijn, W.B.;
    Patent, US US9584909 B2, February 2017. Assignee: Google Inc..
    document

  87. System and method for emitting and especially controlling an audio signal in an environment using an objective intelligibility measure
    Van Der Schaar, H.; Han, O.; Heusdens, R.; Hendriks, R.;
    Patent, US US9659571 B2, May 2017. Assignee: Robert Bosch Gmbh.
    document

  88. Jointly optimal near-end and far-end multi-microphone speech intelligibility enhancement based on mutual information
    S. Khademi; R. C. Hendriks; W. B. Kleijn;
    In Proc. IEEE Int. Conf. Acoustics, Speech, Signal Proc. (ICASSP),
    Shanghai, China, March 2016.
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  89. Improved multi-microphone noise reduction preserving binaural cues
    A. Koutrouvelis; R. C. Hendriks; J. Jensen; R. Heusdens;
    In Proc. IEEE Int. Conf. Acoustics, Speech, Signal Proc. (ICASSP),
    Shanghai, China, March 2016.
    documentsoftware

  90. Greedy Gossip Algorithm with Synchronous Communication for Wireless Sensor Networks
    Jie Zhang; R. C. Hendriks; R. Heusdens;
    In The 6th Joint WIC/IEEE Symposium on Information Theory and Signal Processing in the Benelux,
    pp. 228-235, 2016.
    document

  91. STRUCTURED TOTAL LEAST SQUARES BASED INTERNAL DELAY ESTIMATION FOR DISTRIBUTED MICROPHONE AUTO-LOCALIZATION
    Jie Zhang; R. C. Hendriks; R. Heusdens;
    In International Workshop on Acoustic Signal Enhancement (IWAENC),
    2016.
    document

  92. An intelligibility metric based on a simple model of speech communication
    S. van Kuyk; W. B. Kleijn; R. C. Hendriks;
    In International Workshop on Acoustic Signal Enhancement (IWAENC),
    2016. (Best student paper award).
    document

  93. On the Impact of Quantization on Binaural MVDR Beamforming
    J. Amini; R. C. Hendriks; R. Heusdens; Meng Guo; Jesper Jensen;
    In Proc. 12th ITG Symposium on Speech Communication,
    2016.
    document

  94. A Simple Model of Speech Communication and its Application to Intelligibility Enhancement
    W.B. Kleijn; R.C. Hendriks;
    IEEE Signal Processing Letters,
    Volume 22, Issue 3, pp. 303-307, February 2015. DOI: 10.1109/LSP.2014.2351784
    documentsoftware

  95. Optimizing Speech Intelligibility in a Noisy Environment: A unified view
    W.B. Kleijn; J.B. Crespo; R.C. Hendriks; P. Petkov; B. Sauert; P. Vary;
    IEEE Signal Processing Magazine,
    Volume 32, Issue 2, pp. 43-54, March 2015. DOI: 10.1109/MSP.2014.2365594 Additional material: software

  96. Optimal Near-End Speech Intelligibility Improvement Incorporating Additive Noise and Late Reverberation under an Approximation of the Short-Time SII
    R. C. Hendriks; J. B. Crespo; J. Jensen; C. H. Taal;
    IEEE/ACM Trans. Audio, Speech, and Language Processing,
    2015.
    document

  97. Distributed Estimation of the Inverse of the Correlation Matrix for Privacy Preserving Beamforming Signal Processing
    Yuan Zeng; R.C. Hendriks;
    Signal Processing,
    Volume 107, pp. 109-122, 2015.
    document

  98. On clock synchronization for multi-microphone speech processing in wireless acoustic sensor networks
    Y. Zeng; R. C. Hendriks; N. D. Gaubitch;
    In Proc. IEEE Int. Conf. Acoustics, Speech, Signal Proc. (ICASSP),
    Brisbane (Australia)} project = {audio,sewasn, 2015.
    document

  99. Speech reinforcement in noisy reverberant conditions under an approximation of the short-time SII
    R. C. Hendriks; J. B. Crespo; J. Jensen; C. H. Taal;
    In Proc. IEEE Int. Conf. Acoustics, Speech, Signal Proc. (ICASSP),
    Brisbane (Australia)} project = {audio,iescs, 2015.
    document

