• Proceedings of the KOSOMBE Conference
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• v.1985 no.06
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• pp.20-21
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• 1985

본 연구에서는 다중채널의 방대한 생체 신호 정보량을 전화회선을 이용하여, 효율적으로 전송하기 위한 생체 신호 데이터 전송 시스템을 설계한다. 특히 생체 신호 데이터를 신속하게 전송하기 위하여 가변어장 data frame을 사용하였고, 생체 신호 전처리 unit와의 interface 등을 검토하였다.

• The Journal of Korea Institute of Information, Electronics, and Communication Technology
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• v.6 no.3
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• pp.141-147
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• 2013

An artificila fish-reef is a artificail structure installed at marine ranching under the littoral sea. The artificial fish-reefs provide the function of fish spawning ground, habitation, nursery ground, and enhance the productivity of fising industry devastated by environmental pollution. After the installation of artificila fish-reef, continuous monitoring is demanded to check the validity of artificila fish-reef plan. However, the support of follow-up management is impossible because of the lack of a huge budget and professional manpower. Therefore, the artificial fish-reef combined with IT devices can be controled IT devices through the IT artificial fish-reef management system, and collect the marine environment information for the fair management. This paper shows the example of systematization for the management of artificial fish-reef based on the marine rancing management system.

• Journal of the Korea Institute of Information and Communication Engineering
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• v.3 no.4
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• pp.695-704
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• 1999

This paper presents the new developmental direction for fisheries policy in Korea. Korea is changing strang fisheries nation, the fact is that korea cannot effectively cope with changing fisheries situation and various fisheries difficulties, because the fisheries policy system is dispersed to each parts of the government. The results of this study is as follow: the fisheries policy in future must be able to unify of Ministry of Maritime Affairs and Fisheries, all fisheries offices must be able to relation, the regulation of fisheries policy must relieve, a coastal fishery must be able to reproduction, change of fishery structure must be able to raising fishery, consumption of fishery must be able to improvement, live of fishing village must be able to betterment, overseas fishing grounds must have to security.

• Journal of the Korean Society of Fisheries and Ocean Technology
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• v.35 no.2
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• pp.136-146
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• 1999

The telemetry system for the oxygen, pH, turbidity and the distribution ecology of fishes was constructed by the authors in order to product and manage effectively in shallow sea culture and setnets fisheries, and then the experiments for the telemetry system carried out at the culturing fishing ground in coast of Sanyang-Myon, Kyoungsangnam-Do and the set net fishing ground located Nungpo bay in Kojedo province respectively from October, 1997 to June 1998.As those results, the techniques suggested in the telemetry system for which find out the relationship between the physical and chemical environment in the sea and the distribution ecology of fishes gave full display its function, and its system could be operated as real time system. This research can also provide base-line data to develope a hybrid system unifying the marine environment information and the fisheries resources information in order to manage effectively coastal fishing ground.

• Journal of the Korea Institute of Information and Communication Engineering
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• v.15 no.3
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• pp.740-746
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• 2011

The variations of catch of anchovy and saury due to oceanic climate change in the Korean Seas were studied. This study area was $31^{\circ}{\sim}38^{\circ}$ N and $124^{\circ}{\sim}132^{\circ}$ E. And data (seawater temperature, salinity, dissolved oxygen) is used from NFRDI (National Fisheries Research and Development Institute) and SST (Sea Surface temperature) obtained to satellite images (NOAA/AVHRR) during 2000 to 2009. The spatial characteristics are analyzed by GIS (Geographic Information System). The results showed that the average of seawater temperature in the depth of 20m increased $1.45^{\circ}C$ in the South Sea and $0.83^{\circ}C$ in the East Sea, respectively. The maximal catch of anchovy was highest in summer (July~September) and winter (December~March), respectively, in compared with spring (April~June). Catch of anchovy has increased since 2000. The maximal catch of saury was highest in spring (May~June), in compared with spring (August~September). The increment of seawater temperature contributed to increase the catch of anchovy, but catch of saury was decrease in the same times.

