• Title/Summary/Keyword: error tomogram

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Study of Seismic Data Processing Method for Tunnel Detection (터널탐사를 위한 탄성파 자료처리법에 관한 연구)

  • Suh, Baek-Soo;Sohn, Kwon-Ik
    • The Journal of Engineering Geology
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    • v.17 no.4
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    • pp.633-642
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    • 2007
  • Traveltime tomogram is generally used for interpretation of seismic tunnel data. In the field data, the first arrival traveltime is less dispersive with increasing source-receiver seperation compared to theoretical model data. So the result of calculation can be serious despite of small errors such as traveltime picking. In this study, amplitude method and error tomogram method are tried to overcome these problems. This method will help the interpretation of the data from the underground tunnel.

Tunnel Detection Using Seismic Multi-source Amplitude Data (복수파동원의 탄성파 진폭법을 이용한 터널탐사에 관한 연구)

  • Suh, Baek-Soo;Kim, Hoon;Sohn, Kwon-Ik
    • Geophysics and Geophysical Exploration
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    • v.10 no.4
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    • pp.377-382
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    • 2007
  • Several prospecting methods have been used to detect deep seated small tunnel in Korea. Tunnel interpretation of seismic method has been performed mainly by wave traveltime inversion method. But it often gives inacurate solution for the exact tunnel position because of the short distance between two measuring boreholes and picking errors of first arrivals. In this study, "error tomogram" was proposed to detect tunnel position and applied to theoretical and field dat using multi-source amplitude data.

A Study to Estimate the Onset Time of an Impulsive Borehole Source (임펄시브형 시추공용 탄성파 송신신호 시작시간 측정에 관한 연구)

  • Lee, Doo-Sung
    • Geophysics and Geophysical Exploration
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    • v.6 no.2
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    • pp.71-76
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    • 2003
  • Accurate estimation of the first arrival travel time is an essential task to obtain a high resolution velocity tomogram. Accuracy of the travel time estimation may be influenced by two factors; geological and mechanical. A serious mechanical factor is the source firing control problems. We found the control problems in the records generated by tome impulsive borehole sources. The problems are; irregular firing control and uncertainty in estimation of the absolute firing-times shown in records. Definitely, the time difference will introduce an error to the first arrival times, and accordingly; it will cause some distortion in the resulting velocity tomogram. A method to determine the firing time is suggested here. The method determines the optimum onset time by comparing the horizontal and the NMO velocity with various amount of delay time adjustment.

Development of Medical Ultrasound Imaging Techniques for Tissue Characterization (Attenuation Effect on Measurement and Tomography of Nonlinear Parameter) (조직 정량화를 위한 의용 초음파 영상 기술 개발(비선형 파라미터의 측정 및 단층영상에 미치는 감쇠의 영향))

  • 이현주;이강호;최종호;최종수
    • Journal of the Korean Institute of Telematics and Electronics
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    • v.27 no.12
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    • pp.1916-1924
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    • 1990
  • In this paper attenuation effect on the measurement and the tomography of nonlinear parameter is discussed. We perform computer simulation with the method using harmonic components and the method using secondary wave components, and then estimate attenuation effect through the results and compare two measurement techniques. According to simulation result the attenuation effect is more intensive as large n and \ulcorner, and the degree of the attenuation effect is represented as error functions. In the aspect of measuremnet techniques, the method using secondary wave components is more insensitive to attenuation effect than the method using harmonic compnents. We obtain the same result in the nonlinear tomography, and show that the attenuation compensive filter is required because the whole tomogram is affected by frequency dependent attenuation(or nonlinear attenuation)

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Tomogram Enhancement using Iterative Error Correction Algorithm

  • Ko, Dae-Sik;Park, Jun-Sok
    • The Journal of the Acoustical Society of Korea
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    • v.15 no.4E
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    • pp.9-13
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    • 1996
  • We developed an iterative algorithm which could improve the resolution of reconstructed tomograms having random attenuation patterns and analyzed the limitation of this algorithm. The simple back-and forth propagation algorithm has depth resolution about four wavelengths. An iterative algorithm, based on back-and-forth propagation, can be used to improve the resolution of reconstructed tomograms. We analyzed the wavefield for multi-layered specimen and programmed iterative algorithm using Clanguage. Simulation results show that the images get clearer as the number of iterations increases. Also, unambiguous images can be reconstructed using this algorithm even when the layer separation is only two wavelengths. However, this iteration algorithm comes up with an incorrect solution for the number of projections less than five.