  100. An Audio Game for Training Navigation Skills of Blind Children
    Bas Dado; Mick van Gelderen; Olivier Hokke; Kevin Allain; Miguel Oliveira; Ben Kybartas; Rafael Bidarra; Nikolay Gaubitch; Richard Hendriks;
    In Second International Workshop on Sonic Interactions in Virtual Environments,
    2015.
    document

  101. Multizone Speech Reinforcement
    J.B. Crespo; R.C. Hendriks;
    IEEE/ACM Trans. Audio, Speech, and Language Processing,
    Volume 22, Issue 1, pp. 54-66, January 2014. DOI: 10.1109/TASL.2013.2283100
    document

  102. Distributed Delay and Sum Beamformer for Speech Enhancement via Randomized Gossip
    Yuan Zeng; R.C. Hendriks;
    IEEE/ACM Trans. Audio, Speech, and Language Processing,
    Volume 22, Issue 1, pp. 260-273, January 2014. DOI: 10.1109/TASLP.2013.2290861
    document

  103. Speech Reinforcement in Noisy Reverberant Environments Using a Perceptual Distortion Measure
    J.B. Crespo; R.C. Hendriks;
    In Proc. Int. Conf. Acoustics, Speech, Signal Proc. (ICASSP 2014),
    Florence (Italy), IEEE, pp. 910-914, May 2014. DOI: 10.1109/ICASSP.2014.6853729
    document

  104. Speech Reinforcement with a Globally Optimized Perceptual Distortion Measure for Noisy Reverberant Channels
    Joao B. Crespo; Richard C. Hendriks;
    In International Workshop on Acoustic Signal Enhancement (IWAENC),
    2014.
    document

  105. A generalized Fourier domain: Signal processing framework and applications
    Jorge Martinez Castaneda; Richard Heusdens; Richard C. Hendriks;
    Signal Processing,
    Volume 93, pp. 1259-1267, 2013.
    document

  106. Speech Energy Redistribution for Intelligibility Improvement in Noise Based on a Perceptual Distortion Measure
    C. H. Taal; R. C. Hendriks; R. Heusdens;
    Computer Speech and Language,
    Volume 2013, 2013.
    documentsoftware

  107. A generalized Fourier domain: Signal processing framework and applications
    Jorge Martinez; Richard Heusdens; Richard C. Hendriks;
    Signal Processing,
    Volume 93, Issue 5, pp. 1259 - 1267, 2013. DOI: http://dx.doi.org/10.1016/j.sigpro.2012.10.015
    document

  108. DFT-Domain Based Single-Microphone Noise Reduction for Speech Enhancement-A Survey of the State of the Art
    Richard C. Hendriks; Timo Gerkmann; Jesper Jensen;
    Morgan and Claypool Publishers, Volume 9 in Synthesis Lectures on Speech and Audio Processing, pp. 1-80, January 2013. DOI: 10.2200/S00473ED1V01Y201301SAP011 Additional material: software

  109. Clique-based Distributed Beamforming for Speech Enhancement in Wireless Sensor Networks
    Yuan Zeng; Richard C. Hendriks; Richard Heusdens;
    In European Signal Proc. Conf. (EUSIPCO),
    September 2013.
    document

  110. Evaluation of Instrumental Measures for the Prediction of Musical Noise in Enhanced Noisy Speech
    M. R. J. Gerrits; Richard C. Hendriks; Nikolay D. Gaubitch; Jesper Jensen; M. S. Pedersen;
    In 34th WIC Symposium on Information Theory in the Benelux,
    2013.
    document

  111. Privacy-Preserving Distributed Speech Enhancement For Wireless Sensor Networks By Processing In The Encrypted Domain
    Richard C. Hendriks; Zekeriya Erkin; Timo Gerkmann;
    In Proc. IEEE Int. Conf. Acoustics, Speech, Signal Proc. (ICASSP),
    Vancouver, Canada, IEEE, pp. 7005-7009, May 2013.
    document

  112. Privacy Preserving Distributed Beamforming Based on Homomorphic Encryption
    Richard C. Hendriks; Zekeriya Erkin; Timo Gerkmann;
    In European Signal Proc. Conf. (EUSIPCO),
    September 2013.
    document

