An integrative time-varying frequency detection and channel sounding method for dynamic plasma sheath

Shi, Lei; Yao, Bo; Zhao, Lijuan; Liu, Xiaotong; Yang, Min; Liu, Yanming

doi:10.1063/1.5004064

AIP Advances

2018

DOI: 10.1063/1.5004064

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An integrative time-varying frequency detection and channel sounding method for dynamic plasma sheath

Lei Shi

Bo Yao

Lijuan Zhao

et al.

Abstract: The plasma sheath-surrounded hypersonic vehicle is a dynamic and time-varying medium and it is almost impossible to calculate time-varying physical parameters directly. The in-fight detection of the time-varying degree is important to understand the dynamic nature of the physical parameters and their effect on re-entry communication. In this paper, a constant envelope zero autocorrelation (CAZAC) sequence based on time-varying frequency detection and channel sounding method is proposed to detect the plasma she… Show more

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Cited by 4 publications

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Intra-pulse modulation of the linear frequency modulated pulse caused by time-varying plasma

Song

Bai

et al. 2019

AIP Advances

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The effects of time-varying plasma on the propagation of a linear frequency modulated (LFM) pulse are investigated. An experiment on the propagation of LFM pulse in continuous time-varying plasma is described and a spectrum broadening phenomenon is observed. The phenomenon is due to intra-pulse amplitude and phase modulation of the LFM pulse by time-varying plasma; this explanation is verified by a comparison of the results of the experiment and theoretical analysis. The theoretical result is obtained by measuring the time-varying electron density that the intra-pulse modulation depends on and applying the measured time-varying electron density into calculation method presented in this paper. The effects of the bandwidth of the LFM pulse and oscillation frequency of electron density on the intra-pulse modulation phenomenon are then explored by another two experiments. Time-frequency analysis employing a smooth pseudo Wigner–Ville distribution (SPWD) is adopted to further analyze the phenomenon and results of time-frequency analysis confirm the earlier theoretical analysis and conclusions. The effect of intra-pulse modulation on the LFM pulse due to time-varying plasma should be emphasized in the application of the radar and communication systems on a vehicle under a plasma sheath.

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Intra-pulse modulation of the linear frequency modulated pulse caused by time-varying plasma

Song

Bai

et al. 2019

AIP Advances

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Electromagnetic coupling effect in the complex integrated channel of hypersonic vehicles and experimental verification

et al. 2019

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The communication link of hypersonic vehicles suffers in a complex electromagnetic channel environment with the multipath effect, large Doppler effect caused by the high speed of the hypersonic vehicles, and parasitic modulation caused by vortex turbulence of dynamic plasma sheath. The inherent coupling relationship between these effects exists even though they are with different physical generation mechanisms, which will seriously affect the reception effect of the communication signal from the perspective of the wireless channel. This study investigates the electromagnetic coupling relation between the hypersonic spatial channel and the dynamic plasma sheath channel. The coupling relation is derived in the frequency domain, and the integrated channel simulation model is established as well. Theoretical simulation results demonstrate that the harmonic spectral lines of the plasma sheath power spectrum are moved to the right with the line-of-sight Doppler frequency shift. The spectral spread of the hypersonic spatial channel is coupled to the channel power spectrum of the plasma sheath that forms multiple spectrum extension areas. The new spectral extensions caused by coupling effect will make the traditional narrowband matching receive mode face enormous challenges. The electromagnetic coupling effect in the integrated channel is also verified through channel sounding experiments on ground integrated channel emulation environment composed of plasma simulation device and wireless channel simulator. The deep understanding of this coupling effect is essential to wireless channel modeling and design of adaptive reception methods for hypersonic vehicles.

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Improved Scattering-Matrix Method and its Application to Analysis of Electromagnetic Wave Reflected by Reentry Plasma Sheath

Chen

Shen

Liu

et al. 2018

IEEE Trans. Plasma Sci.

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An integrative time-varying frequency detection and channel sounding method for dynamic plasma sheath

Cited by 4 publications

References 20 publications

Intra-pulse modulation of the linear frequency modulated pulse caused by time-varying plasma

Intra-pulse modulation of the linear frequency modulated pulse caused by time-varying plasma

Electromagnetic coupling effect in the complex integrated channel of hypersonic vehicles and experimental verification

Improved Scattering-Matrix Method and its Application to Analysis of Electromagnetic Wave Reflected by Reentry Plasma Sheath

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