An Improved Phase Deviation Discriminator for Carrier Synchronization of APSK Signal in Satellite-to-Ground Communication Systems

Shen, Yuyao; Shi, Xuesen; Zhao, Shiqi; Wang, Yongqing

doi:10.3390/electronics11091472

Cited by 3 publications

(1 citation statement)

References 17 publications

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“…Amplitude phase-shift keying (APSK) is a type of PSK modulation where the amplitude of the baseband pulse is not constant and takes values from another finite set [1]. APSK is a higher-order modulation scheme designed for efficient transmission over communication channels due to its intrinsic robustness against non-linear amplifier distortions, as well as its spectral efficiency [2,3]. Thus, it is widely used in digital communication, digital video broadcasting, satellite communication and other fields [4,5].…”

Section: Introductionmentioning

confidence: 99%

A Carrier Synchronization Lock Detector Based on Weighted Detection Statistics for APSK Signals

Li¹,

Shi

Zhan

et al. 2022

Electronics

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To solve the application limitations of conventional detectors caused by discrete phase distribution of high-order APSK signals, and the problem that the detection performance will degrade when the automatic control gain is unideal, a carrier synchronization lock detector based on weighted detection statistics is proposed for APSK signals. Based on the detection statistics of the Linn detector, the proposed detector calculates a weighted factor according to the amplitude difference of the signal on the APSK constellation to adjust the weight of detection statistics for different rings. The proposed detector solves the detection performance degradation problem of the Linn detector caused by uneven phase distribution. In order to further improve detection performance, the detection threshold and statistical signal length are reasonably designed. The expectation and variance properties are derived, and the lock detection probability is analyzed. The performance of the proposed detector is verified through simulations. Simulation results show that the proposed carrier synchronization lock detector has better performance than the Linn detector.

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Section: Introductionmentioning

confidence: 99%

A Carrier Synchronization Lock Detector Based on Weighted Detection Statistics for APSK Signals

Li¹,

Shi

Zhan

et al. 2022

Electronics

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A Large Range Carrier Frequency Offset Estimation Algorithm for APSK Signals

Cui,

Guo

2024

Proceedings of the 2024 3rd International Conference on Networks, Communications and Information Technology

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A Software and Hardware Cooperation Method for Full Nyquist Rate Transmission Symbol Synchronization at E-Band Wireless Communication

Wang

Cheng

et al. 2022

Sensors

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Compared with the conventional pulse-shaping transmission system, the full Nyquist rate transmission system with large bandwidth is sensitive to the sampling phase. It has only one sample available in one symbol period and is easily interfered by the channel, which does not allow the traditional symbol synchronization methods to be used directly. Another challenge is that the resource utilization for sampling data processing needs to be minimized due to the excessive consumption of the high data throughput in hardware resources. To solve these issues, we propose a symbol synchronization method based on the combination of software and hardware, which mainly includes two processes: Obtaining the initial phase by using Chirp signal and MOE criterion before communication; tracking the real-time phase using an on-line gradient table and frequency domain analysis of known data during communication. Both processes are proceeded with a phase adjustable clock. Through hardware verification, the sampling phase can be kept close to the optimal phase, thus ensuring the accuracy of the sampling data, and improving the system BER performance.

show abstract

An Improved Phase Deviation Discriminator for Carrier Synchronization of APSK Signal in Satellite-to-Ground Communication Systems

Cited by 3 publications

References 17 publications

A Carrier Synchronization Lock Detector Based on Weighted Detection Statistics for APSK Signals

A Carrier Synchronization Lock Detector Based on Weighted Detection Statistics for APSK Signals

A Large Range Carrier Frequency Offset Estimation Algorithm for APSK Signals

A Software and Hardware Cooperation Method for Full Nyquist Rate Transmission Symbol Synchronization at E-Band Wireless Communication

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