Chen Yong-guang scite author profile

The extensive applications of multi-function radars (MFRs) have presented a great challenge to the technologies of radar countermeasures (RCMs) and electronic intelligence (ELINT). The recently proposed cognitive electronic warfare (CEW) provides a good solution, whose crux is to perceive present and future MFR behaviours, including the operating modes, waveform parameters, scheduling schemes, etc. Due to the variety and complexity of MFR waveforms, the existing approaches have the drawbacks of inefficiency and weak practicability in prediction. A novel method for MFR behaviour recognition and prediction is proposed based on predictive state representation (PSR). With the proposed approach, operating modes of MFR are recognized by accumulating the predictive states, instead of using fixed transition probabilities that are unavailable in the battlefield. It helps to reduce the dependence of MFR on prior information. And MFR signals can be quickly predicted by iteratively using the predicted observation, avoiding the very large computation brought by the uncertainty of future observations. Simulations with a hypothetical MFR signal sequence in a typical scenario are presented, showing that the proposed methods perform well and efficiently, which attests to their validity.

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Control of Reaction Pathways for Rapid Synthesis of Negative Thermal Expansion Ceramic Zr₂P₂WO₁₂ with Uniform Microstructure

Liu

Wang

Fan

et al. 2013

Int J Applied Ceramic Tech

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The reaction pathways to synthesize Zr 2 P 2 WO 12 (ZPW) from ZrO 2 , WO 3 , and P 2 O 5 are studied. It is found that there exist two different reaction pathways: One is direct reaction, while another is through an intermediate phase ZrP 2 O 7 . The reaction pathways are determined by drying and sintering temperatures. By controlling the reaction pathways, namely avoiding the intermediate phase, negative thermal expansion ceramic ZPW can be synthesized within several minutes. Besides, as-synthesized specimens possess much smaller and uniform grain size distribution than those synthesized by conventional methods. The investigation paves a way toward rapid and environmental friendly synthesis of ZPW and related compounds.

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Method for operating mode identification of multi‐function radars based on predictive state representations

Yong-guang²,

Zhao

et al. 2017

IET Radar, Sonar & Navigation

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Chen Yong-guang

Optimizing surveillance strategies for early detection of invasive alien species

Novel Approach for the Recognition and Prediction of Multi-Function Radar Behaviours Based on Predictive State Representations

Control of Reaction Pathways for Rapid Synthesis of Negative Thermal Expansion Ceramic Zr₂P₂WO₁₂ with Uniform Microstructure

Method for operating mode identification of multi‐function radars based on predictive state representations

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Chen Yong-guang

Optimizing surveillance strategies for early detection of invasive alien species

Novel Approach for the Recognition and Prediction of Multi-Function Radar Behaviours Based on Predictive State Representations

Control of Reaction Pathways for Rapid Synthesis of Negative Thermal Expansion Ceramic Zr2P2WO12 with Uniform Microstructure

Method for operating mode identification of multi‐function radars based on predictive state representations

Contact Info

Product

Resources

About

Control of Reaction Pathways for Rapid Synthesis of Negative Thermal Expansion Ceramic Zr₂P₂WO₁₂ with Uniform Microstructure