On Boosting the Throughput with Minimal Emitted No. of Molecules for the Diffusion-Based Molecular Communication networks: Prospective and Challenges

TL;DR

This paper explores methods to enhance the data transmission rate in diffusion-based molecular communication networks by reducing the number of molecules emitted per message, aiming for more efficient nano-robot communication.

Contribution

It proposes strategies to increase throughput in DMC systems by minimizing emitted molecules, addressing a key limitation in current nano-robot communication methods.

Findings

Proposed techniques to reduce emitted molecules per message.

Discussion of challenges and prospects in boosting DMC throughput.

Potential impact on biomedical nano-robot applications.

Abstract

It is assumed that each nano-robot has a 0.1 micrometers cubed of tankage which is far smaller than the volume of a human red blood cell[6]. Thus, the nano-machines are non-invasive for biomedical applications, such as drug delivery and disease diagnosis. Since the nano-machine has an initial source of 108 molecules in its own tankage and since the throughput of the DMC systems is significantly low; we propose and discuss some ideas to boost the throughput with emphasize of reducing the emitted no. of molecules per message.