Optimal Imaging Receiver Design for High-Speed Mobile Optical Wireless Communications

2022 IEEE International Conference on Communications Workshops (ICC Workshops) Pub Date : 2022-05-16 DOI:10.1109/iccworkshops53468.2022.9814646

Mohammad Dehghani Soltani, Hossein Kazemi, E. Sarbazi, H. Haas, M. Safari

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引用次数: 3

Abstract

The optical receivers suitable for the next generation of optical wireless networks need to be ultra-high-speed while having a wide field of view (FOV) to accommodate user mobility. The design of such receivers is challenging due to two known trade-offs, namely, the area-bandwidth and the gain-FOV. In this study, we consider these trade-offs and formulate an optimisation problem to design imaging receivers that can achieve maximum high speed while satisfying a minimum FOV requirement. The design will be based on an array of arrays of photodetectors for which we present analytical derivations of signal-to-noise ratio (SNR) assuming maximum ratio combining (MRC). Practical considerations and non-idealities have been considered in our design and the reliability of the analytical model is verified by Optic Studio-based simulations. The optimization problem is solved assuming on-off keying (OOK) modulation. The results show a trade-off between achievable data rate and FOV. For example, it is demonstrated that a data rate of ~23 Gbps is achievable with a receiver of at most 2 cm x 2 cm dimensions with a FOV of 15°. However, a receiver with the same dimensions may only achieve ~8 Gbps if the FOV requirement increases to 20°.

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高速移动光无线通信的最佳成像接收机设计

适合下一代光无线网络的光接收器需要超高速，同时具有宽视场(FOV)，以适应用户的移动性。由于两个已知的权衡，即面积带宽和增益视场，这种接收器的设计具有挑战性。在本研究中，我们考虑了这些权衡，并制定了一个优化问题，以设计成像接收器，既能实现最大的高速，又能满足最小的视场要求。该设计将基于光电探测器阵列的阵列，我们提出了假设最大比率组合(MRC)的信噪比(SNR)的分析推导。在我们的设计中考虑了实际考虑和非理想性，并通过基于Optic studio的仿真验证了分析模型的可靠性。在假设开断键控(OOK)调制的情况下，解决了优化问题。结果显示了可实现的数据速率和视场之间的权衡。例如，在最大2cm × 2cm尺寸、视场为15°的接收器上，可以实现~ 23gbps的数据速率。然而，如果视场要求增加到20°，具有相同尺寸的接收器可能只能达到~8 Gbps。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 IEEE International Conference on Communications Workshops (ICC Workshops)

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