MSc J. Amini

PhD student
Circuits and Systems (CAS), Department of Microelectronics

PhD thesis (Apr 2021): Rate-constrained multi-microphone noise reduction for hearing aid devices
Promotor: Richard Heusdens, Richard Hendriks

Expertise: Acoustic signal processing

Themes: Audio and acoustic signal processing

Biography

Jamal Amini was a PhD student at CAS, working on the STW project "Spatially Correct Multi-Microphone Noise Reduction Strategies suitable for Hearing Aids". This project focuses on developing strategies for reducing the complexity/battery requirement of binaural noise reduction algorithms, without sacrificing noise reduction performance.

He defends his thesis in Apr 2021.

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

multichannel signal processing algorithms to help hearing aid users

  1. Rate-constrained multi-microphone noise reduction for hearing aid devices
    J. Amini;
    PhD thesis, TU Delft, Fac. EEMCS, April 2021. DOI: 10.4233/uuid:54fa083f-5ddf-4b6c-b663-a1b61c6681f5
    document

  2. 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

  3. Antenna Placement in a Compressive Sensing-Based Colocated MIMO Radar
    A. Ajorloo; A. Amini; E. Tohidi; M. H. Bastani; G. Leus;
    IEEE Transactions on Aerospace and Electronic Systems,
    Volume 56, Issue 6, pp. 4606-4614, 2020. DOI: 10.1109/TAES.2020.2998196
    document

  4. 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

  5. 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,
    2019.
    document

  6. 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.

  7. 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.

  8. 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

  9. 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

BibTeX support

Last updated: 13 Apr 2021

Jamal Amini

Alumnus