Conferences:

1. MU Riaz, H Awan, CT Chou  " Maximum a posteriori-based molecular circuit demodulators for spatially partitioned molecular  communication receivers  " Accepted in Proceedings of  6th ACM International Conference on Nanoscale Computing and Communication September 2019 Dublin  Ireland".

2. MU Riaz, H Awan, CT Chou  " Using Spatial Partitioning to Reduce Receiver Signal Variance in Diffusion-Based Molecular Communication " Published in Proceedings of  5th ACM International Conference on Nanoscale Computing and Communication September 2018 Reykjavik  Iceland".

3. C.T.Chou  "Molecular circuit for approximate maximum a posteriori demodulation of concentration modulated signals" Published in Proceedings of  5th ACM International Conference on Nanoscale Computing and Communication September 2018 Reykjavik  Iceland".

4.  C.T.Chou "Chemical reaction networks for maximum likelihood estimation of the concentration of signalling molecules" Published in Proceedings of  4th ACM International Conference on Nanoscale Computing and Communication September 2017 Washington DC, USA.

5.  Najm Hassan, Chun Tung Chou and Mahbub  Hassan "Event and Node Identification from a Single-Pulse Transmission in Self-powered Nanosensor Networks"Published in Proceedings of 
4th ACM International Conference on  Nanoscale Computing and Communication  September 2017 Washington DC, USA.

6.   H.Awan and C.T.Chou "Molecular Circuit-based Transmitters and Receivers for Molecular Communication Networks" Published in Proceedings of  2017 IEEE 18th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC) to be held in Sapporo, Japan in July 2017.

7.   H.Awan "Reducing the Effect of Reaction Rate Constants on the Performance of Molecular Communication Networks"  Published in Proceedings of  ACM International Conference on
Nanoscale Computing and Communication  September 2016 NewYork, USA.

7.   H.Awan and C.T.Chou "Demodulation of Reaction Shift Keying Signals in Molecular Communication Network with Protein Kinase Receiver Circuit" Published in  Proceedings of  IEEE Wireless Communications and Networking Conference WCNC, Doha, Qatar April 2016.

8.  H.Awan "Effect of Retroactivity on the Performance of Molecular Communication Networks" Published in Proceedings of IEEE Australian Communications Theory Workshop AUSCTW, Melbourne, Australia, 20-22 January 2016.

9.   H. Awan and C. T. Chou, "Impact of Receiver Molecular Circuits on the Performance of Reaction Shift Keying," Published in Proceedings of the Second ACM International Conference on Nanoscale Computing and Communication, Boston, USA, September  2015.

10. E. Zarepour, M. Hassan, C. T. Chou, and A. Adesina, "Remote Detection of Chemical Reactions using Nanoscale Terahertz Communication Powered by Pyroelectric Energy Harvesting”, in the proceedings of ACM International Conference on Nanoscale Computing and Communication, Boston, USA, Sept. 2015.

11. E. Zarepour, M. Hassan, C. T. Chou, and A. Adesina, M. Ebrahimi Warkiani, "Reliability Analysis of Time-Varying Wireless Nanoscale Sensor Networks", in the Proceedings of the 15th IEEE International Conference on Nanotechnology, Rome, Italy, Jul. 2015.

12.  E. Zarepour, M. Hassan, C. T. Chou, and A. Adesina, "Performance evaluation of  Pulse based modulation schema for Wireless Nanoscale Sensor Networks", in the Proceedings of the 15th IEEE International Conference on Nanotechnology, Rome, Italy, Jul. 2015.

13.   E. Zarepour, M. Hassan, C. T. Chou, and A. Adesina, "Frequency Hopping Strategies for Improving Terahertz Sensor Network Performance over Composition Varying Channels", in the IEEE International Symposium on a World of Wireless, Mobile and Multimedia Networks (WoWMoM), Sydney, Australia, Jun. 2014. 

14. E. Zarepour, M. Hassan, C. T. Chou, and A. A. Adesina, "Power Optimization in Nano Sensor Networks for Chemical Reactors", in the proceedings of ACM International Conference on Nanoscale Computing and Communication, Atlanta, USA, Mar. 2014. 

15. C. T. Chou, "Molecular communication networks with general molecular circuit receivers," in the proceedings of ACM International Conference on Nanoscale Computing and Communication, Atlanta, Georgia, USA, 2014.

16.  E. Zarepour, A. A. Adesina, M. Hassan, and C. T. Chou,  "Nano Sensor Networks for Tailored Operation of Highly Efficient Gas-To-Liquid Fuels Catalysts", in the Proceedings of 44th Australian and New Zealand Chemical and Process Engineering Conference (Chemeca), Brisbane, Australia, Sept. 2013.

17. E. Zarepour, M. Hassan, C. T. Chou, and A. A. Adesina, "Nano-scale Sensor Networks for Chemical Catalysis", in the Proceedings of the 13th IEEE International Conference on Nanotechnology, Beijing, China, Aug. 2013. 

18. E. Zarepour, (2014). High Reliable Nano-scale Communication over Composition Varying Channels. WoWMoM  PHD Forum, 2014. Sydney, Australia, June 2014.

