• 미생물학회지
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• 제28권3호
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• pp.199-203
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• 1990

남극 토양생태계 세균의 분포와 세균의 생화학적 특성을 알아보기 위해 King George섬의 세종기지(한국)와 Te-niente Jubany기지(아르헨티나) 주변의 토양 17점을 남극 하계 기간(1989년 2월) 동안 채취하여 종속영양 세균의 수오 채외 효소활성도를 측정하였다. 종속영양 세균수는 시료채취지역과 배양온도가 다른 조건에서 자란 세균의 경우에도 그 평균값이 비숫한 경향을 보이고 있으나 protease는 $4^{\circ}C$에서 자란 세균의 경우 92%로서 특히 높게 나타났다. 배양온도에 따라 매우 변화가 켰으며 산술평균값은 배양온도 $37^{\circ}C$, $25^{\circ}C$, $4^{\circ}C$에서 각각 $2.5\times 10^{4}$, $2.7\times 10^{7}$, $6.9\times 10^{5}$ CFU/$cm^{3}$soil로 나타났다

• Journal of Astronomy and Space Sciences
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• 제21권4호
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• pp.493-504
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• 2004

동아시아의 역사서에는 일식에 대한 기록들이 다른 천문현상들에 비해 많이 나타난다. 이것은 전통적으로 일식은 왕조의 운명과 연관되어있다는 정치적인 사상 때문이다. 조선시대까지도 태양은 임금을 상징하였고, 일식이 일어나면 일식이 무사히 지나가도록 임금이 제사하는 구식례(求食禮)을 지내곤 했다. 따라서 당시의 임금은 일식에 대한 정확한 예보를 얻는 것이 상당히 중요한 일이었다. 그러나 그럼에도 불구하고 조선 초기의 일식 예측은 잘 맞지가 않았다. 이에 세종은 당시 수도인 한양의 위치에 맞는 역법서(曆法書)인 칠정산내편과 칠정산외편을 편찬하였고, 이로 인해 비로소 조선의 자주적인 역법(曆法)이 확립되었다. 칠정산외편은 아라비아의 역법인 회회력(回回曆)을 기초로 해서 만들어진 역법으로 조선 초기의 일식 계산에서는 당시의 여러 역법 계산 결과보다 더 정확하였고, 현대적인 계산 방법과 비교하여 보아도 오차의 범위내에 잘 들어맞음을 알 수 있었다.

• 한국콘텐츠학회논문지
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• 제13권9호
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• pp.81-91
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• 2013

<청산별곡(靑山別曲)>은 고려시대에 지어진 작자 미상의 가요이며, <강보(降寶)>는 조선 세종이 종묘, 조회, 공연에 사용하기위해 새로 창제한 <발상(發祥)> 11곡 중의 한 곡이다. "세종실록(世宗實錄)"에 의하면 <발상>은 고취악과 향악에 의하여 창제되었다고 하였으므로 이 기록에 근거하여 이 논문은 <발상> 중 <강보>가 고려 향악인 <청산별곡>에 근거하여 창제되었음을 밝힌 논문이다. <강보>와 <청산별곡>의 선율을 비교 분석한 결과 48행의 <강보>는 10행의 <청산별곡>을 세 번 반복하였는데, 즉 <강보>의 1-16행, 17-32행, 33-48행에서 <청산별곡>이 세 번 반복하여 발췌되었고, <청산별곡>과 <강보>의 선율은 거의 같거나 유사함을 알 수 있었다. 세종 때 <발상> 중의 <강보>가 고려 향악인 <청산별곡>을 발췌하여 신악(新樂)으로 창제되었음을 이 연구에서 밝혀냈다.

• 대한지구과학교육학회지
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• 제5권2호
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• pp.139-147
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• 2012

The purpose of this study was to explain how extraordinary the scientific technology or our ancestor was from the modern perspective by remodeling the most unique astronomical instrument, So-ganui (小簡儀), developed in the Sejong Period (世宗時代) after being examined with contemporary and the principles of the science and observational technology would be properly understood and measured directly. When measuring the altitude of the sun and azimuth using So-ganui, it was adjusted with the horizontal coordinate system and measured using Jipyeonghwan (地平環), Ipeunhwan (立運環) and Guyhyeong (窺衡). Based such measuring principles, the measurement accuracy proposed using So-ganui are as follows. The remodeled So-ganui produced approximately ${\pm}0.29$ degrees error on average at high altitude while in measuring the azimuth degrees, there was difference of ${\pm}0.35$ degrees. Since the theoretically, the measurement error for So-ganui was ${\pm}0.5$ degrees, the remodeled So-ganui could accurately measure at the high altitude compared to So-ganui from the Sejong period. In the study, So-ganui, which has disappeared, has been remodeled in modern perspective to be used as the educational material to accurately understand the principles of science and measurement technology from the Sejong period. The findings could contribute to raising the reputation in the astronomical observations from the documents from the Sejong period. Furthermore, this study has materialized the celestial and sky our ancestors have viewed with the observational principles of their times, on the computer screen via a webcam, bringing out interest in the traditional science for the students.

