• 대한방사선기술학회지:방사선기술과학
• /
• 제45권2호
• /
• pp.159-164
• /
• 2022

The study developed a radiation dose measurement program in the radiology laboratory to measure how much exposure the students are exposed to during the radiology class, to request for the improvement and the revision of the current Nuclear Safety Act. The experimental program is shown in the following figure, and experiments were conducted to determine the degree of radiation exposure in the control room with a lead gown at a distance of 1 m, 2 m, and 1 m, and in a control room with a radiographic lead glass wall. The duration of the experiment was 3 months from April to June, when radiation imaging practice classes were conducted, and 128 hours of imaging practice per month were conducted. In order to find out the dose of radiation dose during radiology imaging practice class, the experiment was carried out from April to June for 3 months, and according to the program, the results of exposure dose were 0.34 mSv at 1 m distance, 0.01 mSv at shielding of lead gown at 1 m distance, 0.16 mSv at 2 m distance, and 0.01 mSv at control room with radiation lead glass wall. The exposure dose from the test results was much below the annual general public limit dose of 1 mSv. The restriction on the operation of the radiation equipment in the practice of the students is a regulation that infringes the right of students to learn, and amendments or exemptions of Nuclear Safety Act should be enacted to ensure that it does not violate the fundamental right to learn for students in radiology.

• 대한원격탐사학회:학술대회논문집
• /
• 대한원격탐사학회 2005년도 Proceedings of ISRS 2005
• /
• pp.667-670
• /
• 2005

Ground control points(GCPs) can be extracted from SAR data given precise orbit for DTM generation using optic images and other SAR data. In this study, we extract GCPs from ERS SAR data and SRTM DEM. Although it is very difficult to identify GCPs in ERS SAR image, the geometry of optic image and other SAR data are able to be corrected and more precise DTM can be constructed from stereo optic images. Twenty GCPs were obtained from the ERS SAR data with precise Delft orbit information. After the correction was applied, the mean values of planimetric distance errors of the GCPs were 3.7m, 12.1 and -0.8m with standard deviations of 19.9m, 18.1, and 7.8m in geocentric X, Y, and Z coordinates, respectively. The geometries of SPOT stereo pair were corrected by 13 GCPs, and r.m.s. errors were 405m, 705m and 8.6m in northing, easting and height direction, respectively. And the geometries of RADARS AT stereo pair were corrected by 12 GCPs, and r.m.s. errors were 804m, 7.9m and 6.9m in northing, easting and height direction, respectively. DTMs, through a method of area based matching with pyramid images, were generated by SPOT stereo images and RADARS AT stereo images. Comparison between points of the obtained DTMs and points estimated from a national 1 :5,000 digital map was performed. For DTM by SPOT stereo images, the mean values of distance errors in northing, easting and height direction were respectively -7.6m, 9.6m and -3.1m with standard deviations of 9.1m, 12.0m and 9.1m. For DTM by RADARSAT stereo images, the mean values of distance errors in northing, easting and height direction were respectively -7.6m, 9.6m and -3.1m with standard deviations of 9.1m, 12.0m and 9.1m. These results met the accuracy of DTED level 2

• Journal of Biosystems Engineering
• /
• 제7권2호
• /
• pp.30-35
• /
• 1983

동력분무기(動力噴霧機)의 능률적(能率的)인 방제작업(防除作業)을 실시(實施)하기 위하여 호오스 길이 및 토출압력별(吐出壓力別)로 도달성(到達性)에 영향(影響)을 미치는 제인자(諸因子)를 구명(究明)하고자 균등분포율(均等分布率) 10%이상(以上)의 최대도달거리(最大到達距離), 균등분포율(均等分布率) 50%이상(以上)의 유효도달거리, 균등분포율(均等分布率)에 의한 최다낙하량분포중심위치(最多落下量分布中心位置)및 분무입자(噴霧粒子), 압력(壓力)의 변화등(變化等)을 측정(側定)하여 분석(分析)한 결과(結果)를 종합(綜合)하면 다음과 같다. 1. 분무(噴霧)호오스의 길이가 증가(增加)함에 따라 관마찰(管摩擦)에 의한 손실(損失)로 최다낙하량분포중심위치(最多落下量分布中心位置)가 100m 길이에서 0.5m 짧아지는 경향을 보였고, 최대도달거리(最大到達距離)는 100m 길이에서 13mm 호오스가 0.5m, 8.5mm 호오스가 1.0m, 유효도달거리는 각각(各各) 0.5m 감소(減所)하였다. 2. 상용압력(常用壓力)(28kg/$cm^2$)하(下)에서 분무(噴霧)호오스의 길이를 최소(最小)로 하더라도 유효도달거리는 14m이상(以上) 초과(超過)하기 어려울 것으로 판단(判斷)되며, 13mm 호오스가 8.5mm 호오스에 비(比)하여 1.0m정도(程度) 도달거리(到達距離)가 증가(增加)하였다. 3. 13mm 호오스에서는 토출압력(吐出壓力)이 8kg/$cm^2$ 상승(上昇)함에 따라 최다낙하량분포중심위치(最多落下量分布中心位置)가 0.5m(1kg/$cm^2$당(當) 약(約) 0.06m) 연장(延長)되었고 최대도달거리(最大到達距離)는 2.0m, 유효도달거리는 0.5m 증가(增加)하였다. 또 8.5mm 호오스에 있어서는 토출압력(吐出壓力) 변화(變化)가 도달성(到達性)에 거의 영향(影響)을 미치지 않았다. 4. 분무(噴霧)호오스 길이의 감소(減少) 및 토출압력(吐出壓力)의 증가(增加)가 분무입자(噴霧粒子)의 미립화효과에 크게 기여(寄與)하고, 분무입경(噴霧粒徑)은 분무압력(噴霧壓力)과 호오스 내경(內徑)의 크기에 상호관련성(相互關聯性)이 있는 것으로 생각된다. 5. 토출압력(吐出壓力) 25~33kg/$cm^2$에 대(對)한 분무(噴霧)호오스 끝에서의 압력강하(壓力降下)는 13mm 호오스가 100m 길이에서 3~7kg/$cm^2$로 10m 길이당(當) 2%정도(程度)의 비율(比率)로 압력(壓力)이 강하(降下)하였다.