  113. Multizone Near-End Speech Enhancement Under Optimal Second-Order Magnitude Distortion
    Joao B. Crespo; Richard C. Hendriks;
    In IEEE Workshop on Applications of Signal Processing to Audio and Acoustics 2013 (WASPAA 2013),
    New Paltz, USA, October 2013.
    document

  114. A Low-complexity Spectro-Temporal Distortion Measure for Audio Processing Applications
    Cees H. Taal; Richard C. Hendriks; Richard Heusdens;
    IEEE Trans. Audio, Speech language Proc.,
    Volume 20, pp. 1553-1564, May 2012.
    document

  115. Unbiased MMSE-based noise power estimation with low complexity and low tracking delay
    Timo Gerkmann; Richard C. Hendriks;
    IEEE Trans. Audio Speech Lang. Process.,
    Volume 20, Issue 4, pp. 1383–1393, May 2012. DOI: 10.1109/TASL.2011.2180896
    documentsoftware

  116. Spectral Magnitude Minimum Mean-Square Error Estimation Using Binary and Continuous Gain Functions
    Jesper Jensen; Richard C. Hendriks;
    IEEE Trans. Audio, Speech Language Proc.,
    Volume 20, pp. 92-102, January 2012.
    document

  117. Noise Correlation Matrix Estimation for Multi-Microphone Speech Enhancement
    Richard C. Hendriks; Timo Gerkmann;
    IEEE Trans. Audio, Speech Language Proc.,
    Volume 20, pp. 223-233, January 2012.
    document

  118. Distributed MVDR Beamforming for (Wireless) Microphone Networks using Message Passing
    Richard Heusdens; Guoqiang Zhang; Richard C. Hendriks; Yuan Zeng; W. Bastiaan Kleijn;
    In Proc. IEEE Int. Workshop on Acoustic Echo and Noise Control (IWAENC),
    September 2012.
    document

  119. Distributed Delay and Sum Beamformer in Regular Networks Based on Synchronous Randomized Gossip
    Yuan Zeng; Richard C. Hendriks;
    In Proc. IEEE Int. Workshop on Acoustic Echo and Noise Control (IWAENC),
    September 2012.
    document

  120. Distributed Delay And Sum Beamformer For Speech Enhancement In Wireless Sensor Networks Via Randomized Gossip
    Yuan Zeng; Richard C. Hendriks;
    In Proc. IEEE Int. Conf. Acoustics, Speech, Signal Proc. (ICASSP),
    pp. 4037-4040, May 2012.
    document

  121. Matching Pursuit for Channel Selection in Cochlear Implants Based on an Intelligibility Metric
    Cees H. Taal; Richard C. Hendriks; Richard Heusdens;
    In European Signal Proc. Conf. (EUSIPCO),
    August 2012. Additional material: software

  122. Noise Power Spectral Density estimation for public address systems in noisy reverberant environments
    Neda Faraji; Richard C. Hendriks;
    In Proc. IEEE Int. Workshop on Acoustic Echo and Noise Control (IWAENC),
    September 2012.
    document

  123. A Speech Preprocessing Strategy For Intelligibility Improvement In Noise Based On A Perceptual Distortion Measure
    Cees H. Taal; Richard C. Hendriks; Richard Heusdens;
    In Proc. IEEE Int. Conf. Acoustics, Speech, Signal Proc. (ICASSP),
    pp. 4061-4064, May 2012.
    documentsoftware

  124. A Spatio-Temporal Generalized Fourier Domain Framework To Acoustic Modeling In Enclosed Spaces
    Jorge Martinez Castaneda; Richard Heusdens; Richard C. Hendriks;
    In Proc. IEEE Int. Conf. Acoustics, Speech, Signal Proc. (ICASSP),
    pp. 529-532, May 2012.
    document

  125. On Mutual Information As A Measure Of Speech Intelligibility
    Jalal Taghia; Richard C. Hendriks; Rainer Martin;
    In Proc. IEEE Int. Conf. Acoustics, Speech, Signal Proc. (ICASSP),
    pp. 65-68, May 2012.
    document

  126. Improved MMSE-Based Noise PSD Tracking Using Temporal Cepstrum Smoothing
    Timo Gerkmann; Richard C. Hendriks;
    In Proc. IEEE Int. Conf. Acoustics, Speech, Signal Proc. (ICASSP),
    pp. 105-108, May 2012.
    document

  127. System and method for emitting and especially controlling an audio signal in an environment using an objective intelligibility measure
    H. van der Schaar; H. Oosterom; R. Heusdens; R. C. Hendriks;
    Patent Publ. Nr. WO/2012/152323, Nov. 2012.

