Bahareh Abdi

Publications

  1. 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

  2. Atrial fibrillation fingerprinting
    B. Abdi;
    PhD thesis, TU Delft, Fac. EEMCS, October 2021. ISBN 978-94-6384-260-0. DOI: 10.4233/uuid:af53215c-69ea-4c18-8761-d5cfd2c6e186
    document

  3. 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

  4. 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

  5. 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

  6. 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.

  7. 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

  8. 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

  9. 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
    document

  10. A novel Carbon-Nanotube-based Nano-lithography technique to form nano-MOS devices
    J. Derakhshandeh; Y. Abdi; S. Mohajerzadeh;
    In International Conference on Electron, Ion and Photon Beam Technology and Nanofabrication (EIPBN) 2007,
    2007.

  11. Nano-scale MOSFET Devices Fabricated Using a Novel Carbon-Nanotube-based Lithography
    J. Derakhshandeh; Y. Abdi; S. Mohajerzadeh; M. Beikahmadi; E.Arzi; M.D. Robertson; J.C.Bennett;
    In Material Research Society (MRS) spring meeting,
    San Francisco, CA, Mar. 2006.
    document

  12. Fabrication of 100nm Gate length MOSFET's using a novel carbon-nanotube-based nano-lithography
    J. Derakhshandeh; M. Beikahmadi; K. Baghban; Y. Abdi; S. Mohajerzadeh;
    In ICEE2006,
    Amirkabir University, Tehran, 2006.
    document

  13. PECVD-grown Carbon-nano-tubes on Silicon Substrates with an anomalous Nickel-seeded Tip-growth structure
    Y. Abdi; J. Koohsorkhi; J. Derakhshandeh; S. Mohajerzadeh; H. Hoseinzadegan; M.D. Robertson; C. Benet;
    Journal of Materials and Science Engineering C,
    2005.

  14. Fabrication of 100nm Gate length MOSFET's using a novel carbon-nanotube-based nano-lithography
    J. Derakhshandeh; Y. Abdi; S. Mohajerzadeh; H. Hosseinzadegan; E. Asl. Soleimani; H. Radamson;
    Journal of Materials and Science Engineering B,
    2005.

  15. Light Emitting Nano-porous silicon structures fabricated using a plasma hydrogenation technique
    Y. Abdi; J. Derakhshandeh; S. Mohajerzadeh; F. Nayeri; E. Arzi; M.D. Robertson;
    Journal of Materials and Science Engineering B,
    2005.

  16. Fabrication of 100nm Gate length MOSFET's using a novel carbon-nanotube-based nano-lithography
    18) J. Derakhshandeh; Y. Abdi; S. Mohajerzadeh; H. Hosseinzadegan; E. Asl. Soleimani; H. Radamson;
    In EMRS spring meeting 2005,
    2005.

  17. PECVD-grown Carbon-nano-tubes on Silicon Substrates with an anomalous Nickel-seeded Tip-growth structure
    Y. Abdi; J. Koohsorkhi; J. Derakhshandeh; S. Mohajerzadeh; H. Hoseinzadegan; M.D. Robertson; C. Benet;
    In EMRS spring meeting 2005,
    2005.

  18. Low Temperature Metal-Free Fabrication of polycrystalline Si and Ge TFT's by PECVD Hydrogenation
    P. Hashemi; J. Derakhshandeh; B. Hekmatshoar; S. Mohajerzadeh; Y. Abdi; M.D. Robertson;
    In Material Research Society conference (MRS 2005),
    San Francisco CA, USA, pp. A22.2.1-A22.2.6, 2005.
    document

  19. Low temperature growth of nano-crystalline silicon and germanium using Rf hydrogen plasma with application in thin film transistors
    P. Hashemi; Y. Abdi; S. Mohajerzadeh; J. Derakhshandeh; B. Hekmatshoar; E. Arzi; M. D. Robertson;
    In Iran Phys. Conf.,
    Iran, Aug. 2005.

  20. Emitting Nano-porous silicon structures fabricated using a plasma hydrogenation technique
    Y. Abdi; J. Derakhshandeh; S. Mohajerzadeh; F. Nayeri; E. Arzi; M.D. Robertson;
    In EMRS spring meeting 2005,
    2005.

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