2015
DOI: 10.1049/iet-nbt.2014.0041
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Framework for single input single output nanonetwork‐based realistic molecular communication

Abstract: Mobile ad hoc molecular nanonetwork (MAMNET) is a new paradigm for the realisation of future nanonetworks. In MAMNET, transmission of nanoscale information from nanomachine to infostation is based on collision and adhesion. In this study, the authors develop a realistic framework for encompassing the electronic structure of the neurotransmitter in the process of transmitting nanoscale information at a single input single output nanonetwork. Nanonetwork performance is evaluated in terms of average packet delay,… Show more

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Cited by 6 publications
(16 citation statements)
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References 24 publications
(84 reference statements)
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“…An arrival AP at the presynaptic cell leads to ACh release based on 'a priori' probability. We modelled vesicle release as packet generation in the channel, which refers to converting the continuous spikes to the packet sequence in neuro-spike communication [5]. Therefore, ACh molecules are propagated by the presynaptic neuron in the synaptic cleft.…”
Section: Synaptic Communicationmentioning
confidence: 99%
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“…An arrival AP at the presynaptic cell leads to ACh release based on 'a priori' probability. We modelled vesicle release as packet generation in the channel, which refers to converting the continuous spikes to the packet sequence in neuro-spike communication [5]. Therefore, ACh molecules are propagated by the presynaptic neuron in the synaptic cleft.…”
Section: Synaptic Communicationmentioning
confidence: 99%
“…For information transmission, the emission of ACh molecules takes place instantaneously via firing an AP spike, and thus, the TNs generate a number of ACh molecules with a release rate of R in (molecules/s). Consequently, the molecular signal is encoded in different patterns of bursts of ACh molecules using simple ON/OFF keying (OOK) signalling or a binary symmetric Z channel [5]. Apart from the simplicity of the OOK scheme, it is appropriate for nanoreceiver design wherein ACh reception is similar to the closing or opening of the ion channel gate.…”
Section: Mc-based Diffusionmentioning
confidence: 99%
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