  128. System and method for emitting and especially controlling an audio signal in an environment using an objective intelligibility measure
    H. van der Schaar; H. Oosterom; R. Heusdens; R. C. Hendriks;
    Patent, WO/2012/152323, 2012.

  129. An Evaluation of Objective Measures for Intelligibility Prediction of Time-Frequency Weighted Noisy Speech
    Cees H. Taal; Richard C. Hendriks; Richard Heusdens; Jesper Jensen;
    Journal of the Acoustical Society of America,
    Volume 130, pp. 3013-3027, 2011.
    document

  130. An Algorithm for Intelligibility Prediction of Time-Frequency Weighted Noisy Speech
    Cees H. Taal; Richard C. Hendriks; Richard Heusdens; Jesper Jensen;
    IEEE Trans. Audio, Speech Language Proc.,
    Volume 19, pp. 2125-2136, 2011.
    documentsoftware

  131. A Generalized Poisson Summation Formula and its Application to Fast Linear Convolution
    Jorge Martinez; Richard Heusdens; Richard C. Hendriks;
    {IEEE} Signal Process. Lett.,
    Volume 18, Issue 9, pp. 501 -504, September 2011. DOI: 10.1109/LSP.2011.2161078

  132. A Generalized Poisson Summation Formula and its Application to Fast Linear Convolution
    J. Martinez; R. Heusdens; R.C. Hendriks;
    IEEE Signal Process. Lett.,
    Volume 18, Issue 9, pp. 501-504, 2011. DOI: 10.1109/LSP.2011.2161078
    documentsoftware

  133. Spectral Magnitude Minimum Mean-Square Error Binary Masks for DFT based Speech Enhancement
    Jesper Jensen; Richard C. Hendriks;
    In Proc. IEEE Int. Conf. Acoustics, Speech, Signal Proc. (ICASSP),
    pp. 4736-4739, 2011.
    document

  134. Estimation of the Noise Correlation Matrix
    Richard C. Hendriks; Timo Gerkmann;
    In Proc. IEEE Int. Conf. Acoustics, Speech, Signal Proc. (ICASSP),
    pp. 4740-4743, 2011.
    document

  135. Noise power estimation based on the probability of speech presence
    Timo Gerkmann; Richard C. Hendriks;
    In 2011 IEEE Workshop Appl. Signal Process. Audio Acoust.,
    New Paltz, NY, USA, pp. 145–148, Oct. 2011. DOI: 10.1109/ASPAA.2011.6082266
    documentsoftware

  136. Speech Intelligibility Predictor and Applications Thereof
    Cees H. Taal; Richard C. Hendriks; Richard Heusdens; Ulrik Kjems; Jesper Jensen;
    US Patent Application 13/045303, March 2011.

  137. Speech Intelligibility Predictor and Applications Thereof
    C.H. Taal; R.C. Hendriks; R. Heusdens; U. Kjems; J. Jensen;
    Patent, US2011/0224976, 2011.

  138. Noise spectrum tracking in noisy acoustical signals
    R.C. Hendriks; J. Jensen; U. Kjems; R. Heusdens;
    Patent, EP 2164066 A1, 2011.

  139. A Short-Time Objective Intelligibility Measure for Time-Frequency Weighted Noisy Speech
    Cees H. Taal; Richard C. Hendriks; Richard Heusdens; Jesper Jensen;
    In Proc. IEEE Int. Conf. Acoustics, Speech, Signal Proc. (ICASSP),
    Dallas, TX, pp. 4214-4217, 2010.
    documentsoftware

  140. On linear versus non-linear magnitude-DFT estimators and the influence of super-Gaussian speech priors
    Richard C. Hendriks; Richard Heusdens;
    In Proc. IEEE Int. Conf. Acoustics, Speech, Signal Proc. (ICASSP),
    Dallas, TX, pp. 4750-4753, 2010.
    document

