Feasibility Analysis of Uplink Quantum Communication with HAP Considering Beam Wandering and Weather Dependence

2023 23rd International Conference on Transparent Optical Networks (ICTON) Pub Date : 2023-07-02 DOI:10.1109/ICTON59386.2023.10207374

Nancy Alshaer, Tawfik Ismail

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Abstract

The encryption process is essential for ensuring data protection and privacy. However, breaking the encrypted data becomes feasible as computational power grows exponentially. This leads to insecure data transmission over a public channel. Quantum key distribution is a secure communication mechanism that allows shared parties to exchange encryption keys periodically. Furthermore, it has the ability to detect eavesdropping since the error level becomes higher when she attempts to access the communication channel. This paper studies and analysis the performance of the uplink quantum channel between the ground station and the high-altitude platform system (HAPS). In order to achieve optimal performance, the system parameters, such as modulation variance, receiver aperture, and zenith angle influence, are tuned with consideration to the effects of weather conditions and beam wandering. For a HAP at vertical altitude 20 km and with 20° zenith angle and 100 MHz pulse generation rate, a raw key rate of 57 Mb/s and 63 Mb/s is estimated for homodyne and heterodyne detection schemes, respectively.

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考虑波束漂移和天气依赖的HAP上行量子通信可行性分析

加密过程对于确保数据保护和隐私至关重要。然而，随着计算能力的指数级增长，破解加密数据变得可行。这将导致通过公共通道传输不安全的数据。量子密钥分发是一种安全的通信机制，允许共享方定期交换加密密钥。此外，它还具有检测窃听的能力，因为当她试图访问通信信道时，错误级别会变得更高。本文对地面站与高空平台系统(HAPS)之间的上行量子信道性能进行了研究和分析。为了获得最佳性能，系统参数，如调制方差，接收机孔径，天顶角的影响，进行了调整，考虑天气条件和波束漂移的影响。对于垂直高度为20 km、天顶角为20°、脉冲产生速率为100 MHz的HAP，估计纯差和外差探测方案的原始密钥速率分别为57 Mb/s和63 Mb/s。

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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来源期刊

2023 23rd International Conference on Transparent Optical Networks (ICTON)

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