利用噪声消除和预编码技术提高基于 ACO-OFDM 的 VLC 系统的吞吐量

IF 3.3 3区 工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC Optical and Quantum Electronics Pub Date : 2024-10-24 DOI:10.1007/s11082-024-07592-0
Yasser A. Zenhom, Ehab K. I. Hamad, Mohamed M. Elnabawy
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引用次数: 0

摘要

采用光正交频分复用技术的可见光通信(VLC)系统面临的主要挑战之一是峰均功率比(PAPR)。本研究致力于设计、模拟和评估针对 VLC 广播系统的误码率(BER)和峰均功率比(PAPR)降低方法。非对称削波光正交频分复用(ACO-OFDM)方案因其令人印象深刻的性能而成为本研究的重点。因此,所提出的 PAPR 降低方法适用于 ACO-OFDM。拟议的 PAPR 降低策略涉及 5 种不同的预编码方法。采用 DST 预编码方法后,PAPR 降低了 3.485 dB。与传统的 ACO-OFDM 系统相比,WHT 预编码方法仍可将 PAPR 降低 1.131 dB,且不会降低误码率性能。此外,这项研究还解决了 VLC 系统中的另一个难题:误码率 (BER)。这是通过引入时域噪声消除和频域噪声消除(FDNC)方法来实现的。这两种接收器模型的误码率性能几乎相同。仿真结果表明,在 4-QAM 调制方案中,采用噪声消除方法后系统性能提高了 1.65 dB,在 1024-QAM 调制方案中提高了 2.97 dB。16-QAM 调制方案在应用 DST 和 WHT 方法以及噪声消除方法后,PAPR 和 Eb/N0 性能分别提高了 20.83% 和 6.76%,但 Eb/N0 性能分别提高了 10.10% 和 14.64%。此外,通过与降低 PAPR 技术的相关文献综述进行比较,并从中选择最优方案,验证了所提方案的有效性和正确性。
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Throughput improvement in ACO-OFDM-based VLC systems using noise cancellation and precoding techniques

One of the primary challenges faced by visible light communication (VLC) systems employing optical orthogonal frequency division multiplexing is the peak-to-average power ratio (PAPR). This study is dedicated to designing, simulating, and evaluating bit error rate (BER) and PAPR reduction methods tailored for the VLC broadcasting system. The asymmetric clipped optical orthogonal frequency division multiplexing (ACO-OFDM) scheme is highlighted in this work for its impressive performance. Therefore, the proposed PAPR mitigation methodologies applied to ACO-OFDM. The proposed PAPR reduction strategy involves 5 distinct precoding methodologies. The PAPR was mitigated by 3.485 dB after applying the DST precoding methodology. Still, the WHT precoding methodology can achieve PAPR reduction by 1.131 dB, without BER performance degradation, with respect to the conventional ACO-OFDM system. Furthermore, the work addresses another challenge in VLC systems: the bit error rate (BER). This is accomplished by introducing approaches to Time Domain Noise Cancelation and Frequency Domain Noise Cancelation (FDNC). The BER performance of these 2 receiver models is nearly the same. The simulation results indicate the system performance enhancement after applying noise cancellation approaches by 1.65 dB at the 4-QAM modulation scheme and 2.97 dB at the 1024-QAM modulation scheme. The 16-QAM modulation scheme, after applying DST and WHT methodologies alongside noise cancellation approaches, can enhance both PAPR by 20.83% and 6.76%, but the Eb/N0 performance enhancement by 10.10% and 14.64%, respectively. Additionally, the effectiveness and validity of the proposed schemes are verified by comparing them with relevant literature reviews on PAPR reduction techniques and selecting an optimal choice among them.

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来源期刊
Optical and Quantum Electronics
Optical and Quantum Electronics 工程技术-工程:电子与电气
CiteScore
4.60
自引率
20.00%
发文量
810
审稿时长
3.8 months
期刊介绍: Optical and Quantum Electronics provides an international forum for the publication of original research papers, tutorial reviews and letters in such fields as optical physics, optical engineering and optoelectronics. Special issues are published on topics of current interest. Optical and Quantum Electronics is published monthly. It is concerned with the technology and physics of optical systems, components and devices, i.e., with topics such as: optical fibres; semiconductor lasers and LEDs; light detection and imaging devices; nanophotonics; photonic integration and optoelectronic integrated circuits; silicon photonics; displays; optical communications from devices to systems; materials for photonics (e.g. semiconductors, glasses, graphene); the physics and simulation of optical devices and systems; nanotechnologies in photonics (including engineered nano-structures such as photonic crystals, sub-wavelength photonic structures, metamaterials, and plasmonics); advanced quantum and optoelectronic applications (e.g. quantum computing, memory and communications, quantum sensing and quantum dots); photonic sensors and bio-sensors; Terahertz phenomena; non-linear optics and ultrafast phenomena; green photonics.
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