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Endobronchial Hamartoma - 1 case - (기관지내 발생한 폐과오종 - 1례 보고 -)

  • 문석환
    • Journal of Chest Surgery
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    • v.22 no.3
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    • pp.473-477
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    • 1989
  • Pulmonary hamartoma has been considered as rare disease, which consists of lung tumor less than 1 %. Originally described by Albrecht in 1904, hamartoma is tumor like malformation-abnormal mixing of the normal components of organ-and is applied also to tumor found in many organs other than the lung. Lately, the major conclusions are that pulmonary hamartoma is neoplastic rather than developmental error in origin. Because pulmonary hamartoma frequently mimics lung cancer, especially in cancer-risk age groups, its clinical significance is great. Recently, we experienced 1 cases of endobronchial hamartoma which located at the right main stem bronchus. The patient was a 54 year old male who was admitted due to symptoms of fever 4 chilliness and dyspnea. Radiologic studies such as chest x-ray, chest tomogram and chest C-T scan revealed that the nearly total haziness of the right lung was caused by endobronchial tumor. The mass was considered as a benign by bronchoscopic exam, so we removed it surgically by tracheobronchotomy without pulmonary resection. Postoperative chest x-ray revealed satisfactory reexpansion of previous collapsed right lung. The patient discharged uneventfully.

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Initial Study of a Wire Mesh Tomography Sensor for Liquid/Gas Component Investigation

  • Rahiman, M.H.F.;Siow, L.T.;Rahim, R.A.;Zakaria, Z.;Ang, Vernoon
    • Journal of Electrical Engineering and Technology
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    • v.10 no.5
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    • pp.2205-2210
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    • 2015
  • Experimental studies have been carried out to study the principle operation of the conductive type wire-mesh tomography sensor and analyse the wire-mesh tomography sensor for the liquid/gas two-phase flow interface and void fraction distribution in a process column. The measurement of the two-phase flows in the process column is based on the cross-sectional local instantaneous conductivity. The sensor consists of two planes of parallel electrode wires with 16 electrodes each and was placed orthogonally with each plane. The sensor electrode wires were made of tinned copper wire with an outer diameter of 0.91 mm which stretched over the sensor fixture. Therefore, this result in the mesh grid size with 5.53×5.53mm2. The wire-mesh sensor was tested in a horizontal liquid/gas two-phase flows process column with nominal diameter of 95.6 mm and the sampling frequency of 5882.3529 Hz. The tomogram results show that the wire-mesh tomography provides significant results to represent the void fraction distribution in the process column and estimation error was found in the liquid/gas interface level

Model Simulation for Assessment of Image Acquisition Errors Affecting Electron Tomography (영상 자료 획득시의 오류가 전자토모그래피 결과에 미치는 영향 고찰-모델 시뮬레이션을 중심으로)

  • Jou, Hyeong-Tae ;Lee, Su-Jeong;Kim, Youn-Joong;Suk, Bong-Chool
    • Applied Microscopy
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    • v.38 no.1
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    • pp.51-61
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    • 2008
  • This simulation study examined the effect of data acquisition error including the data type of TEM image, and incident beam intensity of the tilt series on 3D tomograms. Simulation was performed with the 3D head phantom model of Kak and Slaney, and the slightly modified 3D head phantom model with enhanced difference in absorption coefficients. Reconstructed tomogram for the original head phantom model using 8-bit gray-scale image was distorted with extremely high level of noise, while an acceptable result was obtained for the modified model. The results for the original model using wrong formulation for the transmitted beam intensity was proved to be incorrect. The high level of noise along the z direction was found in case of the modified model. On the other hand, the wrong value of incident beam intensity in both models gave distorted results. In order to reconstruct an artifacts-free 3D structure from the projections with invisible features in electron tomography, the 16-bit projection images should be used with the correct incident beam intensity which is applied to Beer's law.

Determination of Stereotactic Target Position with MR Localizer (자기공명영상을 이용한 두개부내 표적의 3차원적 위치결정)

  • 최태진;김옥배;주양구;서수지;손은익
    • Progress in Medical Physics
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    • v.7 no.2
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    • pp.67-77
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    • 1996
  • Purpose: To get a 3-D coordinates of intracranial target position was investicated in axial, sagittal and coronal magnetic resonance imaging with a preliminary experimented target localizer. Material and methods : In preliminal experiments, the localizer is made of engineering plastic to avoid the distrubance of magnetic field during the MR image scan. The MR localizer displayed the 9 points in three different axial tomogram. The bright signal of localizer was obtjained from 0.1~0.3% of paramagnetic gadolinium/DTPA solution in T1WI or T2WI. In this study, the 3-D position of virtual targets were examined from three different axial MR images and the streotactic position was compared to that of BRW stereotactic system in CT scan with same targets. Results: This study provided the actual target position could be obtained from single scan with MRI localizer which has inverse N-typed 9 bars. This experiment was accomplished with shimming test for detection of image distortion in MR image. However we have not found the image distortion in axial scan. The maximum error of target positions showed 1.0 mm in axial, 1.3 mm for sagittal and 1.7 mm for coronal image, respectivelly. The target localization in MR localizer was investicated with spherical virtual target in skull cadaver. Furthermore, the target position was confirmed with CRW stereotactic system showed a 1.3 mm in discrepancy. Summary : The intracranial target position was determined within 1.7 mm of discrepancy with designed MR localizer. We found the target position from axial image has more small discrepancy than that of sagittal and coronal image.

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