 
Journals:

1. Hamdan Awan and Chun Tung "Molecular Communications with Molecular Circuit-based Transmitters and Receivers" has been accepted for publication in the IEEE Transactions on Nanobioscience January 2019.

2. Chun Tung "Designing molecular circuits for approximate maximum a posteriori demodulation of concentration modulated signals" has been accepted for publication in the IEEE Transactions on Communication April 2019.

3. Hamdan Awan and Chun Tung Chou "Improving the capacity of molecular communication using enzymatic reaction cycles" Published in  IEEE Transactions on NanoBioscience.  December 2017.

 4. Hamdan Awan and Chun Tung Chou "Generalized Solution for the Demodulation of Reaction Shift Keying Signals in Molecular Communication Networks"  Published in  IEEE Transactions on Communications vol 65(2) Feb 2017.

5. Chun Tung Chou "Chemical reaction networks for computing logarithm" in Synthetic Biology , 2017.

6. E. Zarepour, M. Hassan, C. T. Chou, and A. Adesina, "SEMON: Sensorless Event Monitoring in Self-Powered Wireless Nanosensor Networks",  in  the ACM Transactions on Sensor Networks, 2017.

7. E. Zarepour, M. Hassan, C. T. Chou, and M. Ebrahimi Warkiani, Characterizing Terahertz Channels for Monitoring Human Lungs with Wireless NanosensorNetworks,  Elsevier Journal of Nano Communication Networks, 2016.

8. E. Zarepour, M. Hassan, C. T. Chou, and A. Adesina, Event Recognition using Energy Harvesting Signatures in Nanosensor Networks,  IEEE Nanotechnology Magazine, 2016.

9. E. Zarepour, M. Hassan, C.T. Chou and A. Adesina. Open-loop Power Adaptation in Nanosensor Networks for Chemical Reactors. IEEE Transactions on Molecular, Biological, and Multi-Scale Communications. 1 (3): 292-307, 2016.

10.  C. T. Chou. A Markovian Approach to the Optimal Demodulation of Diffusion-based Molecular Communication Networks. IEEE Transactions on Communications. 63(10):3728-3743, 2015

11.  C.T. Chou. Maximum a-posteriori decoding for diffusion-based molecular communication using analog filters. IEEE Transactions on Nanotechnology. 14(6):1054-1067, 2015.

12. C.T.Chou,"Molecular circuits for decoding frequency coded signals in nano-communication networks," Nano Communication Networks, vol. 3, no. 1, pp. 46–56, Mar. 2012.

13.  C. T. Chou,"Extended Master Equation Models for Molecular Communication Networks," IEEE Transactions on NanoBioScience, vol. 12, no. 3, pp. 79-92, 2013.

14. C. T. Chou, " Noise properties of linear molecular communication networks.," Nano Communication Networks, vol. 4, no. 3, pp. 87-97, 2013 .

15.  Zarepour, E., Adesina, A. A., Hassan, M., & Chou, C. T. (2014). An innovative approach to improving gas-to-liquid fuels catalysis via nano-sensor network modulation. Industrial & Engineering Chemistry Research, 53(14), 5728-5736.

16. C. T. Chou, "Impact of receiver reaction mechanisms on the performance of molecular communication networks," Nanotechnology, IEEE Transactions on, vol. 14, no. 2, pp. 304-317, March 2015.


Workshops:


1. Muhammad Usman Riaz, “Impact of partitioning in molecular communication networks on Bit error rate (BER)” Australian Communication Theory Workshop AusCTW at the University of Sydney, Sydney, Australia., Feb. 6-8, 2019.

2. Muhammad Usman Riaz, “Molecular Communication Networks”: Postgraduate Research Symposium Program, at the University of New South Wales, Sydney, Australia, Sept. 27-28, 2018.

3. Muhammad Usman Riaz  "Importance of Molecular Communication in bioinformatics” UNSW Bioinformatics Connect, at the University of New South Wales, Sydney, Australia Oct. 24, 2018.

4. Muhammad Usman Riaz  "Using Spatial Partitioning to Reduce Receiver Noise in Molecular Communication" at IEEE Australian Communications Theory Workshop AUSCTW, NewCastle, Australia, Feb 2018.

5. H.Awan and C.T.Chou "Demodulation of Reaction Shift Keying Signals in Molecular Communication with Complex Receiver Circuits" at IEEE Australian Communications Theory Workshop AUSCTW, Canberra, Australia, 18-20 January 2017.

6. H.Awan and C.T.Chou  "Nano-Scale Communication Networks with Molecular Circuit Based Transmitter & Receivers" International Conference on Nanoscience & Nanotechnology ICONN, Canberra Australia Feb 2016 .

7. H.Awan and C.T.Chou  "Impact of the Number of Receptors on Performance of Molecular Communication Networks" Australian Nano-Technology Network ANN ECR Workshop GoldCoast Australia June 2015 .

8. H.Awan and C.T.Chou  "Nano-scale Molecular Communication Networks: Design and Applications" 7th IEEE Technologies of the Future ITOF November 2015 UNSW Sydney Australia.

9. H.Awan and C.T.Chou  "Molecular communication for networks of nanomachines" Australian Nano-Technology Network ANN ECR Workshop Sydney Australia July 2014.

 


-------------------------------------------------------------