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    Design and analysis of 50 channel by 40 Gbps DWDM RoF system for 5G communication based on Fronthaul scenario
    (American Institute of Physics Inc., 2023) Almetwali, Abdullah S.; Bayat, Oguz; Abdulwahid, Maan M.; Mohamadwasel, Noorulden Basil
    The establishment of 5G networks launched before few years and is projected to bring about significant changes in people's daily lives, which connect nodes using optical transceiver modules and optical fibers. The connection between the Central and Base Stations is the most intriguing part of the 5G network, and many academics have examined it extensively in order to improve and maximize network efficiency and achieving the highest data rate with less complexity, and cost-effectiveness. As a result, this paper has been used the Optisystem program and a Dense Wavelength Division Multiplexing (DWDM) Radio over Fiber (RoF) approach to demonstrate, plan, and execute in this article. For higher-speed transmission systems targeted toward Tbps connectivity, a 50 by 40 Gbps data transmission system is proposed. Channels 1, 4, 8, ., 48, and 50 were chosen as samples for the investigation. The output analysis was based on the eye-opening parameters, Quality Factor (QF), and Min Bit Error Rate (MBER) for the distances ranging between (60-180) Km. The results showed a higher data rate performance for the proposed system to reach 2 Tbps for future applications. Furthermore, QF parameters showed encourage results as the averaged obtained values were above the threshold by ranging between (0.22-13) dBm. © 2023 Author(s).
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    Öğe
    Design and analysis of 50 channel by 40 Gbps DWDM-RoF system for 5G communication based on fronthaul scenario
    (Springer Science and Business Media, 2023) Almetwali, Abdullah S.; Bayat, Oğuz; Abdulwahid, Maan M.; Mohamadwasel, Noorulden Basil
    The establishment of 5G networks is launched before few years and is projected to bring about significant changes in people's daily lives, which connect nodes using optical transceiver modules and optical fibers. The connection between the central and base stations is the most intriguing part of the 5G network, and many academics have examined it extensively in order to improve and maximize network efficiency and achieving the highest data rate with less complexity and cost-effectiveness. As a result, this paper has used the OptiSystem program and a dense wavelength division multiplexing (DWDM)-radio over fiber (RoF) approach to demonstrate, plan, and execute in this article. For higher-speed transmission systems targeted toward Tbps connectivity, a 50 by 40 Gbps data transmission system is proposed. Channels 1, 4, 8, …, 48, and 50 were chosen as samples for the investigation. The output analysis was based on the eye-opening parameters, quality factor (QF), and min bit error rate (MBER) for the distances ranging between 60 and 180 km. The results showed a higher data rate performance for the proposed system to reach 2 Tbps for future applications. Furthermore, QF parameters showed encourage results as the averaged obtained values were above the threshold by ranging between 0.22 and 13 dBm.