Page 80 - ITU Journal Future and evolving technologies Volume 2 (2021), Issue 3 – Internet of Bio-Nano Things for health applications
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ITU Journal on Future and Evolving Technologies, Volume 2 (2021), Issue 3
REFERENCES [11] Federico Tavella, Alberto Giaretta, Triona‑Marie
Dooley‑Cullinane, Mauro Conti, Lee Coffey, and
[1] Tadashi Nakano, Andrew W Eckford, and Tokuko Sasitharan Balasubramaniam. “DNA molecular
Haraguchi. Molecular communication. Cambridge
University Press, 2013. storage system: Transferring digitally encoded in‑
formation through bacterial nanonetworks”. In:
[2] Ian F Akyildiz, Max Pierobon, Sasi Balasubrama‑ IEEE Transactions on Emerging Topics in Comput‑
niam, and Y Koucheryavy. “The internet of bio‑ ing (2019).
nano things”. In: IEEE Communications Magazine [12] Tania Islam, Ethungshan Shitiri, and Ho‑Shin Cho.
53.3 (2015), pp. 32–40.
“A Simultaneous Drug Release Scheme for Tar‑
[3] Young Il Kim, Yoonkwon Park, and Hongkoo Baik. geted Drug Delivery Using Molecular Communica‑
“A novel detection for biomolecule using RF LC tions”. In: IEEE Access 8 (2020), pp. 91770–91778.
resonator”. In: SENSORS, 2007 IEEE. IEEE. 2007,
[13] Michael Taynnan Barros, Walisson Silva, and Car‑
pp. 728–731.
los Danilo Miranda Regis. “The multi‑scale im‑
[4] Puneet Manocha, Gitanjali Chandwani, and pact of the Alzheimer’s disease on the topol‑
Soumen Das. “Characterization of Dielec‑ ogy diversity of astrocytes molecular communi‑
trophoresis Based Relay‑Assisted Molecular cations nanonetworks”. In: IEEE Access 6 (2018),
Communication Using Analogue Transmission pp. 78904–78917.
Line”. In: IEEE Access 8 (2020), pp. 33352–33359.
[14] Ian F Akyildiz, Jiande Chen, Maysam Ghovanloo,
[5] Wei‑Kang Hsu, Xiaojun Lin, and Mark R Bell. Ulkuhan Guler, Tevhide Ozkaya‑Ahmadov, Massi‑
“Deep‑target delivery of nanosensors with miliano Pierobon, A Fatih Sarioglu, and Bige D Un‑
bacteria‑inspired coordination”. In: GLOBE‑ luturk. “Microbiome‑gut‑brain axis as a biomolec‑
COM 2017‑2017 IEEE Global Communications ular communication network for the Internet
Conference. IEEE. 2017, pp. 1–6. of Bio‑NanoThings”. In: IEEE access 7 (2019),
[6] Muneer M Al‑Zu’bi and Ananda Sanagavarapu Mo‑ pp. 136161–136175.
han. “Modelling of implantable drug delivery sys‑ [15] Reza Mosayebi, Arman Ahmadzadeh, Wayan
tem in tumor microenvironment using molecu‑ Wicke, Vahid Jamali, Robert Schober, and Ma‑
lar communication paradigm”. In: IEEE Access 7 soumeh Nasiri‑Kenari. “Early cancer detection
(2019), pp. 141929–141940. in blood vessels using mobile nanosensors”. In:
[7] Ian F Akyildiz, Maysam Ghovanloo, Ulkuhan Guler, IEEE transactions on nanobioscience 18.2 (2018),
Tevhide Ozkaya‑Ahmadov, A Fatih Sarioglu, and pp. 103–116.
Bige D Unluturk. “PANACEA: An internet of bio‑ [16] Nariman Farsad, H Birkan Yilmaz, Andrew Eck‑
nanothings application for early detection and ford, Chan‑Byoung Chae, and Weisi Guo. “A com‑
mitigation of infectious diseases”. In: IEEE Access prehensive survey of recent advancements in
8 (2020), pp. 140512–140523. molecular communication”. In: IEEE Communica‑
[8] Youssef Chahibi and Ilangko Balasingham. “An tions Surveys & Tutorials 18.3 (2016),
intra‑body molecular communication networks pp. 1887–1919.
framework for continuous health monitoring and [17] Uche AK Chude‑Okonkwo, Reza Malekian, Bod‑
diagnosis”. In: 2015 37th Annual International haswar T Maharaj, and Athanasios V Vasilakos.
Conference of the IEEE Engineering in Medicine “Molecular communication and nanonetwork for
and Biology Society (EMBC). IEEE. 2015, targeted drug delivery: A survey”. In: IEEE Com‑
pp. 4077–4080. munications Surveys & Tutorials 19.4 (2017),
[9] Luca Felicetti, Mauro Femminella, and Gianluca pp. 3046–3096.
Reali. “A molecular communications system for [18] Murat Kuscu, Ergin Dinc, Bilgesu A Bilgin,
live detection of hyperviscosity syndrome”. In: Hamideh Ramezani, and Ozgur B Akan. “Trans‑
IEEE Transactions on NanoBioscience (2020). mitter and receiver architectures for molecular
[10] Steven Kisseleff, Robert Schober, and Wolfgang communications: A survey on physical design
H Gerstacker. “Magnetic nanoparticle based in‑ with modulation, coding, and detection tech‑
terface for molecular communication systems”. niques”. In: Proceedings of the IEEE 107.7 (2019),
In: IEEE Communications Letters 21.2 (2016), pp. 1302–1341.
pp. 258–261. [19] Tadashi Nakano, Yutaka Okaie, Shouhei
Kobayashi, Takahiro Hara, Yasushi Hiraoka,
and Tokuko Haraguchi. “Methods and applica‑
tions of mobile molecular communication”. In:
Proceedings of the IEEE 107.7 (2019),
pp. 1442–1456.
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