Simulation Study of Messenger Molecule Displacement in Communication via Diffusion
Keywords:
Inter- Symbol Interference (ISI), Binary Concentration Shift Keying (BCSK), MolecUlar CommunicatIoN (MUCIN) simulator, Molecular Communication via diffusion (MCvD), Messenger Molecules (MMs), step length, hitting time distributionAbstract
Molecular Communication via diffusion (MCvD) is a new communication paradigm that uses molecules as the information carrier between the nano-machines. The end to end MolecUlar CommunicatIoN (MUCIN) simulator tool is used to explore the characteristics of the MCvD channel. This simulator considered Binary Concentration Shift Keying (BCSK) technique for modulating binary information symbols, support 1-dimensional environment, and send symbols consecutively. The main issues of MCvD system are the Inter-Symbol Interference that arises when the molecules belonging to the previous symbol come into the current symbol. Conventional MCvD system exhibits a long tail of received molecular histogram, results in higher ISI. In this paper, the displacement of a messenger molecule is increased to reduce the amount of stray molecules in the MCvD channel. The proposed technique shows the first hitting time distribution to determine the highest reception of the information carrying molecules by the receiver. We also evaluate the performance of proposed scheme for different values of step length in terms of Inter- Symbol Interference (ISI), symbol detection and communication delay. Our results indicate that introducing proposed technique significantly improves the performance of MCvD system.
References
Pudasaini, Subodh, S. Shin, and K.S. Kwak, “Robust modulation technique for diffusion-based molecular communication in nanonetworks,” arXiv preprint arXiv: 1401.3938, 2014.
Kuran, M. Şükrü, H.B. Yilmaz, T. Tugcu, and B. Özerman, “Energy model for communication via diffusion in nanonetworks,” Nano Communication Networks Vol.1, Issue. 2, pp.86-95, 2010.
H.B. Yilmaz, N. Kim and C. Chae. , “Effect of ISI mitigation on modulation techniques in molecular communication via diffusion,” InProceedings of ACM The First Annual International Conference on Nanoscale Computing and Communication, ACM, p.3, 2014.
A.C. Heren, F.N. Kilicli, G. Genc, and T. Tugcu, “Effect of messenger molecule decomposition in communication via diffusion,” InProceedings of ACM The First Annual International Conference on Nanoscale Computing and Communication, ACM, p.12, 2014.
I. Llatser, A. Cabellos-Aparicio, and E. Alarcon, “Networking challenges and principles in diffusion-based molecular communication,” IEEE Wireless Communications, Vol.19, Issue. 5, 2012.
T. Nakano, M. Moore, A. Enomoto and T. Suda, “Molecular communication technology as a biological ICT,” In Biological functions for information and communication technologies, pp. 49-86, Springer Berlin Heidelberg, 2011.
A.C. Heren, M.S. Kuran, H.B. Yilmaz, and T. Tugcu, “Channel capacity of calcium signaling based on inter-cellular calcium waves in astrocytes,” In 2013 IEEE International Conference on Communications Workshops (ICC), pp. 792-797,2013.
H.B. Yilmaz, N. Kim and C.Chae, “Effect of ISI mitigation on modulation techniques in communication via diffusion,” arXiv preprint arXiv: 1401.3410, 2014.
B. Tepekule, A.E. Pusane, H.B. Yilmaz, and T. Tugcu, “Energy efficient ISI mitigation for communication via diffusion,” InCommunications and Networking (BlackSeaCom), IEEE International Black Sea Conference on, pp. 33-37, 2014.
B.D. Unluturk, E.B. Pehlivanoglu and O.B. Akan, “Molecular channel model with multiple bit carrying molecules,” InCommunications and Networking (BlackSeaCom), 2013 First International Black Sea Conference on, pp. 79-83, 2013.
P.C. Yeh,, K.C. Chen, Y.C. Lee, L.S. Meng, P.Shih, P.Y. Ko, W. Lin, and C.H. Lee , “A new frontier of wireless communication theory: diffusion-based molecular communications,” IEEE Wireless Communications, Vol. 19, Issue. 5,2012.
Downloads
Published
How to Cite
Issue
Section
License
This work is licensed under a Creative Commons Attribution 4.0 International License.
Authors contributing to this journal agree to publish their articles under the Creative Commons Attribution 4.0 International License, allowing third parties to share their work (copy, distribute, transmit) and to adapt it, under the condition that the authors are given credit and that in the event of reuse or distribution, the terms of this license are made clear.
