Your search keyword '"Guo, Lishu"' showing total 2 results

1. A Novel Method for Recognizing Space Radiation Sources Based on Multi-Scale Residual Prototype Learning Network.

Author

Liu, Pengfei, Guo, Lishu, Zhao, Hang, Shang, Peng, Chu, Ziyue, and Lu, Xiaochun

Subjects

*RADIATION sources, *DEEP learning, *ELECTRONIC countermeasures, *IMAGE recognition (Computer vision), *FEATURE extraction, *SITUATIONAL awareness, *ASTROPHYSICAL radiation, *SPACE debris

Abstract

As a basic task and key link of space situational awareness, space target recognition has become crucial in threat analysis, communication reconnaissance and electronic countermeasures. Using the fingerprint features carried by the electromagnetic signal to recognize is an effective method. Because traditional radiation source recognition technologies are difficult to obtain satisfactory expert features, automatic feature extraction methods based on deep learning have become popular. Although many deep learning schemes have been proposed, most of them are only used to solve the inter-class separable problem and ignore the intra-class compactness. In addition, the openness of the real space may invalidate the existing closed-set recognition methods. In order to solve the above problems, inspired by the application of prototype learning in image recognition, we propose a novel method for recognizing space radiation sources based on a multi-scale residual prototype learning network (MSRPLNet). The method can be used for both the closed- and open-set recognition of space radiation sources. Furthermore, we also design a joint decision algorithm for an open-set recognition task to identify unknown radiation sources. To verify the effectiveness and reliability of the proposed method, we built a set of satellite signal observation and receiving systems in a real external environment and collected eight Iridium signals. The experimental results show that the accuracy of our proposed method can reach 98.34% and 91.04% for the closed- and open-set recognition of eight Iridium targets, respectively. Compared to similar research works, our method has obvious advantages. [ABSTRACT FROM AUTHOR]

Published

2023

2. Non data-aided estimation of modulation index of USB TT&C waveform with sinusoidal tone.

Author

Chu, Ziyue, Zou, Decai, Wang, Xue, Zhao, Hang, Guo, Lishu, Shang, Peng, and Guo, Yao

Subjects

*STANDARD deviations, *ASTROPHYSICAL radiation, *RADIATION sources

Abstract

Electronic reconnaissance technology has received increased attention in aerospace applications owing to its ability to analyze signals from space radiation sources. As the routine signal of satellites, the Unified S-Band (USB) Telemetry Tracking and Command (TT&C) waveform has become a crucial target of electronic reconnaissance. The modulation index of the USB TT&C waveform is a critical factor that affects the spectral characteristics of the waveform and quality of TT&C services. This parameter can be regarded as a critical feature for identifying non-cooperative targets. Considering the estimation of this parameter is an imminent requirement, a non data-aided method of modulation index is proposed. The algorithmic framework of the proposed method is based on Fourier transform and spectral analysis. The theoretical root mean squared error of the method is derived in detail, and the factors affecting the accuracy of the method are discussed. The accuracy of the method is assessed via the Monte Carlo simulation and the robustness of the method is verified using actual signals. The experimental results reveal that the accuracy of the method can reach 10−2 in a real-life electromagnetic environment where the signal-to-noise ratio is approximately −8 dB. • Modulation index estimation for USB TT&C waveform with sinusoidal tone. • Proposed estimator overcome the uselessness of existing methods for our target. • Verification of the validity and robustness of the estimator by actual signals. • Easy to implement in engineering applications. [ABSTRACT FROM AUTHOR]

Published

2023