  141. MMSE based noise PSD tracking with low complexity
    Richard C. Hendriks; Richard Heusdens; Jesper Jensen;
    In Proc. 2010 IEEE Int. Conf. Acoust. Speech Signal Proc.,
    Dallas, TX, USA, pp. 4266–4269, 2010. DOI: 10.1109/ICASSP.2010.5495680
    documentsoftware

  142. On Predicting the Difference in Intelligibility Before and After Single-Channel Noise Reduction
    Cees H. Taal; Richard C. Hendriks; Richard Heusdens; Jesper Jensen;
    In Proc. IEEE Int. Workshop on Acoustic Echo and Noise Control (IWAENC),
    Tel Aviv, Israel, September 2010.
    document

  143. Intelligibility Prediction of Single-Channel Noise-Reduced Speech
    Cees H. Taal; Richard C. Hendriks; Richard Heusdens; Jesper Jensen;
    In ITG-Fachtagung Sprachkommunikation,
    Bochum, Germany, October 2010.
    document

  144. Noise spectrum tracking in noisy acoustical signals
    Richard C. Hendriks; Jesper Jensen; Ulrik Kjems; Richard Heusdens;
    European Patent Application, March 2010. Publication number EP 2164066 A1.

  145. Low Complexity DFT-Domain Noise PSD Tracking Using High-Resolution Periodograms
    Richard C. Hendriks; Richard Heusdens; Jesper Jensen; Ulrik Kjems;
    Eurasip Journal on Advances in Signal Processing,
    Volume 2009, 2009.
    document

  146. On Optimal Multichannel Mean-Squared Error Estimators for Speech Enhancement
    Richard C. Hendriks; Richard Heusdens; Ulrik Kjems; Jesper Jensen;
    IEEE Signal Processing Letters,
    Volume 16, Issue 10, pp. 885-888, October 2009.
    document

  147. Log-Spectral Magnitude MMSE Estimators under Super-Gaussian Densities
    Richard C. Hendriks; Richard Heusdens; Jesper Jensen;
    In Interspeech,
    pp. 1319-1322, 2009.
    documentsoftware

  148. On Robustness of Multi-Channel Minimum Mean-Squared Error Estimators under Super-Gaussian Priors
    Richard C. Hendriks; Richard Heusdens; Jesper Jensen;
    In IEEE Workshop on Applications of Signal Processing to Audio and Acoustics,
    pp. 157-160, 2009.
    document

  149. Fast noise PSD estimation with low complexity
    Richard C. Hendriks; Richard Heusdens; Jesper Jensen; Ulrik Kjems;
    In Proc. IEEE Int. Conf. Acoustics, Speech, Signal Proc. (ICASSP),
    pp. 3881-3884, 2009.
    document

  150. An Evaluation of Objective Quality Measures for Speech Intelligibility Prediction
    Cees H. Taal; Richard C. Hendriks; Richard Heusdens; Jesper Jensen; Ulrik Kjems;
    In Interspeech,
    pp. 1947-1950, 2009.
    document

  151. On the Estimation of Complex Speech DFT Coefficients Without Assuming Independent Real and Imaginary Parts
    Jan S. Erkelens; Richard C. Hendriks; Richard Heusdens;
    IEEE Signal Processing Letters,
    Volume 15, pp. 213-216, 2008.
    documentsoftware

  152. Noise Tracking using DFT Domain Subspace Decompositions
    Richard C. Hendriks; Jesper Jensen; Richard Heusdens;
    IEEE Trans. Audio, Speech Language Proc.,
    Volume 16, Issue 3, pp. 541-553, March 2008.

  153. Comparison of Complex-DFT estimators with and without the independence Assumption of Real and Imaginary Parts
    Richard C. Hendriks; Jan S. Erkelens; Richard Heusdens;
    In IEEE Int. Conf. Acoust., Speech, Signal Processing (ICASSP),
    2008.
    documentsoftwaresoftware

  154. Noise Tracking by Exploiting DFT-Domain Subspace Decompositions
    Richard C. Hendriks; Jesper Jensen; Richard Heusdens;
    In ITG-Fachtagung Sprachkommunikation (Aachen, Germany),
    October 2008.
    document

  155. Advances in DFT-Based Single-Microphone Speech Enhancement
    Richard C. Hendriks;
    PhD thesis, TU Delft, February 2008.
    document

