Paper Info
Title
Leader-Follower-Amplifier Based Mobile Molecular Communication Systems for Cooperative Drug Delivery.
Abstract
This paper proposes the leader-follower-amplifier-based model of mobile molecular communication systems for cooperative drug delivery. In the proposed model, system functionalities are divided and implemented onto three types of bio-nanomachine: leader, follower and amplifier bio-nanomachines. Leader bio-nanomachines are responsible for detecting targets, releasing attractant molecules and creating attractant gradients around the targets. Follower bio-nanomachines are responsible for carrying drug molecules and transporting through directed motion to the target locations. Amplifier bio-nanomachines are responsible for amplifying attractant molecules and enhancing attractant gradients created by leader bio-nanomachines. This paper first describes a design of the leader-follower-amplifier-based model. It then describes computer simulation models and numerical results to examine the performance of the proposed model.
Year
DOI
Venue
2018
10.1109/GLOCOM.2018.8647185
IEEE Global Communications Conference
Keywords
Field
DocType
Mobile molecular communication,bio-nanomachine,signal amplification,drug delivery
Molecular communication,Leader follower,Computer science,Computer network,Drug delivery,Amplifier,Distributed computing
Conference
ISSN
Citations 
PageRank 
2334-0983
0
0.34
References 
Authors
0
3
Name
Order
Citations
PageRank
Yutaka Okaie17612.37
Shinya Ishiyama211.05
Takahiro Hara31819193.85