Page 84 - ITU Journal Future and evolving technologies Volume 2 (2021), Issue 3 – Internet of Bio-Nano Things for health applications
P. 84
ITU Journal on Future and Evolving Technologies, Volume 2 (2021), Issue 3
[80] Bon Hong Koo, H Birkan Yilmaz, Chan‑Byoung [89] Sinem Solak and Mengü ç O ner. “Sequential De‑
Chae, and Andrew Eckford. “Detection algorithms cision Fusion for Abnormality Detection via Dif‑
for molecular MIMO”. In: 2015 IEEE International fusive Molecular Communications”. In: IEEE Com‑
Conference on Communications (ICC). IEEE. 2015, munications Letters (2020).
pp. 1122–1127.
[90] Yuting Fang, Adam Noel, Yiran Wang, and Nan
[81] Yu Huang, Xuan Chen, Miaowen Wen, Lie‑Liang Yang. “Simpli ied cooperative detection for multi‑
Yang, Chan‑Byoung Chae, and Fei Ji. “A Ris‑ receiver molecular communication”. In: 2017
ing Edge‑Based Detection Algorithm for MIMO IEEE Information Theory Workshop (ITW). IEEE.
Molecular Communication”. In: IEEE Wireless 2017, pp. 329–333.
Communications Letters 9.4 (2019), pp. 523–527.
[91] Reza Mosayebi, Wayan Wicke, Vahid Jamali, Ar‑
[82] C. Wu, L. Lin, W. Guo, and H. Yan. “Signal Detec‑ man Ahmadzadeh, Robert Schober, and Ma‑
tion for Molecular MIMO Communications With soumeh Nasiri‑Kenari. “Advanced target detec‑
Asymmetrical Topology”. In: IEEE Transactions on tion via molecular communication”. In: 2018 IEEE
Molecular, Biological and Multi‑Scale Communica‑ Global Communications Conference (GLOBECOM).
tions 6.1 (2020), pp. 60–70. DOI: 10.1109/TMBMC. IEEE. 2018, pp. 1–7.
2020.3004030.
[92] Pengfeng Hou, Liqiang Zhao, and Andrew W
[83] Hamid Khoshfekr Rudsari, Mohammad Reza Ja‑ Eckford. “Improving receiver performance of
van, Mahdi Orooji, Nader Mokari, and Eduard A diffusion‑based molecular MIMO communica‑
Jorswieck. “Multiple‑type transmission multiple‑ tion”. In: 2018 IEEE 18th International Conference
type reception framework on molecular commu‑ on Nanotechnology (IEEE‑NANO). IEEE. 2018,
nication”. In: IEEE Wireless Communications Let‑ pp. 1–4.
ters (2020).
[93] Yuting Fang, Adam Noel, Nan Yang, Andrew W
[84] N. V . Sabu, N. Varshney, and A. K. Gupta. “3‑D Dif‑ Eckford, and Rodney A Kennedy. “Maximum like‑
fusive Molecular Communication With Two Fully‑ lihood detection for cooperative molecular com‑
Absorbing Receivers: Hitting Probability and Per‑ munication”. In: 2018 IEEE International Confer‑
formance Analysis”. In: IEEE Transactions on ence on Communications (ICC). IEEE. 2018,
Molecular, Biological and Multi‑Scale Communica‑ pp. 1–7.
tions 6.3 (2020), pp. 244–249. DOI: 10 . 1109 / [94] Na iseh Ghoroghchian, Mahtab Mirmohseni, and
TMBMC.2020.3031414.
Masoumeh Nasiri‑Kenari. “Abnormality Detec‑
[85] Yuting Fang, Adam Noel, Nan Yang, Andrew W tion and Monitoring in Multi‑Sensor Molecular
Eckford, and Rodney A Kennedy. “Distributed co‑ Communication”. In: IEEE Transactions on Molec‑
operative detection for multi‑receiver molecular ular, Biological and Multi‑Scale Communications
communication”. In: 2016 IEEE Global Commu‑ 5.2 (2019), pp. 68–83.
nications Conference (GLOBECOM). IEEE. 2016,
[95] Yuting Fang, Adam Noel, Nan Yang, Andrew W
pp. 1–7.
Eckford, and Rodney A Kennedy. “Symbol‑by‑
[86] Siavash Ghavami and Farshad Lahouti. “Abnor‑ symbol maximum likelihood detection for co‑
mality detection in correlated Gaussian molec‑ operative molecular communication”. In: IEEE
ular nano‑networks: Design and analysis”. In: Transactions on Communications 67.7 (2019),
IEEE transactions on nanobioscience 16.3 (2017), pp. 4885–4899.
pp. 189–202.
[96] Ghalib H Alshammri, Walid KM Ahmed, and Victor
[87] Yuting Fang, Adam Noel, Nan Yang, Andrew W B Lawrence. “Receiver Techniques for Diffusion‑
Eckford, and Rodney A Kennedy. “Convex op‑ Based Molecular Nano Communications Using an
timization of distributed cooperative detection Adaptive Neuro‑Fuzzy‑Based Multivariate Poly‑
in multi‑receiver molecular communication”. In: nomial Approximation”. In: IEEE Transactions on
IEEE Transactions on Molecular, Biological and Molecular, Biological and Multi‑Scale Communica‑
Multi‑Scale Communications 3.3 (2017), tions 4.3 (2018), pp. 140–159.
pp. 166–182.
[97] S. N. Solak and M. Oner. “Neural Network Based
[88] Reza Mosayebi, Vahid Jamali, Na iseh Decision Fusion for Abnormality Detection via
Ghoroghchian, Robert Schober, Masoumeh Molecular Communications”. In: 2020 IEEE Work‑
Nasiri‑Kenari, and Mahdieh Mehrabi. “Coop‑ shop on Signal Processing Systems (SiPS). 2020,
erative abnormality detection via diffusive pp. 1–5. DOI: 10 . 1109 / SiPS50750 . 2020 .
molecular communications”. In: IEEE Transac‑ 9195212.
tions on NanoBioscience 16.8 (2017),
pp. 828–842.
72 © International Telecommunication Union, 2021
