Investigation and performance analysis of Nanoscale communication network for biomedical application

Investigation and performance analysis of Nanoscale communication network for biomedical application

This thesis is submitted in partial fulfillment of the requirements for the degree of Bachelor of Science in Computer Science, 2019.

ग्रंथसूची विवरण
मुख्य लेखकों: Liza, Farhana Ahmed, Hasan, Mahmudul, Islam, Nusrat, Paul, Tanmoy
अन्य लेखक: Sabuj, Saifur Rahman
स्वरूप: थीसिस
भाषा:English
प्रकाशित: Brac University 2019
विषय:
Nanoscale communication
Biomedical
Pathloss
Terahertz band
Outage probability
Nanotechnology
Wireless communication systems
Computer networks
Biomedical materials
ऑनलाइन पहुंच:http://hdl.handle.net/10361/12777
id 10361-12777
record_format dspace
spelling 10361-127772020-02-11T03:23:43Z Investigation and performance analysis of Nanoscale communication network for biomedical application Liza, Farhana Ahmed Hasan, Mahmudul Islam, Nusrat Paul, Tanmoy Sabuj, Saifur Rahman Department of Computer Science and Engineering, Brac University Nanoscale communication Biomedical Pathloss Terahertz band Outage probability Nanotechnology Wireless communication systems Computer networks Biomedical materials This thesis is submitted in partial fulfillment of the requirements for the degree of Bachelor of Science in Computer Science, 2019. Cataloged from PDF version of thesis. Includes bibliographical references (pages 48-52). Biomedical application consists of the transmission of information inside the human body using nanoscale communication network. This transmission is affected by a number of factors. In this thesis, our goal was to investigate the behavior of different factors inside the human body. We have used the Debye Relaxation model to investigate the effect of polarization inside the human body, the effect of relative permittivity with respect to terahertz band in different tissues. After that, we have investigated the parameters of path loss, namely spreading loss, absorption loss and scattering loss. Finally, we have observed the behavior of conductivity inside the human about how fast it can receive a signal without being attenuated from different skin perspectives. With the advancement of small-sized-plasmonic signal sources, antennas, and detectors, wireless communications among intrabody nanodevices will be empowered at terahertz band (0.1–10 THz). This outcome motivates real-time monitoring of both medical test parameters, biological and chemical substances inside the human body are yearning that could facilitate pathology control and ensure better diagnostic and treatment effectiveness. Variegated characteristics like polarization, relative permittivity, path loss, conductivity, molecular absorption and outage probability of Terahertz (THz) band impact every fundamental communication system for the exchange of data between nanodevices. The complete pathloss is calculated by the combined impact of propagating wave spread, molecular absorption from human tissues, as well as scattering from both tiny and large body particles. Numerical results show that, skin (dermis and epidermis) has the minimum pathloss and that makes it better choice for nanodevice implantation. The outage probability also shows that it is possible to establish an intrabody communication network in human body. Farhana Ahmed Liza Mahmudul Hasan Nusrat Islam Tanmoy Paul B. Computer Science 2019-10-02T09:01:22Z 2019-10-02T09:01:22Z 2019 2019-08 Thesis ID 16121018 ID 16121058 ID 16121089 ID 16121151 http://hdl.handle.net/10361/12777 en Brac University theses are protected by copyright. They may be viewed from this source for any purpose, but reproduction or distribution in any format is prohibited without written permission. 55 pages application/pdf Brac University
institution Brac University
collection Institutional Repository
language English
topic Nanoscale communication
Biomedical
Pathloss
Terahertz band
Outage probability
Nanotechnology
Wireless communication systems
Computer networks
Biomedical materials
spellingShingle Nanoscale communication
Biomedical
Pathloss
Terahertz band
Outage probability
Nanotechnology
Wireless communication systems
Computer networks
Biomedical materials
Liza, Farhana Ahmed
Hasan, Mahmudul
Islam, Nusrat
Paul, Tanmoy
Investigation and performance analysis of Nanoscale communication network for biomedical application
description This thesis is submitted in partial fulfillment of the requirements for the degree of Bachelor of Science in Computer Science, 2019.
author2 Sabuj, Saifur Rahman
author_facet Sabuj, Saifur Rahman
Liza, Farhana Ahmed
Hasan, Mahmudul
Islam, Nusrat
Paul, Tanmoy
format Thesis
author Liza, Farhana Ahmed
Hasan, Mahmudul
Islam, Nusrat
Paul, Tanmoy
author_sort Liza, Farhana Ahmed
title Investigation and performance analysis of Nanoscale communication network for biomedical application
title_short Investigation and performance analysis of Nanoscale communication network for biomedical application
title_full Investigation and performance analysis of Nanoscale communication network for biomedical application
title_fullStr Investigation and performance analysis of Nanoscale communication network for biomedical application
title_full_unstemmed Investigation and performance analysis of Nanoscale communication network for biomedical application
title_sort investigation and performance analysis of nanoscale communication network for biomedical application
publisher Brac University
publishDate 2019
url http://hdl.handle.net/10361/12777
work_keys_str_mv AT lizafarhanaahmed investigationandperformanceanalysisofnanoscalecommunicationnetworkforbiomedicalapplication
AT hasanmahmudul investigationandperformanceanalysisofnanoscalecommunicationnetworkforbiomedicalapplication
AT islamnusrat investigationandperformanceanalysisofnanoscalecommunicationnetworkforbiomedicalapplication
AT paultanmoy investigationandperformanceanalysisofnanoscalecommunicationnetworkforbiomedicalapplication
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