• Title/Summary/Keyword: SFM pulse

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Design of the Robust Generalized Sinusoidal Frequency Modulated Pulse in Reverberation Environments (잔향환경에 강인한 Generalized Sinusoidal Frequency Modulated 펄스 생성 기법)

  • Kim, Guenhwan;Yoon, Kyungsik;Lee, Donghwa;Cho, Chomgun;Hong, Jungpyo;Lee, Kyunkyung
    • Journal of Korea Society of Industrial Information Systems
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    • v.24 no.5
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    • pp.95-104
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    • 2019
  • In this paper, we propose a method to design a generalized sinusoidal frequency modulated(GSFM) pulse that is robust to reverberation environment. GSFM pulses are a generalized form of SFM(Sinusoidal frequency modulated) pulses, which have the advantage of having a thumbtack ambiguity function with excellent range and Doppler resolution. However, the periodicity disappears during the generalization process, therefore, the detection performance is reduced in reverberation environment compared to SFM pulse with comb spectrum. In this paper, the trade-off relationship between the reverberation suppression performance of the SFM pulse and the range resolution performance of the GSFM pulse is analyzed by appropriately changing the parameter ${\rho}$ of the GSFM pulse. In order to verify the performance of the proposed GSFM pulse, the simulation was performed and it was confirmed that the proposed GSFM pulse has excellent distance resolution while detecting the slow Doppler target.

Performance Assessment of SFM Pulse in Reverberation Environment

  • Shin Seung-Je;Lee Hyung-Soo;Bae Eun-Hyon;Park Do-Hyun;Lee Kyun-Kyung
    • Proceedings of the IEEK Conference
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    • summer
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    • pp.254-257
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    • 2004
  • In shallow water, the performance of the operating active sonar systems is usually limited by reverberation. One of the measure to overcome the negative effect of reverberation is of selecting an adequate transmission pulse. SFM(Sinusoidal Frequency Modulation) pulse has been received a considerable attention as a candidate for suppressing the reverberation effect. In this paper, we analyze the detection performance of SFM pulse with respect to modulation frequency and bandwidth. To conduct the analysis. we synthesize the signal at the receiver considering. the transmitter. the receiver, and the propagation medium characteristcs. The simulations provide the optimum modulation frequency and bandwidth under the given situation.

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Multiple vertical depression-based HMS active target detection using GSFM pulse (GSFM 펄스를 이용한 다중 수직지향각 기반 선체고정소나 능동 표적 탐지)

  • Hong, Jungpyo;Cho, Chomgun;Kim, Geunhwan;Lee, Kyunkyung;Yoon, Kyungsik
    • The Journal of the Acoustical Society of Korea
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    • v.39 no.4
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    • pp.237-245
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    • 2020
  • In decades, active sonar, which transmits signals and detects incident signals reflected by underwater targets, has been significantly studied since passive sonar in Anti-Submarine Warfare (ASW) detection performance becomes lowered, as underwater threats become their radiated noise reduced. In general, active sonar using Hull-Mounted Sonar (HMS) adjusts vertical tilt (depression) and sequentially transmits multiple Linear Frequency Modulation (LFM) subpulses which have non-overlapped bands, i. e. 1 kHz ~ 2 kHz, 2 kHz ~ 3 kHz, in order to reduce shadow zones. Recently, however, Generalized SFM (GSFM), which is generalized form of SFM, is proposed, and it is confirmed that subpulses of GSFM have orthogonality among each other depending on setting of GSFM parameters. Hence, in this paper, we applied GSFM to active target detection using HMS to improve the performance by the signal processing gain obtained from enlarged bandwidths of GSFM subpulses compared to those of LFM subpulses. Through simulation, we verified that when the number of subpulses is three, the matched filter gain of GSFM is approximately 5 dB higher than that of LFM.

Size-controlled pt Nanophases via Pulse Electrodeposition in Polyvinylpyrrolidone (전기 도금법을 이용한 백금촉매에서의 촉매활성평가)

  • Song, You-Jung;Han, Sang-Beom;Lee, Jong-Min;Park, Kyung-Won
    • 한국신재생에너지학회:학술대회논문집
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    • 2007.06a
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    • pp.216-219
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    • 2007
  • Pulse current 전기 도금법을 사용해 균일하고 넓은 표면적을 갖는 Pt 나노구조가 제조되었다. 도금된 Pt 나노구조의 형태와 크기 분석을 위해 SFM과 TEM이 사용되었으며, 결정성 분석에는 XRD가 사용되었다. 고분자 첨가제를 첨가하여 도금되는 Pt의 크기를 제어할 수 있었는데, 순수한 Pt에 비해 첨가제의 영향으로 크기가 제어된 나노구조의 Pt들의 평균크기는 각각 3.4 nm와 2.9 nm로 순수한 Pt 360 nm의 것에 비해 훨씬 작아진 결과를 나타낼 뿐 아니라 크기가 제어된 나노구조 Pt는 메탄올 전기 산화반응에서도 순수한 Pt보다 뛰어난 촉매활성을 가짐을 보여주었다.

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