  156. Minimum mean-square error estimation of discrete Fourier coefficients with generalized Gamma priors.
    Jan S. Erkelens; Richard C. Hendriks; Richard Heusdens; Jesper Jensen;
    IEEE Trans. Audio, Speech Language Proc.,
    Volume 15, Issue 6, pp. 1741-1752, August 2007.
    documentsoftwaresoftware

  157. An MMSE Estimator for Speech Enhancement under a Combined Stochastic-Deterministic Speech Model
    Richard C. Hendriks; Richard Heusdens; Jesper Jensen;
    IEEE Trans. Audio, Speech Language Proc.,
    Volume 15, Issue 2, pp. 406-415, February 2007.
    document

  158. MAP estimators for speech enhancement under normal and Rayleigh inverse Gaussian distributions
    Richard C. Hendriks; Rainer Martin;
    IEEE Trans. Audio, Speech Language Proc.,
    Volume 15, Issue 3, pp. 918-927, March 2007.
    document

  159. DFT Domain Subspace Based Noise Tracking for Speech Enhancement
    Richard C. Hendriks; Jesper Jensen; Richard Heusdens;
    In Interspeech,
    pp. 830-833, August 2007.
    document

  160. Adaptive Time Segmentation for Improved Speech Enhancement
    Richard C. Hendriks; Richard Heusdens; Jesper Jensen;
    IEEE Trans. Audio, Speech Language Proc.,
    Volume 14, Issue 6, pp. 2064-2074, November 2006.
    document

  161. Speech Enhancement under a Combined Stochastic-Deterministic Model
    Richard C. Hendriks; Richard Heusdens; Jesper Jensen;
    In IEEE Int. Conf. Acoust., Speech, Signal Processing (ICASSP),
    pp. 453-456, May 2006.
    document

  162. MMSE estimation of complex-valued discrete Fourier coefficients with generalized gamma priors
    Jesper Jensen; Richard C. Hendriks; Jan S. Erkelens; Richard Heusdens;
    In Interspeech,
    pp. 257-260, September 2006.
    document

  163. Minimum mean-square error amplitude estimators for speech enhancement under the generalized Gamma distribution
    Richard C. Hendriks; Jan S. Erkelens; Jesper Jensen; Richard Heusdens;
    In Proc. IEEE Int. Workshop on Acoustic Echo and Noise Control (IWAENC),
    September 2006.
    documentsoftwaresoftware

  164. A Study of the Distribution of Time-Domain Speech Samples and Discrete Fourier Coefficients
    Jesper Jensen; Ivo Batina; Richard C. Hendriks; Richard Heusdens;
    In Proc. IEEE First Benelux/DSP Valley Signal Processing Symposium,
    pp. 155-158, April 2005.
    document

  165. Improved Subspace Based Speech Enhancement Using an Adaptive Time Segmentation
    Richard C. Hendriks; Richard Heusdens; Jesper Jensen;
    In Proc. IEEE First Benelux/DSP Valley Signal Processing Symposium,
    pp. 163-166, April 2005.
    document

  166. Adaptive Time Segmentation of Noisy Speech for Improved Speech Enhancement
    Richard C. Hendriks; Richard Heusdens; Jesper Jensen;
    In IEEE Int. Conf. Acoust., Speech,Signal Processing (ICASSP),
    pp. 153-156, March 2005.
    document

  167. Smoothed Subspace Based Noise Suppression with Application to Speech Enhancement
    Jesper Jensen; Richard C. Hendriks; Richard Heusdens; S.H. Jensen;
    In European Signal Processing Conference (EUSIPCO),
    Antalya, Turkey, September 2005.
    document

  168. Improved Decision Directed Approach for Speech Enhancement Using an Adaptive Time Segmentation
    Richard C. Hendriks; Richard Heusdens; Jesper Jensen;
    In Interspeech,
    pp. 2101-2104, September 2005.
    document

  169. Forward-Backward Decision Directed Approach for Speech Enhancement
    Richard C. Hendriks; Richard Heusdens; Jesper Jensen;
    In Int. Workshop Acoustic Echo and Noise Control (IWAENC),
    pp. 109-112, September 2005.
    document

  170. Perceptual linear predictive noise modelling for sinusoid-plus-noise audio coding
    Richard C. Hendriks; Richard Heusdens; Jesper Jensen;
    In IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP),
    pp. 189-192, May 2004.
    document

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