• Journal of Astronomy and Space Sciences
• /
• 제26권4호
• /
• pp.421-424
• /
• 2009

The $JHK_S$ magnitudes of the red giant branch tip (TRGB) and the distance moduli of the nearby dwarf irregular galaxy IC 1613 have been determined from the near-infrared luminosity functions (LFs) of the resolved stars in the galaxy. Applying a Savitzky-Golay filtering, we derived the second derivatives of the LFs, and estimated the apparent magnitudes of the TRGB as $m_J\;=\;19.1$, $m_H\;=\;18.4$, and $m_{Ks}\;=\;18.0$. The mean values of the theoretical absolute magnitudes of the TRGB were measured by using the Yonsei-Yale isochrones with a metallicity range of -2.1 < [Fe/H] < -0.5 and age of 12 Gyr. The derived values of near-infrared TRGB distance moduli for IC 1613 are (m - M) = $24.12{\pm}0.25$, $24.20{\pm}0.44$, and $24.00{\pm}0.52$ for J, H, and $K_S$ bands, respectively.

• Journal of the Korean Statistical Society
• /
• 제27권1호
• /
• pp.113-132
• /
• 1998

In this paper, we consider a minimum distance (M.D.) estimation based on kernels for U-statistics. We use Cramer-von Mises type distance function which measures the discrepancy between U-empirical distribution function(d.f.) and modeled d.f. of kernel. In the distance function, we allow various integrating measures, which can be finite, $\sigma$-finite or discrete. Then we derive the asymptotic normality and study the qualitative robustness of M. D. estimates.

• 대한수학회논문집
• /
• 제28권4호
• /
• pp.833-850
• /
• 2013

We present an algorithm for computing the Hausdorff distance between two parametric curves in $\mathbb{R}^n$, or more generally between two sets of parametric curves in $\mathbb{R}^n$. During repeated subdivision of the parameter space, we prune subintervals that cannot contain an optimal point. Typically, our algorithm costs O(logM) operations, compared with O(M) operations for a direct, brute-force method, to achieve an accuracy of $O(M^{-1})$.

• 한국환경생태학회지
• /
• 제12권4호
• /
• pp.361-372
• /
• 1999

한려해상국립공원내 거제도지구 곰솔-소나무림의 식물군집구조와 분포밀도를 규명하기 위해 32개 조사구(10m$\times$10m)를 설정하였다 DCA분석 결과 곰솔군집, 곰솔-소나무군집, 소나무군집으로 분리되었고, 각 군집의 천이경향은 불명확하였다. 조사구별 교목층의 곰솔과 소나무의 분포밀도 현황에 대해 단순회귀분석을 실시한 결과는 다음과 같았다. 분포거리 (m) = 0.094$\times$흉고직경 (cm)-0.1248, 개체수=1,820.1$\times$흉고직경 $(cm)<^{-1.6734}$ , 분포거리 (m) = 6.6805$\times$$개체수^{-0.5425}$

