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Hamideh Ramezani

Hamideh Ramezani

Research Assistant

Cambridge Graphene Centre, Engineering Department,
University of Cambridge, 9, JJ Thomson Avenue, Cambridge, CB3 0FA

Biography:

Hamideh Ramezani received her B.S. degree in Electrical Engineering, the major of Communication from University of Tehran, Iran in 2011, M.S. degree in Electrical Engineering, the major of Communication Systems from Sharif University of Technology, Iran in 2013. She is currently a research assistant in the Internet of Everything (IoE) Group, Department of Engineering, University of Cambridge, UK. Her current research interests include fabrication of graphene-based devices, biosensing, nanoscale neuronal and molecular communications, and Internet of Everything.

Research Interests

2D Materials, Neuronal Communications, Molecular Communications, Nanonetworks, Internet of Bio-Nano Things, Internet of Everything

Publications

[Submitted Papers]

  1. H. Ramezani, O. B. Akan, "Information Transmission through Neurons with Optogenetic Stimulation,'' 2019.
  2. M. Kuscu, H. Ramezani, E. Dinc, O. B. Akan, "Graphene-based Molecular Communication Receiver: Fabrication, Microfluidic Analysis, and Future Research Directions,'' 2019.
  3. N. A. Abbasi, H. Ramezani, M. Civas, O. Cetinkaya, B. A. Bilgin, O. B. Akan, "Novel ICT-based Treatment Approaches for Spinal Cord Injuries," 2019.
  4. H. Ramezani, O. B. Akan, "Receiver Design for Nanoscale Neuronal Communication,'' 2019. 
  5. E. Dinc, M. Kuscu, H. Ramezani, B. A. Bilgin, C. Koca, O. B. Akan, "The Universal Transceiver for Internet of Everything towards Maximally Connected Universe,''2019.

[Journal Papers]

  1. T. Khan, H. Ramezani, N. A. Abbasi, O. B. Akan, "Impact of Long Term Plasticity on Information Transmission over Neuronal Networks," to appear in  IEEE Transactions on Nanobioscience, 2019.
  2. M. Kuscu, E. Dinc, B. A. Bilgin, H. Ramezani, O. B. Akan, "Transmitter and Receiver Architectures for Molecular Communications: A Survey on Physical Design with Modulation, Coding and Detection Techniques," in Proceedings of the IEEEvol. 107, no. 7, pp. 1302-1341, July 2019.
  3. H. Ramezani, T. Khan, O. B. Akan, "Sum Rate of MISO Neuro-spike Communication Channel with Constant Spiking Threshold," IEEE Transactions on Nanobioscience, vol. 17, no.3, pp. 342-351, July 2018.
  4. H. Ramezani, O. B. Akan, "Impacts of Spike Shape Variations on Synaptic Communication," IEEE Transactions on Nanobioscience, vol. 17, no. 3, pp. 260-271, July 2018.
  5. H. Ramezani, O. B. Akan, "Information Capacity of Vesicle Release in Neuro-spike Communication," IEEE Communications Letters, vol. 22, no. 1, pp. 41-44, January 2018.
  6. H. Ramezani, O. B. Akan, "A Communication Theoretical Modeling of Axonal Propagation in Hippocampal Pyramidal Neurons," IEEE Transactions on Nanobioscience, vol. 16, no. 4, pp. 248-256, June 2017.
  7. O. B. Akan, H. Ramezani, T. Khan, N. A. Abbasi, M. Kuscu, "Fundamentals of Molecular Information and Communication Science," Proceedings of the IEEE, vol. 105, no. 2, pp. 306-318, February 2017.

[Book Chapters]

  1. H. Ramezani, T. Khan, E. Dinc, O. B. Akan, "Neuronal Communication Channels," in Encyclopedia of Wireless Networks, Edited by S. Shen, X. Lin, K. Zhang, Springer, 2018.

[Conference Papers]

  1. B. A. Bilgin, H. Ramezani, and O. B. Akan, "Human Blockage Model for Indoor Terahertz Band Communication," in Proc. IEEE ICC 2019, Shanghai, China, May 2019.
  2. T. Khan, H. Ramezani, G. Muzio, O. B. Akan, "Analysis of Information Flow in MISO Neuro-spike Communication Channel with Synaptic Plasticity," in Proc. IEEE NANO, Cork, Ireland, July 2018.
  3. C. Koca, E. Dinc, H. Ramezani, O. B. Akan, "Performance Analysis for Capacitive Electrical Neural Interfaces," in Proc. IEEE NANO, Cork, Ireland, July 2018.
  4. H. Ramezani, T. Khan, O. B. Akan, "Information Theoretical Analysis of Synaptic Communication for Nanonetworks," in Proc. IEEE INFOCOM 2018, Honolulu, USA, April 2018.
  5. H. Ramezani, H. Khaki, E. Erzin, O. B. Akan, "Speech Features for Telemonitoring of Parkinson's Disease Symptoms," in Proc. IEEE EMBC 2017, JeJu Island, S. Korea, July 2017.
  6. H. Ramezani, O. B. Akan, "Importance of Vesicle Release Stochasticity in Neuro-spike Communication," in Proc. IEEE EMBC 2017, JeJu Island, S. Korea, July 2017.
  7. H. Ramezani, C. Koca, O. B. Akan, "Rate Region Analysis of Multi-terminal Neuronal Nanoscale Molecular Communication Channel," in Proc. IEEE Nano 2017, Pittsburgh, USA, July 2017.
  8. D. Malak, H. Ramezani, M. Kocaoglu, O. B. Akan, "Diversity in Diffusion-based Molecular Communication Channel with Drift," in Proc. IEEE ICC 2016, Kuala Lumpur, Malaysia, June 2016.
  9. H. Ramezani, O. B. Akan, "Synaptic Channel Model Including Effects of Spike Width Variation," in Proc. ACM NANOCOM 2015, Boston, MA, USA, September 2015.

[Theses]

  1. H. Ramezani, "Communication Theoretical Foundations of Nervous System", Ph.D. Thesis, Koc University, Istanbul, Turkey, 2018.
  2. H. Ramezani, "Analysis of Intercellular Coordination for Interference Management ", M.Sc. Thesis, Sharif University of Thechnology, Tehran, Iran, 2013.