Evaluation of Group Signal Transformation Efficiency for Earth Remote Sensing Systems

2023 IX International Conference on Information Technology and Nanotechnology (ITNT) Pub Date : 2023-04-17 DOI:10.1109/ITNT57377.2023.10138979

Vladislav Ivanov, Ivan O. Abdreev, Ekaterina Lopukhova, I. Stepanov, E. Grakhova, I. V. Kuznetsov

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Abstract

In energy-deficient systems, such as satellite systems for remote sensing, the issue of reducing power consumption is especially relevant. The group signal transformation has shown high efficiency in reducing the dynamic range of transmitted highly correlated signals. Such signals include, for example, signals for object positioning or multispectral analysis obtained from remote sensing devices. In the present work, the estimation of bit error rate depending on the signal-to-noise ratio and compression level of the original signals was carried out. In this research, we used the model based on the ESP32 microcontroller. We obtained the analog light sensors (photoresistors) connected to the controller to obtain highly correlated signals. The calculations of the bit error rate show that compression of the dynamic range of the transmitted signals two times, and, consequently, reduction of the transmission energy, weakly affects the error rate. However, a further increase in the compression level leads to a sharp increase.

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地球遥感系统群信号变换效率评价

在能源不足的系统中，例如遥感卫星系统，减少电力消耗的问题特别重要。在减小传输的高相关信号的动态范围方面，群信号变换显示出很高的效率。这些信号包括，例如，从遥感装置获得的用于物体定位或多光谱分析的信号。在本工作中，根据原始信号的信噪比和压缩水平估计误码率。在本研究中，我们采用了基于ESP32单片机的模型。我们获得了连接到控制器的模拟光传感器(光电阻)，以获得高度相关的信号。误码率的计算表明，对传输信号的动态范围进行两次压缩，从而降低传输能量，对误码率的影响很小。然而，进一步增加压缩水平会导致急剧增加。

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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2023 IX International Conference on Information Technology and Nanotechnology (ITNT)

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