• 한국산학기술학회논문지
• /
• 제11권4호
• /
• pp.1248-1253
• /
• 2010

본 논문은 SDS-TWR(Symmetric Double-Sided Two-Way Ranging)의 Ranging 오차를 보정하기 위하여 균등거리비율 개념을 적용한 위치인식 보정 알고리즘인 AEDR(Algorithm for localization using the concept of Equivalent Distance Rate)을 제안하고, 위치인식 실험을 통해 위치인식 측정 성능을 분석하였다. SDS-TWR의 Ranging 오차는 실험에 의하면 비콘노드와 이동노드의 특정 거리구간에서 평균 1m~8m로 측정되었다. 그러나 제안한 AEDR에 의한 위치인식 성능은 실험을 통해 전체적으로 교내 강당과 복도 모두에서 SDS-TWR 보다 4배 정도 우수하였으며, 측정된 3~10m 이상의 위치인식 오차를 평균 2m 내외로, 3m 이내의 위치인식 오차를 평균 1m 내외로 각각 감소시킬 수 있음을 확인하였다. 특히 AEDR은 LOS(Line Of Sight) 보다 NLOS(Non Line Of Sight)에서 훨씬 더 위치인식 보정 성능이 우수함을 나타내며, 대부분의 센서 네트워크의 환경이 NLOS임을 고려할 때 AEDR이 실제환경에서의 위치인식에 큰 도움을 줄 수 있다고 판단된다.

• 아시안잔디학회지
• /
• 제20권2호
• /
• pp.203-211
• /
• 2006

본 연구는 천연잔디, 인조잔디 및 맨땅 축구장이 축구 경기력에 미치는 영향을 구명하고자 하였다. 천연잔디 축구장은 한지형 잔디(켄터키 블루그래스 80%+퍼레니얼 라이그래스 20%)와 중엽형 한국잔디로 조성된 축구장이며, 인조잔디 축구장은 코니그린 $DV5000^{TM}$으로 조성하였고 맨땅 축구장은 마사토로 조성되었다. 축구 경기력 분석을 위한 볼 구름거리(m)와 수직 볼리바운드(m)는 2005년과 2006년 건국대학교 스포츠과학타운에서 조사하였다. 본 실험에 사용된 공은 한국축구협회(Korea Football Association)에서 공인된 Hummel Air Vision #1을 사용하였고 공기압은 1.0 1bs를 유지하였다. 볼 구름거리는 맨땅 축구장(13.6m) > 인조잔디 축구장(11.4m) > 한지형 잔디축구장(7.8m) > 한국잔디 축구장(4.7m) 순으로 길었다. 또한 볼 구름거리는 잔디의 사용빈도가 적을수록, 잔디의 직립정도가 강할수록, 잔디의 밀도가 높을수록 짧아지는 경향이었다. 수직 볼리바운드 역시 맨땅 축구장(1.0m) > 인조잔디 축구장(0.98m) > 한지형 잔디 축구장(0.68m) > 한국잔디축구장(0.4m) 순으로 높았다. 수직 볼 리바운드는 잔디의 사용빈도가 적을수록, 잔디의 직립정도가 강할수록, 잔디의 밀도가 높을수록 낮아지는 경향이었다. 표준관리가 되는 한지형 잔디 축구장은 조성연수에 따른 볼 구름거리와 수직 볼 리바운드에 미치는 영향이 적었다. 반면 표준 관리가 하지 않은 한국잔디 축구장은 오래 될수록 볼 구름거리는 길어졌고 수직 볼 리바운드 역시 높았다.

• 대한치과보철학회지
• /
• 제24권1호
• /
• pp.17-26
• /
• 1986

The purpose of this study was to investigate true hinge axis location with different times (8:00-9:00 A.M.,2:00-3:00 P.M.) and with experienced and inexperienced groups. 25 subjects, 23-27 years of age , with functionally acceptable occlusion, and no clinical signs of temporomandibular joint dysfunction were participated in this study. In this study arbitrary hinge axis point was located 13 mm anterior to the posterior margin of the tragus on a line from the center of the tragus to the outer canthus of the eye and then the true hinge axis point was located with T.M.J. hinge axis locator. The discrepancies of distance and the direction between true hinge axis point and arbitrary hinge axis point were studied according to times and two groups. The results obtained were as follows : 1. The mean distance from arbitrary hinge axis point to the true hinge axis point on the right and left sides was as follows : Experienced group: linear distance: $1.228{\pm}3.145mm$, vertical distance: $-1.128{\pm}2.515mm$, horizontal distance: $-0.484{\pm}1.806mm$. Inexperience group: linear distance: $1.628{\pm}3.158mm$, vertical distance: $-1.169{\pm}2.090mm$, horizontal distance: $-1.133{\pm}2.367mm$. Horizontal distance between experienced and inexperienced groups was significant statistically. (P<0.1) 2. True hinge axis points located within 5 mm of arbitrary hinge axis point were 86.7% in the experienced group and 84% in the inexperienced group. 3. For experienced operator A with time, the mean distance from arbitrary hinge axis point to true hinge axis point was as follows: Horizontal distance: AM: $-0.613{\pm}1.966mm$, PM: $-0.860{\pm}2.156mm$. Vertical distance: AM: $-0.886{\pm}2.518mm$, PM : $-1.226{\pm}2.660mm$. True hinge axis points had tendency to be located posterior-inferiorly to tragus-canthus line in the afternoon than in the morning, but there was not significant statistically. (P>0.1)