• 대한지구과학교육학회지
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• 제5권1호
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• pp.1-7
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• 2012

The purpose of this study was to restore So-ganui(小簡儀), which is a unique astronomical instrument during Sejong period, so that its educational application can be sought. To achieve it, researcher researched the observation principle of our ancestors and the structure of So-ganui, and then restored So-ganui. The result is as following. First, So-ganui is the astronomical observation instrument which can not only measure the position of the celestial bodies in terms of function but also find out the height and distance of topography, and get the time. Second, restoration So-ganui is suitable for the students to learn as an inquiry activity of the observation information in the science curriculum and it would be used as the learning materials for the proper understanding of the science and measurement principle of our ancestors. This study would contribute to raising the level of pride in our scientific culture for the students and succeed the heritage of the science and culture.

• 한국프랜차이즈경영연구
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• 제5권2호
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• pp.51-67
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• 2014

인류 문명사에서 패권을 차지한 국가의 경우 지속적인 확장을 통해 문명을 발달시켜왔듯, 기업들 또한 끊임없이 소비자 마음을 차지하기 위한 '전쟁(Campaign)'을 치루고 있다는 점에서 동일하다. 국가나 기업이나 성공과 실패의 사례를 살펴보면 특정한 반복적인 '유형(Pattern)'을 찾아볼 수 있다. 본 논문은 세계적 프랜차이즈 기업인 버거킹의 성공과 실패요인을 '시장 동태성(dynamism)' 관점에서 파악하고 그 시사점에 대해 논의해 보았다. 기업의 성패는 한 국가의 패턴처럼 성장과 침식 및 정체 그리고 쇠퇴를 하거나 끊임 없는 자구책으로 재활성화를 통해 지속적인 성장을 추구한다. 버거킹 또한 성장기에는 공격적이고 창의적인 마케팅 활동으로 차별화된 버거킹만의 브랜딩을 성공적으로 전개해왔다. 그러나 창업주의 경영권 매각과 이후 연이은 경영권의 교체로 인해, 일관된 기업 철학과 브랜드 관리를 소홀히 할 수밖에 없었으며, 결국 웰빙 트렌드라는 외부 위협으로 인해 증시에서 상장 폐지되는 커다란 '위기(공명)'를 맞이하게 된다. 최근 들어 버거킹은 과거의 영광을 되찾기 위해 국내외 시장에서 공격적인 마케팅 활동을 전개하고 있으며, 세계 최고의 레스토랑을 지향함으로써 브랜드 자산 가치를 더욱 강화하고 있다. 버거킹의 브랜드 사례는 성공을 꿈꾸는 많은 프랜차이즈 기업들에게 '창의적이고 혁신적인 아이디어'가 세계적인 기업이 되는 데 왜 필요한지에 대해 새로운 시사점을 제공할 것이다.

• 천문학논총
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• 제27권2호
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• pp.29-37
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• 2012

In this paper, we study the structure of the Daegyupyo (大圭表, Large Gnomon) of the early Joseon dynasty. A Gyupyo (圭表, Gnomon that is Guibiao as pronounced in Chinese) is composed of a Pyo (表, Biao as pronounced in Chinese) making a shadow and a Gyu (圭, Gui as pronounced in Chinese) measuring its length. It is known that the Daegyupyo with the 40-feet height was constructed between the sixteenth to seventeenth year of the King Sejong reign (1444 - 1445) on the basis of the record of Yuanshi (元史, the History of the Yuan Dynasty). By analyzing historical documents such as Joseonwangjosillok (朝鮮王朝實錄, the Annals of the Joseon Dynasty), Yuanshi, and Jegaryeoksangjip (諸家曆象集, a work written by Sunji Lee), we found a possibility that the Ji (池, a pond) on the Gyu was located in the north side of the Pyo. This structure is different from that in previous studies, but is in a good agreement with that of the 40-feet Guibiao remaining in Dengfeng (登封) of China. Regarding to the Hoengyang (橫梁, cross-bar), we suggest that it was set up by double 5-feet supporting arms apart from the north tip of the Pyo in the radial direction. The 3:4:5 ratio in a rectangular triangle was used to place the Heongyang on the top of the Pyo at a distance of 4-feet (3-feet) in the vertical (horizontal) direction. We also discuss the structural problem when the Hoengyang is positioned apart from the top of the Pyo by supporting arms. In conclusion, we think that this study should be useful in restoring the Daegyupyo of the Joseon dynasty.

