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Publications

Journal Publications: 

  • [J1] H. Unterweger, J. Kirchner, W. Wicke, A. Ahmadzadeh, D. Ahmed, V. Jamali, C. Alexiou, G. Fischer, and R.
    Schober. Experimental Testbed for Molecular Communication with Magnetic Nanoparticles. To be submitted
    for publication to the IEEE Trans. NanoBioscience, manuscript is 40 % complete, 2018.
  • [J2] C. Soeldner, E. Socher, V. Jamali, W. Wicke, A. Ahmadzadeh, R. Schober, and H. Sticht. A Survey of Biological
    Building Blocks for Synthetic Molecular Communication Systems. To be submitted for publication to IEEE
    Communications Surveys and Tutorials, manuscript is 80 % complete, 2018.
  • [J3] V. Jamali, N. Farsad, R. Schober, and A. Goldsmith. Diffusive Molecular Communications with Reactive Molecules.
    To be submitted for publication (complete draft is available), Oct. 2018.
  • [J4] W. Wicke, A. Ahmadzadeh, V. Jamali, H. Unterweger, C. Alexiou, and R. Schober. Magnetic Nanoparticle
    Based Communication in Microfluidic Environments. Submitted for publication to the IEEE Trans. NanoBioscience,
    Aug. 2018.
  • [J5] G. Grün and P. Weiß. On the field-induced transport of magnetic nanoparticles in incompressible flow: modeling
    and numerics, 31 pages, submitted for publication in Math. Mod. Meth. Appl. Sci. (M^3AS).
  • [J6] L. Grebenstein, J. Kirchner, R. Stavracakis, W. Zimmermann, F. Irnstorfer, W. Wicke, A. Ahmadzadeh, V.
    Jamali, G. Fischer, R. Weigel, A. Burkovski, and R. Schober. Biological Optical-to-Chemical Signal Conversion
    Interface: A Small-scale Modulator for Molecular Communications. Accepted for publication in the IEEE
    Trans. NanoBioscience, Jul. 2018.
  • [J7] R. Mosayebi, V A. Ahmadzadeh, W. Wicke, Jamali, R. Schober, and M. Nasiri-Kenari. Early Cancer Detection
    in Blood Vessels Using Mobile Nanosensors. Accepted with minor revisions for publication in the IEEE Trans.
    NanoBioscience, Aug. 2018.
  • [J8] A. Ahmadzadeh, V. Jamali, and R. Schober. Stochastic Channel Modeling for Diffusive Mobile Molecular Communication Systems. To be published IEEE Trans. Commun., 2018.
  • [J9] V. Jamali, A. Ahmadzadeh, N. Farsad, R. Schober. Constant-Composition Codes for Maximum Likelihood Detection Without CSI in Diffusive Molecular Communications. IEEE Trans. Commun., Vol. 66, pp. 1981-1995, May 2018.
  • [J10] V. Jamali, N. Farsad, R. Schober, and A. Goldsmith. Non-Coherent Detection for Diffusive Molecular Communication
    Systems. IEEE Trans. Commun., Vol. 66, pp. 2515-2531, June 2018.
  • [J11] R. Mosayebi, V. Jamali, N. Ghoroghchian, R. Schober, M. Nasiri-Kenari, M. Mehrabi. Cooperative Abnormality
    Detection via Diffusive Molecular Communications. IEEE Trans. NanoBioscience, Vol. 16, pp. 828-842, Dec. 2017.
  • [J12] V. Jamali, A. Ahmadzadeh, and R. Schober. Symbol Synchronisation for Diffusion-Based Molecular Communications.
    IEEE Trans. NanoBioscience, Vol. 16, pp. 873-887, Dec. 2017.
  • [J13] V. Jamali, A. Ahmadzadeh, and R. Schober. On the Design of Matched Filters for Molecular Counting Receivers.
    IEEE Commun. Letters, Vol. 21, pp. 1711-1714, Aug. 2017.
  • [J14] A. Ahmadzadeh, V. Jamali, A. Noel, R. Schober. Diffusive Mobile Molecular Communications Over Time
    Variant Channels. IEEE Commun. Letters, Vol. 21, pp. 1265-1268, Jun. 2017.
  • [J15] A. Noel, K. Cheung, R. Schober, D. Makrakis, and A. Hafid. Simulating with AcCoRD: Actor-based Communication
    via Reaction-Diffusion. Elsevier NanoCommunication Networks, Vol. 11, pp. 44-75, Mar. 2017.
  • [J16] S. Kisseleff, R. Schober, and W. Gerstacker. Magnetic Nanoparticle Based Interface for Molecular Communication
    Systems. IEEE Commun. Letters, Vol. 21, pp. 258-261, Feb. 2017.

