dr. H. Ramezani

PhD student
Signal Processing Systems (SPS), Department of Microelectronics

PhD thesis (Apr 2015): Underwater acoustic localization and packet scheduling
Promotor: Geert Leus

Expertise: Underwater communication

Themes: Signal processing for communication

Biography

Hamid was a PhD student in the CAS group, working with Geert Leus on underwater communications. He graduated in June 2016.

Projects history

Autonomous, self-learning, optimal and complete underwater systems

Can we develop robust, cooperative and cognitive communication for Autonomous Underwater Vehicles?

  1. Underwater acoustic localization and packet scheduling
    H. Ramezani;
    PhD thesis, TU Delft, Fac. EEMCS, June 2016. ISBN 978-94-6186-657-8.
    document

  2. Localization Packet Scheduling for Underwater Acoustic Sensor Networks
    H. Ramezani; G. Leus;
    IEEE J. Sel. Areas Comm.,
    Volume 33, Issue 7, pp. 1345-1356, July 2015.
    document

  3. Collision Tolerant and Collision Free Packet Scheduling for Underwater Acoustic Localization
    H. Ramezani; F. Fazel; M. Stojanovic; G. Leus;
    IEEE Trans. Wireless Comm.,
    Volume 14, Issue 5, pp. 2584-2595, May 2015.
    document

  4. Sparsity-Aware Multi-Source RSS Localization
    H. Jamali-Rad; H. Ramezani; G. Leus;
    Signal Processing,
    Volume 101, pp. 174-191, August 2014.
    document

  5. Scalable collision-tolerant localization in underwater acoustic sensor networks
    H. Ramezani; G. Leus; M. Stojanovic;
    In Asilomar Conf. Signals, systems, and Computers (Asilomar 2014),
    Pacific Grove, California, USA, IEEE, November 2014.

  6. Packet scheduling for underwater acoustic sensor network localization
    H. Ramezani; H. Fazel; M. Stojanovic; G. Leus;
    In Int. Conf. Communications (ICC 2014),
    Sydney, Australia, IEEE, June 2014.
    document

  7. Target Localization and Tracking for an Isogradient Sound Speed Profile
    H. Ramezani; H. Jamali-Rad; G. Leus;
    IEEE Tr. Signal Proc.,
    Volume 61, Issue 5, pp. 1434-1446, March 2013.
    document

  8. Blind Sparsity-Aware Multi-Source Localization
    H. Jamali-Rad; H. Ramezani; G. Leus;
    In Proc. European Signal Proc. Conf. (EUSIPCO),
    pp. 1-5, September 2013.
    document

  9. DMC-MAC: Dynamic multi-channel MAC in underwater acoustic networks
    H. Ramezani; G. Leus;
    In Proc. of the European Signal Processing Conference (EUSIPCO 2013),
    Marrakech, Morocco, September 2013.
    document

  10. L-MAC: Localization packet scheduling for an underwater acoustic sensor network
    H. Ramezani; G. Leus;
    In Proc. of the International Conference on Communications (ICC 2013),
    Budapest, Hungary, June 2013.
    document

  11. Dynamic multi-channel packet scheduling in an underwater acoustic sensor network
    H. Ramezani; G. Leus;
    In Asilomar Conf. Signals, systems, and Computers (Asilomar 2014),
    Pacific Grove, California, USA, IEEE, November 2013.
    document

  12. Ranging in an Underwater Medium with Multiple Isogradient Sound Speed Profile Layers
    H. Ramezani; G. Leus;
    Sensors,
    Issue 12, pp. 2996-3017, 2012. ISSN 1424-822. DOI: 10.3390/s120302996
    document

  13. Cooperative localization in partially connected mobile wireless sensor networks using geometric link reconstruction
    H. Jamali-Rad; H. Ramezani; G. Leus;
    In Proc. IEEE ICASSP,
    Kyoto (Japan), IEEE, pp. 2633-2636, May 2012.
    document

  14. Localization and Tracking of a Mobile Target for an Isogradient Sound Speed Profile
    H. Ramezani; H. Jamali-Rad; G. Leus;
    In Proc. IEEE ICC,
    Ottawa (Canada), IEEE, pp. 2633-2636, June 2012.
    document

  15. Accurate ranging in a stratified underwater medium with multiple iso-gradient sound speed profile layers
    H. Ramezani; G. Leus;
    In Proc. IFAC Workshop on Navigation, Guidance and Control of Underwater Vehicles (NGCUV 2012),
    Porto (Portugal), IEEE, April 2012.
    document

  16. Sparse multi-target localization using cooperative access points
    H. Jamali-Rad; H. Ramezani; G. Leus;
    In 2012 IEEE 7th Sensor Array and Multichannel Signal Processing Workshop (SAM),
    IEEE, pp. 353-356, 2012.
    document

BibTeX support

Last updated: 7 Feb 2019

Hamid Ramezani

Alumnus