• Title/Summary/Keyword: 스핀스캔

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DIRCM Jamming Effect Analysis of Spin-Scan Reticle Seeker (스핀스캔 레티클 탐색기의 DIRCM 재밍효과 분석)

  • Ahn, Sang-Ho;Kim, Young-Choon;Lee, Kwang-Sei;Kim, Ki-Hong;Kim, Sung-Soo
    • Journal of the Korea Institute of Military Science and Technology
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    • v.12 no.6
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    • pp.776-784
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    • 2009
  • The function of DIRCM(Directed Infrared Countermeasures) jamming is to cause the missile to miss its intended target by disturbing the seeker tracking process. The DIRCM jamming uses the pulsing flashes of IR energy and its frequency, phase and intensity have influence on the missile guidance system. In this paper, we analysis the DIRCM jamming effect of spin-scan reticle seeker. Simulation results show that the jamming effect is greatly influenced by frequency, phase and intensity of the jammer signal.

Research on the Implementation of Infrared Threat Surrogate for DIRCM Performance Analysis (지향성 적외선 방해장치 성능분석을 위한 위협체모사기 구축에 관한 연구)

  • Chun, Seung-Woo;Kim, Joy;Cho, Soo-Hyung;Kim, Jae-Hyup;Yu, Hyun-Geun
    • Journal of the Korea Society of Computer and Information
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    • v.20 no.3
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    • pp.97-106
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    • 2015
  • In this paper, the development of infrared threat surrogate system is described and it can be used to verify the performance of DIRCM system. In this research, threat surrogates are manufactured using same F# and reflective optics used in 1st- and 2nd-Gen. real seeker so that the threat surrogate system can be used to develop code-based jamming techniques. Also the threat surrogate system can analyze the saturation jamming effect for image seeker using FPA detector. The result shows that 1st- and 2nd-generation threat surrogates have relatively precise tracking performance and jamming effect.

Variations in The Size of The Ischemic Myocardium Due to Differences in The Normal File (Normal File의 차이에 따른 심근 관류결손 크기의 변화)

  • Lee, Jae-Tae;Lee, Kyu-Bo;Heo Jae-Kyeong;Iskandrian Abdulmasshi S.
    • The Korean Journal of Nuclear Medicine
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    • v.26 no.1
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    • pp.49-57
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    • 1992
  • 혈관확장제 투여에 의한 약물부하 심근스캔시는 운동부하 심근스캔시와 비교하여 심박출량과 관상 동백 혈류의 증가정도가 달라서 심근내 T1-201의 농도가 달라진다. 그러므로 부하 심근관류스캔의 정량적 판독시에 각각의 부하에 특이적인 Normal file을 사용하지 않으면 이러한 심근내 T1-201 농도의 차이로 인하여 관류 결손의 크기가 다르게 나타날 수 있으리라 추측할 수 있다. 본 연구는 좌전하행지의 유의한 협착이 있는 34명의 단일 혈관 관상동맥 환자에서 이러한 가정이 실제적으로 어떻게 나타나는가를 조사하였다. 환자들은 adenosine 140ug/kg/min을 정맥주사하고 T1-201 SPECT를 실시하였다. 관류결손의 크기는 답차운동부하 T1-201 스캔을 실시한 정상인에서 구한 Normal File (File-ex)과 adenosine T1-201 스캔의 Normal File (File-ad)을 각각 이용하여 만든 극성지도에서 구한 adenosine 심근스캔의 관류결손의 범위지수(extent score)와 중증도지수(severity score)로 표시하였고, 이들의 값을 비교하여 아래의 결과를 얻었다. File-ex로 구한 관류결손의 범위지수는 $19{\pm}13%$였고 File-ad로 구한 범위는 $11{\pm}10%$였다(차이 $8.1{\pm}1.6%$, p=0.0001), 중증도지수는 File-ex를 사용하였을 때 $582{\pm}479$였고 File-ad를 사용하였을때는 $310{\pm}309$였다(차이 $272{\pm}49$, p<0.0001). $50\sim70%$의 중등도의 내경 협착이 있었던 20명의 환자에서는 범위지수는 File-ex와 File-ad에서 각각 $17{\pm}10$$7{\pm}7%$(p=0.001)였고, 70% 이상의 내경 협착이 있었던 14명에서의 범위 지수는 각각 $24{\pm}16$$18{\pm}10%$ (p=0.03)로 모두에서 File-ex를 사용하였을때의 값이 컸다. 이와 같은 성적으로 보아 T1-201 스핀에서 관류결손의 정도를 정량적으로 첨가할 시에는 부하에 특이적인 Normal File을 사용하여야 관류 결손의 정도를 정확하게 추출할 수 있다는 사실을 알 수가 있다. 즉 dipyridamole이나 adenosine부하경사에서 운동부하의 Normal File을 사용하면 관류결손의 정도가 과대평가 된다는 것이다.

