Doğan, Deren

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https://hdl.handle.net/20.500.14411/6969
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Doğan, Deren
Dogan, Deren
D.,Doğan
D., Dogan
D.,Deren
D.,Dogan
Doğan,D.
D., Deren
Deren, Dogan
Deren, Doğan
Doğan D.
D., Doğan
Dogan,D.
Job Title
Araştırma Görevlisi
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deren.dogan@atilim.edu.tr
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Mechatronics Engineering
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5

Articles

2

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14th International Conference on Communications, COMM 2022 - Proceedings -- 14th International Conference on Communications, COMM 2022 -- 16 June 2022 through 18 June 2022 -- Bucharest -- 1808961
32nd IEEE Signal Processing and Communications Applications Conference (SIU) -- MAY 15-18, 2024 -- Tarsus Univ Campus, Mersin, TURKEY1
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Author: Derawi, MohammadSubject: Diffraction

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Now showing 1 - 1 of 1
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    Article
    Citation - Scopus: 1
    From Street Canyons To Corridors: Adapting Urban Propagation Models for an Indoor IQRF Network
    (MDPI, 2025) Doyan, Talip Eren; Yalcinkaya, Bengisu; Dogan, Deren; Dalveren, Yaser; Derawi, Mohammad
    Among wireless communication technologies underlying Internet of Things (IoT)-based smart buildings, IQRF (Intelligent Connectivity Using Radio Frequency) technology is a promising candidate due to its low power consumption, cost-effectiveness, and wide coverage. However, effectively modeling the propagation characteristics of IQRF in complex indoor environments for simple and accurate network deployment remains challenging, as architectural elements like walls and corners cause substantial signal attenuation and unpredictable propagation behavior. This study investigates the applicability of a site-specific modeling approach, originally developed for urban street canyons, to characterize peer-to-peer (P2P) IQRF links operating at 868 MHz in typical indoor scenarios, including line-of-sight (LoS), one-turn, and two-turn non-line-of-sight (NLoS) configurations. The received signal powers are compared with well-known empirical models, including international telecommunication union radio communication sector (ITU-R) P.1238-9 and WINNER II, and ray-tracing simulations. The results show that while ITU-R P.1238-9 achieves lower prediction error under LoS conditions with a root mean square error (RMSE) of 5.694 dB, the site-specific approach achieves substantially higher accuracy in NLoS scenarios, maintaining RMSE values below 3.9 dB for one- and two-turn links. Furthermore, ray-tracing simulations exhibited notably larger deviations, with RMSE values ranging from 7.522 dB to 16.267 dB and lower correlation with measurements. These results demonstrate the potential of site-specific modeling to provide practical, computationally efficient, and accurate insights for IQRF network deployment planning in smart building environments.