• Ocean and Polar Research
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• 제26권2호
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• pp.133-143
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• 2004

For the purpose of understanding the cloud scattering effect of UV radiation at King Sejong station In West Antarctica, we analyzed the data measured by UV-Biometer at surface and compared its result with solar radiation model. The parameterization of UV radiation by cloud ice crystal was applied to solar radiation model and the sensitivity of this model for the variation of ice crystal was tested. The cloud optical thickness was calculated by using this solar radiation model. It was compared the result from calculation with CERES satellite data. In solar radiation model, the UV radiation was less scattered with increase of ice crystal size in cloud and this scattering effect was more important to UV-A radiation than Erythemal UV-B radiation. But scattering effects by altitude of cloud was not serious. The calculated cloud optical thicknesses in Erythemal UV-B and UV-A region were compared with CERES satellite data and the result by UV-A was more accurate than Erythemal UV-B region.

• 대기
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• 제16권4호
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• pp.333-342
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• 2006

The long-term trends of global solar irradiance, air temperature, specific humidity and cloudiness measured at King Sejong station, Antarctica, during the period of 1988-2004, have been investigated. A statistically insignificant decrease, -0.21 $Wm^{-2}yr^{-1}$ (-0.26 %$yr^{-1}$, P<0.5) in global solar irradiance was found in an analysis from the time series of the monthly mean values, except for the increasing trends only in two months of January and June. The trends in irradiance are directly and inversely associated with the cloudiness trends in annual and monthly means. The trends in surface air temperature show a slight warming, $0.03^{\circ}Cyr^{-1}$ (1.88 %$yr^{-1}$, P<0.5) on the annual average, with cooling trend in the summer months and the warming in the winter. The exact relationship, if any, between the irradiance and temperature trends is not known. No significant tendency was found in specific humidity for the same periods. Recent (1996-2004) erythermal ultraviolet irradiance shows decreasing trend in annual mean, -0.15 $mWm^{-2}yr^{-1}$ (-1.18 %$yr^{-1}$, P<0.1) which is about five times the trends of global solar irradiance. The ratio of erythermal ultraviolet to global solar irradiance shows remarkable seasonal variations with annual mean value of 0.01 % and a peak in October and November, showing the increase of ultraviolet irradiance resulting from the Antarctic ozone hole. The sensitivity of global solar irradiance to the change in cloudiness is roughly $13%oktas^{-1}$ which is about twice of the value at the South Pole due to the difference in the average surface reflectance between the two stations. Much more sensitive values of $59%oktas^{-1}$ was found for erythermal UV irradiance than for the global solar irradiance.

• 대기
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• 제16권2호
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• pp.111-124
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• 2006

This study examines seasonal variability of the surface energy balance at the King Sejong Station, Antarctica, using measurements and estimates of the components related to the balance for the period of 1996 to 2004. Annual average of downward shortwave radiation at the surface is 81 $Wm^{-2}$ which is 37% of the extraterrestrial value, with the monthly maximum of 188 $Wm^{-2}$ in December and the minimum of 8 $Wm^{-2}$ in June. These values are relatively smaller than those at other stations in Antarctica, which can be attributed to higher cloudy weather conditions in Antarctic front zone. Surface albedo varies between ~0.3 in the austral summer season and ~0.6 in the winter season. As a result, the net shortwave radiation ranges from 117 $Wm^{-2}$ down to 3 $Wm^{-2}$ with annual averages of 43 $Wm^{-2}$. Annual average of the downward longwave radiation shows 278 $Wm^{-2}$, ranging from 263 $Wm^{-2}$ in August to 298 $Wm^{-2}$ in January. The downward longwave radiation is verified to be dependent strongly on the air temperature and specific humidity, accounting for 74% and 79% of the total variance in the longwave radiation, respectively. The net longwave radiation varies between 25 $Wm^{-2}$ and 40 $Wm^{-2}$ with the annual averages of 30 $Wm^{-2}$. Accordingly, the annual average energy balance is dominated by radiative warming of a positive net all-wave radiation from September to next March and radiative cooling of a negative net all-wave radiation from April to August. The net all-wave radiative energy gain and loss at the surface is mostly balanced by turbulent flux of sensible and latent heat. The soil heat flux is of negligible importance in the surface energy balance.