6 Papers
Junhui Yao is an academic researcher from Huazhong University of Science and Technology. The author has contributed to research in topics: Computer science & Channel (broadcasting). The author has co-authored 1 publications.
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Papers
R&D of a low-complexity OFDM acoustic communication payload for Micro-AUV in confined space
TL;DR: In this paper , a low-complexity underwater acoustic (UWA) communication payload is designed to provide an effective solution to make a tradeoff between data rate and implementation complexity, and the experimental results achieved in a confined lake show that the proposed system has the potential of being used for Micro-AUV to achieve a data rate of 1.96 kbps with acceptable implementation overhead.
R&D of an Innovative OFDM Communication Payload for Small-Size AUV
TL;DR: In this article , an UWA OFDM communication payload based on STM32F407 processor is designed and implemented to facilitate agile Doppler compensation with low computational overhead. And the authors show that the designed system has the potential to achieve an effective communication rate of 3.19 kbps with the admissible implementation overhead.
Research on phase center stability of circularly polarized patch antennas for GPS applications
Xiao-Chuan Wang,Junhui Yao,Xianlong Lu,Wen-Zhong Lu +3 more
- 01 Jun 2015
TL;DR: In this article, the phase center stability of a circularly polarized patch antenna was investigated using electromagnetic simulation software (CST Microwave Studio), and the measured results showed that its PCS was less than 1mm.
R&D of a low-complexity OFDM acoustic communication payload for Micro-AUV in confined space
TL;DR: In this article , a low-complexity underwater acoustic (UWA) communication payload is designed to provide an effective solution to make a tradeoff between data rate and implementation complexity, and the experimental results achieved in a confined lake show that the proposed system has the potential of being used for Micro-AUV to achieve a data rate of 1.96 kbps with acceptable implementation overhead.