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ITU Journal on Future and Evolving Technologies, Volume 2 (2021), Issue 3
better transmission count and the creation of their off‑ [7] Murat Kuscu, Ergin Dinc, Bilgesu A Bilgin, Hamideh
spring. Furthermore, we apply this approach to a simplis‑ Ramezani, and Ozgur B Akan. “Transmitter and
tic MCN scenario, for which we also obtain an analytical receiver architectures for molecular communica‑
solution. We simulate the performance of evolution con‑ tions:Asurveyonphysicaldesignwithmodulation,
cerning different parameters. Our work offers a simple coding, and detection techniques”. In: Proceedings
demonstration of nature’s solution to the resource man‑ of the IEEE 107.7 (2019), pp. 1302–1341.
agement problem. [8] Murat Kuscu and Ozgur B Akan. “Detection in
Molecular Communications with Ligand Receptors
We believe our approach applies to many problems other
under Molecular Interference”. In: arXiv preprint
than resource allocation. It also holds the potential of
arXiv:2101.00081 (2020).
optimizing several different parameters to a reasonable
degree. As future work, we will employ our method for [9] Murat Kuscu and Ozgur B Akan. “Channel sensing
node orientation, vesicle size, and receptor locations on in molecular communications with single type of
the node surfaces. ligand receptors”. In: IEEE Transactions on Commu‑
nications 67.10 (2019), pp. 6868–6884.
ACKNOWLEDGEMENT [10] Vahid Jamali, Arman Ahmadzadeh, Wayan Wicke,
Adam Noel, and Robert Schober. “Channel model‑
This work was supported in part by the AXA Research ing for diffusive molecular communication A tu‑
Fund (AXA Chair for Internet of Everything at Koç Univer‑ torial review”. In: Proceedings of the IEEE 107.7
sity) and Huawei Graduate Research Scholarship. (2019), pp. 1256–1301.
[11] Weisi Guo, Tau iq Asyhari, Nariman Farsad, H
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