Efficient CRC-BCH Unified Encoder for Global Positioning System

2024 International Conference on Electronics, Information, and Communication (ICEIC) Pub Date : 2024-01-28 DOI:10.1109/ICEIC61013.2024.10457230

Yongtaek Hwang, Jiwoo Hwang, Yuseok Lee, Hoyoung Yoo

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Abstract

GPS uses ECCs to see if an error occurs when the data sent from the satellite reaches the user. Each message structure uses ECCs such as Hamming Code, CRC, BCH Code, and LDPC Code. If the satellite contains all of the encoders, it has a negative impact to the area and power consumption. Therefore, in this paper, we propose a CRC-BCH unified encoder for GPS, which is efficient in terms of space and power consumption. Since both the CRC and BCH encoders use shift registers, the design was made using this part. To replace the existing encoder, the CRC-BCH encoder must have the same output. To validate this, we used individual CRC and BCH encoders and confirmed that the generated output was identical to the output of the proposed encoder. The proposed CRC-BCH unified encoder was synthesized at an operating frequency of 400 MHz using the CMOS 28nm process. The synthesis results showed that it used 16.67% less area and consumed 19.68% less power than the existing encoder. Therefore, the proposed CRC-BCH unified encoder offers advantages in terms of satellite weight and energy efficiency.

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用于全球定位系统的高效 CRC-BCH 统一编码器

当卫星发送的数据到达用户时，GPS 使用 ECC 来检测是否发生错误。每个信息结构都使用 ECC，如 Hamming 码、CRC、BCH 码和 LDPC 码。如果卫星包含所有编码器，则会对面积和功耗产生负面影响。因此，本文提出了一种用于 GPS 的 CRC-BCH 统一编码器，它在空间和功耗方面都很有效。由于 CRC 和 BCH 编码器都使用移位寄存器，因此设计时使用了这一部分。要取代现有的编码器，CRC-BCH 编码器必须具有相同的输出。为了验证这一点，我们使用了单独的 CRC 和 BCH 编码器，并确认生成的输出与拟议编码器的输出完全相同。建议的 CRC-BCH 统一编码器是在 400 MHz 的工作频率下使用 CMOS 28nm 工艺合成的。合成结果表明，与现有编码器相比，它使用的面积减少了 16.67%，消耗的功率减少了 19.68%。因此，拟议的 CRC-BCH 统一编码器在卫星重量和能效方面具有优势。

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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2024 International Conference on Electronics, Information, and Communication (ICEIC)

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