Synchronization and demodulation of LoRa null port data

Synchronization and demodulation of LoRa null port data

LoRa communication technology has the characteristics of low power consumption and long distance, and has attracted more and more attention in life. However, for the underlying LoRa modulation and demodulation technology and the physical layer communication link flow, the official does not have the...

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Bibliographic Details
Main Authors: Lei Fang, Chen Bo, Lv Jingzhao, Li Pingan, Du Haitao, Li Su
Format: Article
Language:zho
Published: National Computer System Engineering Research Institute of China 2022-04-01
Series:Dianzi Jishu Yingyong
Subjects:
lora
rhode instrument
communication links
null port data
synchronization algorithm
Online Access:http://www.chinaaet.com/article/3000148325
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Summary:LoRa communication technology has the characteristics of low power consumption and long distance, and has attracted more and more attention in life. However, for the underlying LoRa modulation and demodulation technology and the physical layer communication link flow, the official does not have the public technical document description, only some literature mentioned these contents. This paper improves the physical layer communication link flow by combining the LoRa modulation parameter configuration interface the official Rhode instrument with the literature. The principle of LoRa modulation and demodulation technology is described in essence, and the LoRa modulation data are collected from the Rhode instrument null port. The modulation and demodulation algorithm of LoRa literature is verified, and a synchronization algorithm of LoRa null port data is proposed. The LoRa demodulation of null port data is realized. Finally, the noise resistance performance was simulated for the LoRa modulation technique at 5 code rates. The simulation results show that the reduction of bit rate does not mean that the anti-noise ability of the system will be improved. The code rate is 4/5 with the best effect error correction, and the noise resistance performance improves by about 1 dB.
ISSN:0258-7998

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