[  Submitted   |   Journal   |   Chapter   |   Conference  ]

submitted papers

  1. P. Stano, M. Kuscu, M. T. Barros, M. Egan, Y. Kuruma, S. Balasubramaniam, J. Wang, T. Nakano, “Molecular Communication Approaches for Wetware Artificial Life: A Workshop Report,” 2023.
  2. I. O. Yildirim, E. Keskin, Y. Kocaman, M. Kuscu, O. Ozcan, “From Concept to Implementation: Streamlining Sensor and Actuator Selection for Collaborative Design and Engineering of Interactive Systems,” 2023.
  3. M. Civas, M. Kuscu, O. B. Akan, “Frequency-Domain Detection for Molecular Communication with Cross-Reactive Receptors,” 2023.
  4. M. Kuscu, “Adaptive Molecular Communication Receivers with Tunable Ligand-Receptor Interactions,” 2023.
  5. I. Mokari Bolhassan, A. Abdali, M. Kuscu, “Microfluidic Molecular Communication Transmitter Based on Hydrodynamic Gating,” 2023.
  6. A. Abdali, M. Kuscu, “Frequency-Domain Model of Microfluidic Molecular Communication Channels with Graphene BioFET-based Receivers,” 2023.

journal publications

  1. M. O. Araz, A. R. Emirdagi, M. S. Kopuzlu, M. Kuscu, “Ratio Shift Keying Modulation for Time-Varying Molecular Communication Channels,” IEEE Transactions on Nanobioscience, vol. 23, no. 1, pp. 176-189, January 2024.
  2. O. B. Akan, E. Dinc, M. Kuscu, O. Cetinkaya, B. A. Bilgin, “Internet of Everything (IoE) – From Molecules to the Universe,” IEEE Communications Magazine, vol. 61, no. 10, pp. 122-128, October 2023.
  3. A. R. Emirdagi, M. S. Kopuzlu, M. O. Araz, M. Kuscu, “Affinity-Division Multiplexing for Molecular Communications with Promiscuous Ligand Receptors,” IEEE Transactions on Molecular, Biological and Multi-Scale Communications, vol. 9, no. 3, pp. 318-322, September 2023.
  4. M. Civas, M. Kuscu, O. Cetinkaya, B. E. Ortlek, O. B. Akan, “Graphene and Related Materials for the Internet of Bio-Nano Things,” APL Materials, vol. 11, no. 080901, August 2023.
  5. M. Kahvazi Zadeh, I. Mokari Bolhassan, M. Kuscu, “Microfluidic Pulse Shaping Methods for Molecular Communications,” Nano Communication Networks Journal (Elsevier), vol. 36, p. 100453, June 2023.
  6. M. Egan, M. Kuscu, M. T. Barros, M. Booth, A. Llopis-Lorente, M. Magarini, D. P. Martins, M. Schäfer, P. Stano, “Towards Interdisciplinary Synergies in Molecular Communications: Perspectives from Synthetic Biology, Nanotechnology, Communications Engineering and Philosophy of Science,” Life, vol. 13, no. 1, p. 208, January 2023.
  7. M. Kuscu, O. B. Akan, “Detection with Ligand Receptors under Molecular Interference in Molecular Communications,” Digital Signal Processing (Elsevier), vol. 124, no. 103186, May 2022.
  8. M. Kuscu, B. D. Unluturk, “Internet of Bio-Nano Things: A Review of Applications, Enabling Technologies and Key Challenges,”  ITU Journal on Future and Evolving Technologies, vol. 2, no. 3, December 2021.
  9. M. Kuscu, H. Ramezani, E. Dinc, S. Akhavan, O. B. Akan, “Fabrication and Microfluidic Analysis of Graphene-based Molecular Communication Receiver for Internet of Nano Things (IoNT),” Scientific Reports (Nature), vol. 11, p. 19600, October 2021.
  10. M. Civas, O. Cetinkaya, M. Kuscu, O. B. Akan, “Universal Transceivers: Opportunities and Future Directions for the Internet of Everything (IoE),” Frontiers in Communications and Networks, vol. 2, p. 50, September 2021.
  11. M. Kuscu, O. B. Akan, “Channel Sensing in Molecular Communications with Single Type of Ligand Receptors,” IEEE Transactions on Communications, vol. 67, no. 10, pp. 6868-6884, October 2019.
  12. 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,” Proceedings of the IEEE, vol. 107, no. 7, pp. 1302-1341, July 2019.
  13. M. Aktas, M. Kuscu, E. Dinc, O. B. Akan, “D-DSC: Decoding Delay-based Distributed Source Coding for Internet of Sensing Things,” PLOS One, vol. 13, no. 3, p. e0193154, March 2018.
  14. M. Kuscu, O. B. Akan, “Modeling Convection-Diffusion-Reaction Systems for Microfluidic Molecular Communications with Surface-based Receivers in Internet of Bio-Nano Things,” PLOS One, vol. 13, no. 2, p. e0192202, February 2018.
  15. M. Kuscu, O. B. Akan, “Maximum Likelihood Detection with Ligand Receptors for Diffusion-Based Molecular Communications in Internet of Bio-Nano Things,” IEEE Transactions on Nanobioscience, vol. 17, no. 1, pp. 44-54, January 2018.
  16. 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.
  17. M. Kuscu, O. B. Akan, “Modeling and Analysis of SiNW FET-Based Molecular Communication Receiver,” IEEE Transactions on Communications, vol. 64, no. 9, pp. 3708-3721, September 2016.
  18. M. Kuscu, O. B. Akan, “On the Physical Design of Molecular Communication Receiver Based on Nanoscale Biosensors,” IEEE Sensors Journal, vol. 16, no. 8, pp. 2228-2243, April 2016.
  19. M. Kuscu, O. B. Akan, “The Internet of Molecular Things Based on FRET,” IEEE Internet of Things Journal, vol. 3, no. 1, pp. 4-17, February 2016.
  20. M. Kuscu, A. Kiraz, O. B. Akan, “Fluorescent Molecules as Transceiver Nanoantennas: The First Practical and High-Rate Information Transfer over a Nanoscale Communication Channel based on FRET,” Scientific Reports (Nature), vol. 5, no. 7831, January 2015.
  21. M. Kuscu, O. B. Akan, “A Communication Theoretical Analysis of FRET-Based Mobile Ad Hoc Molecular Nanonetworks,” IEEE Transactions on Nanobioscience, vol. 13, no. 3, pp. 255-266, September 2014.
  22. M. Kuscu, O. B. Akan, “FRET-Based Nanoscale Point-to-Point and Broadcast Communications with Multi-Exciton Transmission and Channel Routing,” IEEE Transactions on Nanobioscience, vol. 13, no. 3, pp. 315-326, September 2014.
  23. M. Kuscu, O. B. Akan, “Coverage and Throughput Analysis for FRET-Based Mobile Molecular Sensor/Actor Nanonetworks,” Nano Communication Networks Journal (Elsevier), vol. 5, no. 1-2, pp. 45-53, March-June 2014.
  24. M. Kuscu, O. B. Akan, “Multi-Step FRET-Based Long-Range Nanoscale Communication Channel,” IEEE Journal on Selected Areas in Communication (JSAC), vol. 31, no. 12, pp. 715-725, December 2013.
  25. M. Kuscu, O. B. Akan, “A Physical Channel Model and Analysis for Nanoscale Molecular Communications with Forster Resonance Energy Transfer (FRET),” IEEE Transactions on Nanotechnology, vol. 11, no. 1, pp. 200-207, January 2012.

