Detail publikace

On Simulation Techniques for Modeling of Molecular-based Nanodevices Movement in Human Body Environment

Originální název

On Simulation Techniques for Modeling of Molecular-based Nanodevices Movement in Human Body Environment

Anglický název

On Simulation Techniques for Modeling of Molecular-based Nanodevices Movement in Human Body Environment

Jazyk

en

Originální abstrakt

Nanotechnology represents new solutions for applications in the biomedical, industrial and military fields. The interconection of nanodevices (nano world) and Internet (micro world) defines the new networking that is further referred as Internet of Nano-Things. Nanodevices can be considered as the basic functional units consisting of an arranged set of molecules performing (at this moment) very simple tasks. The traditional communication technologies are not suitable for application in nanonetworks due to size and power consumption. Using molecules instead of electromagnetic waves to encode and transmit the information represents the new assumption that demands a novel solution such as molecular transceivers or routing protocols for nanonetworks. The research of nanonetworks is in an embryonal stage. In this paper we present the initial simulation-based study of movement nanodevices in human body. We created the model of nanonetworks environment in NS- 3 (Network Simulator 3). For the communication between the nanodevices calcium signaling is used.

Anglický abstrakt

Nanotechnology represents new solutions for applications in the biomedical, industrial and military fields. The interconection of nanodevices (nano world) and Internet (micro world) defines the new networking that is further referred as Internet of Nano-Things. Nanodevices can be considered as the basic functional units consisting of an arranged set of molecules performing (at this moment) very simple tasks. The traditional communication technologies are not suitable for application in nanonetworks due to size and power consumption. Using molecules instead of electromagnetic waves to encode and transmit the information represents the new assumption that demands a novel solution such as molecular transceivers or routing protocols for nanonetworks. The research of nanonetworks is in an embryonal stage. In this paper we present the initial simulation-based study of movement nanodevices in human body. We created the model of nanonetworks environment in NS- 3 (Network Simulator 3). For the communication between the nanodevices calcium signaling is used.

BibTex


@inproceedings{BUT108324,
  author="Pavel {Mašek} and Jiří {Hošek} and Dominik {Kováč} and Jan {Miklica}",
  title="On Simulation Techniques for Modeling of Molecular-based Nanodevices Movement in Human Body Environment",
  annote="Nanotechnology represents new solutions for applications in the biomedical, industrial and military fields. The interconection of nanodevices (nano world) and Internet (micro world) defines the new networking that is further referred as Internet of Nano-Things. Nanodevices can be considered as the basic functional units consisting of an arranged set of molecules performing (at this moment) very simple tasks. The traditional communication technologies are not suitable for application in nanonetworks due to size and power consumption. Using molecules instead of electromagnetic waves to encode and transmit the information represents the new assumption that demands a novel solution such as molecular transceivers or routing protocols for nanonetworks. The research of nanonetworks is in an embryonal stage. In this paper we present the initial simulation-based study of movement nanodevices in human body. We created the model of nanonetworks environment in NS-
3 (Network Simulator 3). For the communication between the nanodevices calcium signaling is used.",
  booktitle="Proceedings of the 37th International Conference on Telecommunication and Signal Processing, TSP 2014",
  chapter="108324",
  howpublished="print",
  year="2014",
  month="july",
  pages="90--94",
  type="conference paper"
}