Conference Publications: 

  • [C1] L. Grebenstein, J. Kirchner, R. Stavracakis, W. Zimmermann, W. Wicke, A. Ahmadzadeh, V. Jamali, G. Fischer,
    R. Weigel, A. Burkovski, and R. Schober. Biological Optical-to-Chemical Signal Conversion Interface:
    A Small-scale Modulator for Molecular Communications. Presented at ACM/IEEE Nanocom,
    Sep. 2018.
  • [C2] W. Wicke, T. Schwering, A. Ahmadzadeh, V. Jamali, A. Noel, and R. Schober. Modeling Duct Flow for Molecular Communications. Accepted for presentation at IEEE Globecom, Dec. 2018.
  • [C3] R. Mosayebi, W. Wicke, V. Jamali, A. Ahmadzadeh, R. Schober, and M. Nasiri-Kenari. Advanced Target Detection
    via Molecular Communication. Accepted for presentation at IEEE Globecom, Dec. 2018.
  • [C4] M. Schäfer, W. Wicke, R. Rabenstein, and R. Schober. An nD Model for a Cylindrical Diffusion-Advection
    Problem with an Orthogonal Force Component. Accepted for presentation at 23rd International Conference on
    Digital Signal Processing (DSP), 2018.
  • [C5] G. Grün. On the field-induced transport of magnetic nanoparticles in incompressible flow: modeling and analysis.
    Special session “Nonlinear Evolution PDEs, Interfaces and Applications”, 12th AIMS Conference on Dynamical
    Systems, Differential Equations, and Applications, invited talk, Taipei, July 2018.
  • [C6] P. Weiß. On a stable numerical scheme for magnetic nanoparticles transported in incompressible flow. 12th
    AIMS Conference on Dynamical Systems, Differential Equations, and Applications, Taipei, July 2018.
  • [C7] H. Unterweger, J. Kirchner, W. Wicke, A. Ahmadzadeh, D. Ahmed, V. Jamali, C. Alexiou, G. Fischer, and R.
    Schober. Experimental Molecular Communication Testbed Based on Magnetic Nanoparticles in Duct Flow.
    IEEE Intern. Workshop on Signal Proc. Advances In Wireless Commun. (SPAWC), invited paper, Jul. 2018.
  • [C8] W. Wicke, A. Ahmadzadeh, V. Jamali, R. Schober, H. Unterweger, C. Alexiou. Molecular Communication
    Using Magnetic Nanoparticles. IEEE Wireless Commun. Netw. Conf. (WCNC), pp. 1-6, Apr. 2018.
  • [C9] A. Ahmadzadeh, V. Jamali, and R. Schober. Statistical Analysis of Time-Invariant Channels in Diffusive Mobile
    Molecular Communications. IEEE Globecom, pp. 1-7, Dec. 2017.
  • [C10] V. Jamali, A. Ahmadzadeh, and R. Schober. Symbol Synchronisation for Diffusive Molecular Communication
    Systems. IEEE Intern. Conf. Commun. (ICC), pp. 1-7, Jun. 2017.
  • [C11] V. Jamali, A. Ahmadzadeh, N. Farsad, and R. Schober. SCW Codes for Optimal CSI-free Detection in Diffusive
    Molecular Communications. IEEE Intern. Symp. Infrom. Theory (ISIT), pp. 3190-3194, Jun. 2017.

Book Chapter: 

  • [B1] Ahmadzadeh, V. Jamali, W. Wicke, R. Schober. Receiver Mechanisms for Synthetic Molecular Communication Systems with Diffusion. Chapter in Encyclopedia of Wireless
    Networks, Jul. 2018.

Poster Presentations:

  • [P1] W. Wicke, A. Ahmadzadeh, and R. Schober. Modeling a Fully-absorbing Receiver for Magnetic Nanoparticles.
    3rd Workshop on Molecular Communications, Ghent, Belgium, Apr. 2018.
  • [P2] M. Schäfer and R. Rabenstein. Modeling of Transport Processes in Bounded Domains. 3rd Workshop on Molecular
    Communications, Ghent, Belgium, Apr. 2018.
  • [P3] L. Grebenstein, J. Kirchner, R. Stavracakis-Peixoto, R. Schober, and A. Burkovsi. The First Cell Phone in Molecular
    Communications: A Pilot Model of a Biological Transmitter. 3rd Workshop on Molecular Communications,
    Ghent, Belgium, Apr. 2018.
  • [P4] M. Schäfer and R. Rabenstein. Mathematical Modeling of Transport Processes in Bounded Domains. 2nd
    Workshop on Molecular Communications, Dublin, Ireland, May 2017.
  • [P5] W. Wicke, A. Ahmadzadeh, V. Jamali, and R. Schober. Time-Variant Channels, and CSI-Free Detection for
    Molecular Communications. 2nd Workshop on Molecular Communications, Dublin, Ireland, May 2017.