book chapters

  1. E. Dinc, B. A. Bilgin, M. Kuscu, O. B. Akan, “Internet of Everything (IoE) – From Molecules to the Universe,” in Harnessing the Internet of Everything (IoE) for Accelerated Innovation Opportunities, Edited by P. J. S. Cardoso, J. Monteiro, J. Semiao, and J. M. F. Rodrigues, IGI Global, January 2019.
  2. M. Kuscu, O. B. Akan, “Nanoscale Communications Based on Forster Resonance Energy Transfer (FRET),” in Modeling, Methodologies and Tools for Molecular and Nano-scale Communications, Edited by J. Suzuki, T. Nakano and M. J. Moore, Springer, March 2017.

conference papers

  1. A. R. Emirdagi, M. S. Kopuzlu, M. O. Araz, M. Kuscu, “Affinity-Division Multiplexing for Molecular Communications with Ligand Receptors,” to appear in Proc. 7th Workshop on Molecular Communications, Erlangen, Germany, April 2023.
  2. M. Civas, A. Abdali, M. Kuscu, O. B. Akan, “Frequency-Domain Detection for Molecular Communications,” to appear in Proc. IEEE ICC 2023, Rome, Italy, May 2023.
  3. M. S. Kopuzlu, M. O. Araz, A. R. Emirdagi, M. Kuscu, “Capacity Analysis of Molecular Communications with Ratio Shift Keying Modulation,” in Proc. ACM NANOCOM 2022, Barcelona, Spain, October 2022.
  4. G. Muzio, M. Kuscu, O. B. Akan, “Selective Signal Detection with Ligand Receptors under Interference in Molecular Communications,” in Proc. IEEE SPAWC 2018, Kalamata, Greece, June 2018.
  5. M. Kuscu, O. B. Akan, “On the Capacity of Diffusion-Based Molecular Communications with SiNW FET-Based Receiver,” in Proc. IEEE EMBC 2016, Orlando, FL, USA, August 2016.
  6. M. Kuscu, O. B. Akan, “Modeling and Analysis of SiNW BioFET as Molecular Antenna for Bio-Cyber Interfaces towards the Internet of Bio-NanoThings,” in Proc. IEEE WF-IoT 2015, Milan, Italy, December 2015.
  7. M. Kuscu, “An Information-Theoretic Model and Analysis of Graphene Plasmon-Assisted FRET-Based Nanocommunication Channel,” in Proc. ACM NANOCOM 2014, Atlanta, Georgia, USA, May 2014.
  8. F. Soylemezgiller, M. Kuscu, D. Kilinc, “A Traffic Congestion Avoidance Algorithm with Dynamic Road Pricing for Smart Cities,” in Proc. IEEE PIMRC 2013, London, UK, September 2013.
  9. M. Kuscu, O. B. Akan, “FRET-Based Mobile Molecular Nanonetworks,” in Proc. IEEE Med-Hoc-Net 2013, Ajaccio, Corsica, June 2013.
  10. M. Kuscu, D. Malak, O. B. Akan, “An Information Theoretical Analysis of Broadcast Networks and Channel Routing for FRET-Based Nanoscale Communications,” in Proc. IEEE MoNaCom 2012 (in conjunction with IEEE ICC 2012), Ottawa, Canada, June 2012.
  11. M. Kuscu, O. B. Akan, “FRET-based Single-pair, Broadcast and Multi-step Nanocommunications with Multi-exciton Transmission,” 4th NaNoNetworking Summit (N3Summit 2012), Barcelona, Spain, June 2012.
  12. M. Kuscu, O. B. Akan, “A Nanoscale Communication Channel with Fluorescence Resonance Energy Transfer (FRET),” in Proc. IEEE MoNaCom 2011 (in conjunction with IEEE INFOCOM 2011), pp. 425-430, Shanghai, China, April 2011.