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Higher Order Shimming for Ultra-fast Spiral-Scan Imaging at 3 Tesla MRI System (3 Tesla MRI 시스템에서 초고속 나선주사영상을 위한 고차 shimming)

  • Kim, P.K.;Lim, J.W.;Ahn, C.B.
    • Investigative Magnetic Resonance Imaging
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    • v.11 no.2
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    • pp.95-102
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    • 2007
  • Purpose: To acquire high-resolution spiral-scan images at higher magnetic field, high homogeneous magnetic field is needed. Field inhomogeneity mapping and in-vivo shimming are important for rapid imaging such as spiral-scan imaging. The rapid scanning sequences are very susceptible to inhomogeneity. In this paper, we proposed a higher-order shimming method to obtain homogeneous magnetic field. Materials and Methods: To reduce measurement time for field inhomogeneity mapping, simultaneous axial/ sagittal, and coronal acquisitions are done using multi-slice based Fast Spin echo sequence. Acquired field inhomogeneity map is analyzed using the spherical harmonic functions, and shim currents are obtained by the multiplication of the pseudo-inverse of the field pattern with the inhomogeneity map. Results: Since the field inhomogeneity is increasing in proportion to the magnetic field, higher order shimming to reduce the inhomogeneity becomes more important in high field imaging. The shimming technique in which axial, sagittal, and coronal section inhomogeneity maps are obtained in one scan is developed, and the shimming method based on the analysis of spherical harmonics of the imhomogenity map is applied. The proposed technique is applicable to a localized shimming as well. High resolution spiral-scan imaging was successfully obtained with the proposed higher order shimming. Conclusion: Proposed pulse sequence for rapid measurement of inhomogeneity map and higher order shimming based on the inhomogeneity map work very well at 3 Tesla MRI system. With the proposed higher order shimming and localized higher order shimming techniques, high resolution spiral-scan images are successfully obtained at 3 T MRI system.

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High-resolution Spiral-scan Imaging at 3 Tesla MRI (3.0 Tesla 자기공명영상시스템에서 고 해상도 나선주사영상)

  • Kim, P.K.;Lim, J.W.;Kang, S.W.;Cho, S.H.;Jeon, S.Y.;Lim, H.J.;Park, H.C.;Oh, S.J.;Lee, H.K.;Ahn, C.B.
    • Investigative Magnetic Resonance Imaging
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    • v.10 no.2
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    • pp.108-116
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    • 2006
  • Purpose : High-resolution spiral-scan imaging is performed at 3 Tesla MRI system. Since the gradient waveforms for the spiral-scan imaging have lower slopes than those for the Echo Planar Imaging (EPI), they can be implemented with the gradient systems having lower slew rates. The spiral-scan imaging also involves less eddy currents due to the smooth gradient waveforms. The spiral-scan imaging method does not suffer from high specific absorption rate (SAR), which is one of the main obstacles in high field imaging for rf echo-based fast imaging methods such as fast spin echo techniques. Thus, the spiral-scan imaging has a great potential for the high-speed imaging in high magnetic fields. In this paper, we presented various high-resolution images obtained by the spiral-scan methods at 3T MRI system for various applications. Materials and Methods : High-resolution spiral-scan imaging technique is implemented at 3T whole body MRI system. An efficient and fast higher-order shimming technique is developed to reduce the inhomogeneity, and the single-shot and interleaved spiral-scan imaging methods are developed. Spin-echo and gradient-echo based spiral-scan imaging methods are implemented, and image contrast and signal-tonoise ratio are controlled by the echo time, repetition time, and the rf flip angles. Results : Spiral-scan images having various resolutions are obtained at 3T MRI system. Since the absolute magnitude of the inhomogeneity is increasing in higher magnetic fields, higher order shimming to reduce the inhomogeneity becomes more important. A fast shimming technique in which axial, sagittal, and coronal sectional inhomogeneity maps are obtained in one scan is developed, and the shimming method based on the analysis of spherical harmonics of the inhomogeneity map is applied. For phantom and invivo head imaging, image matrix size of about $100{\times}100$ is obtained by a single-shot spiral-scan imaging, and a matrix size of $256{\times}256$ is obtained by the interleaved spiral-scan imaging with the number of interleaves of from 6 to 12. Conclusion : High field imaging becomes increasingly important due to the improved signal-to-noise ratio, larger spectral separation, and the higher BOLD-based contrast. The increasing SAR is, however, a limiting factor in high field imaging. Since the spiral-scan imaging has a very low SAR, and lower hardware requirements for the implementation of the technique compared to EPI, it is suitable for a rapid imaging in high fields. In this paper, the spiral-scan imaging with various resolutions from $100{\times}100$ to $256{\times}256$ by controlling the number of interleaves are developed for the high-speed imaging in high magnetic fields.

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