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ITU Journal on Future and Evolving Technologies, Volume 2 (2021), Issue 3
[60] Mohammed S Alzaidi, Walid KM Ahmed, and Vic‑ [70] Nithin V Sabu and Abhishek K Gupta. “Detection
tor B Lawrence. “A Novel Reduced Complexity Probability in a Molecular Communication via Dif‑
Detection Scheme for ON‑OFF‑Keying Diffusion‑ fusion System with Multiple Fully‑absorbing Re‑
Based Molecular Communications”. In: 2018 In‑ ceivers”. In: IEEE Communications Letters (2020).
ternational Conference on Computing, Electron‑ [71] Mahendra S Thakur, Sanjeev Sharma, and
ics & Communications Engineering (iCCECE). IEEE. Vimal Bhatia. “Iterative Signal Detection for
2018, pp. 195–200. Diffusion‑Based Molecular Communications”.
[61] Hao Yan, Ge Chang, Zhongke Ma, and Lin Lin. In: IEEE Transactions on Molecular, Biological
“Derivative‑based signal detection for high data and Multi‑Scale Communications 6.1 (2020),
rate molecular communication system”. In: pp. 36–49.
IEEE Communications Letters 22.9 (2018), [72] M. S. Thakur, S. Sharma, and V. Bhatia. “Molec‑
pp. 1782–1785. ular Signal Detection Using Nonlinear Mapping”.
[62] M. C. Gursoy and U. Mitra. “Higher Order Deriva‑ In: IEEE Wireless Communications Letters (2020),
tives: Improved Pre‑Processing and Receivers for pp. 1–1. DOI: 10.1109/LWC.2020.3037184.
Molecular Communications”. In: GLOBECOM 2020 [73] Trang Ngoc Cao, Nikola Zlatanov, Phee Lep Yeoh,
‑ 2020 IEEE Global Communications Conference. and Jamie S Evans. “Optimal detection interval for
2020, pp. 1–6. DOI: 10 . 1109 / GLOBECOM42002 . absorbing receivers in molecular communication
2020.9322240. systems with interference”. In: IEEE Transactions
[63] Vahid Jamali, Nariman Farsad, Robert Schober, on Molecular, Biological and Multi‑Scale Commu‑
nications (2020).
and Andrea Goldsmith. “Diffusive molecular com‑
munications with reactive molecules: Channel [74] Satish K Tiwari and Prabhat K Upadhyay.
modeling and signal design”. In: IEEE Transactions “Estimate‑and‑forward relaying in diffusion‑
on Molecular, Biological and Multi‑Scale Communi‑ based molecular communication networks:
cations 4.3 (2018), pp. 171–188. Performance evaluation and threshold opti‑
[64] Georgia D Ntouni, Alexandros E Paschos, Vasileios mization”. In: IEEE Transactions on Molecular,
M Kapinas, George K Karagiannidis, and Leon‑ Biological and Multi‑Scale Communications 3.3
tios J Hadjileontiadis. “Optimal detector design for (2017), pp. 183–193.
molecular communication systems using an im‑ [75] Sanjeev Sharma, Kuntal Deka, and Vimal Bha‑
proved swarm intelligence algorithm”. In: Micro & tia. “Thresholdless detection of symbols in nano‑
Nano Letters 13.3 (2018), pp. 383–388. communication systems”. In: IEEE Transactions
[65] Vahid Jamali, Nariman Farsad, Robert Schober, on NanoBioscience 19.2 (2019), pp. 259–266.
and Andrea Goldsmith. “Non‑coherent detection [76] X. Chen, Y. Huang, L. ‑L. Yang, and M. Wen. “Gen‑
for diffusive molecular communication systems”. eralized Molecular‑Shift Keying (GMoSK): Princi‑
In: IEEE Transactions on Communications 66.6 ples and Performance Analysis”. In: IEEE Trans‑
(2018), pp. 2515–2531. actions on Molecular, Biological and Multi‑Scale
[66] Murat Kuscu and Ozgur B Akan. “Maximum Communications 6.3 (2020), pp. 168–183. DOI:
likelihood detection with ligand receptors for 10.1109/TMBMC.2020.3021281.
diffusion‑based molecular communications in In‑ [77] Jiaxing Wang, Shuo Yuan, and Mugen Peng. “Per‑
ternet of bio‑nano things”. In: IEEE Transactions formance analysis and optimal signal detec‑
on NanoBioscience 17.1 (2018), pp. 44–54. tion for amplify‑and‑forward relay in diffusion‑
based molecular communication systems”. In:
[67] Giulia Muzio, Murat Kuscu, and Ozgur B Akan. “Se‑
2017 IEEE/CIC International Conference on Com‑
lective signal detection with ligand receptors un‑
der interference in molecular communications”. munications in China (ICCC). IEEE. 2017, pp. 1–6.
In: 2018 IEEE 19th International Workshop on Sig‑ [78] Nooshin Tavakkoli, Paeiz Azmi, and Nader Mokari.
nal Processing Advances in Wireless Communica‑ “Optimal positioning of relay node in cooperative
tions (SPAWC). IEEE. 2018, pp. 1–5. molecular communication networks”. In: IEEE
[68] Malcolm Egan, Trung Q Duong, and Marco Di Transactions on Communications 65.12 (2017),
pp. 5293–5304.
Renzo. “Biological circuits for detection in MoSK‑
based molecular communication”. In: IEEE Access [79] P. Hou, A. W. Eckford, and L. Zhao. “Analysis
7 (2019), pp. 21094–21102. and Design of Two‑Hop Diffusion‑Based Molec‑
[69] Bin Li, Weisi Guo, Xiang Wang, Yansha Deng, ular Communication With Ligand Receptors”. In:
Yueheng Lan, Chenglin Zhao, and Arumugam IEEE Access 8 (2020), pp. 189458–189470. DOI:
10.1109/ACCESS.2020.3032009.
Nallanathan. “CSI‑Independent Non‑Linear Sig‑
nal Detection in Molecular Communications”.
In: IEEE Transactions on Signal Processing
68 (2019), pp. 97–112.
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