Digital Signal Processing

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Effect of Receiver Sensitivity in Molecular Communication Via Diffusion


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1 Department of ECE, GNDU RC, Jalandhar, Punjab, India
     

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Diffusion based molecular communication in nano-communication networks are characterized by random motion of the chemical signal or information molecules from transmitter to the receiver nano-machine. In order to make MCvD system more reliable, worked on the receiver side to increase the capability of receiving chemical signals. This paper enhances the sensitivity area of the receiver and then finds optimum areas of the receiver nano-machine. Proper selection of receiver sensing area is important since the information molecules needs to be received as fast as possible with low symbol error rates. By using this technique, there is an improvement in Inter-Symbol Interference (ISI) and communication delay that arises from Brownian motion.


Keywords

Inter-Symbol Interference (ISI), Ligand Receptors, Receiver Sensing Space, Brownian Motion, MolecUlar CommuINcation (MUCIN) Simulator.
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  • Effect of Receiver Sensitivity in Molecular Communication Via Diffusion

Abstract Views: 187  |  PDF Views: 4

Authors

Anmol Preet Kaur
Department of ECE, GNDU RC, Jalandhar, Punjab, India
Deep Kamal Kaur Randhawa
Department of ECE, GNDU RC, Jalandhar, Punjab, India
Gurleen Kaur Walia
Department of ECE, GNDU RC, Jalandhar, Punjab, India

Abstract


Diffusion based molecular communication in nano-communication networks are characterized by random motion of the chemical signal or information molecules from transmitter to the receiver nano-machine. In order to make MCvD system more reliable, worked on the receiver side to increase the capability of receiving chemical signals. This paper enhances the sensitivity area of the receiver and then finds optimum areas of the receiver nano-machine. Proper selection of receiver sensing area is important since the information molecules needs to be received as fast as possible with low symbol error rates. By using this technique, there is an improvement in Inter-Symbol Interference (ISI) and communication delay that arises from Brownian motion.


Keywords


Inter-Symbol Interference (ISI), Ligand Receptors, Receiver Sensing Space, Brownian Motion, MolecUlar CommuINcation (MUCIN) Simulator.

References