• KIISE Transactions on Computing Practices
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• v.23 no.3
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• pp.171-176
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• 2017

Recently, several information-technology research projects such as those for high-performance computing, the cloud service, and the DevOps methodology have been advanced to develop the efficiency of satellite data-processing systems. In March 2019, the Geostationary Ocean Color Imager II (GOCI-II) will be launched for its predictive capability regarding marine disasters and the management of the fishery environment; moreover, the GOCI-II Ground Segment (G2GS) system for data acquisition/processing/storing/distribution is being designed at the Korea Ocean Satellite Center (KOSC). The G2GS is composed of the following six functional subsystems: data-acquisition subsystem (DAS), data-correction subsystem (DCS), precision-correction subsystem (PCS), ocean data-processing subsystem (ODPS), data-management subsystem (DMS), and operation and quality management subsystem (OQMS). The G2GS will enable the real-time support of the GOCI-II ocean-color data for government-related organizations and public users.

• Proceedings of the Korea Water Resources Association Conference
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• 2012.05a
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• pp.816-816
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• 2012

최근 우리나라는 기후변화와 이상기후 현상 등의 영향으로 홍수에 대한 위험이 커지고 있다. 홍수에 의해 발생하는 인명 및 재산피해를 최소화하기 위해서는 구조적 및 비구조적 대책 등을 통한 치수정책 수립이 필요하며, 대표적인 비구조적 대책으로는 홍수위험지도(flood hazard map) 제작 등이 있다. 홍수위험지도는 홍수시 침수범위, 침수심 등의 정보를 지도상에 표시하고 있으므로 홍수피해가 발생가능한 공간적 범위를 나타내는 것이다. 홍수위험지도는 침수정보 뿐만 아니라 대피로, 대피처 등 홍수시 피난정보도 함께 나타낼 수 있으므로 홍수발생시 인명 피해를 최소화하기 위하여 활용될 수 있다. 또한 홍수피해 예상범위를 미리 추정할 수 있으므로 피해가능 지역의 특성을 고려하여 구조적 치수계획 수립의 적절한 기준을 제시할 수 있다. 즉, 침수 가능지구 내의 사회적, 경제적, 문화적 중요도를 평가함으로써 지역 특성을 고려한 선택적 홍수방어에 활용될 수 있는 것이다. 본 연구에서는 이러한 중요도 중 홍수피해 예상인구에 대한 현실적인 계산 방법을 제안하고자 한다. 홍수가 발생하여 침수가 예상되는 지역에서 사람이 실제 거주하는 면적을 고려하는 방법은 토지등기부의 지목을 활용하는 것이다. 토지지목은 토지의 종류를 사용목적에 따라 구분한 명칭이며,"측량, 수로조사 및 지적에 관한 법률" 제67조에서 전 답 과수원 목장용지 임야 광천지 염전 대(垈) 공장용지 학교용지 주차장 주유소용지 창고용지 도로 철도용지 제방(堤防) 하천 구거(溝渠) 유지(溜池) 양어장 수도용지 공원 체육용지 유원지 종교용지 사적지 묘지 잡종지 등 28가지 항목으로 구분된다. 여기서 대(垈) 지목은 영구적 건축물 중 주거 사무실 등의 부지를 의미하므로 상주인구가 거주하는 지역으로 가정할 수 있다. 침수가 예상되는 지역에서 대(垈) 지목의 면적을 고려하여 계산된 인구수와 단순 면적비로 계산된 인구수를 비교한 결과, 도시화의 비율이 높은 지역일수록 단순 면적비에 비해 인구수가 높게 계산되었고, 농경지 및 산지가 발달된 지역일수록 단순 면적비에 비해 인구수가 낮게 계산되었다. 따라서 침수가 예상되는 지역의 인구수를 예측할 경우 토지지목 중 대(垈) 지목의 면적을 고려하여 계산하는 것이 보다 합리적인 홍수피해 예상인구를 계산하는 방법으로 판단된다.

• Ocean and Polar Research
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• v.41 no.2
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• pp.107-120
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• 2019

The frequency analysis of scientific terms using bibliographic information is a simple concept, but as relevant data become more widespread, manual analysis of all data is practically impossible or only possible to a very limited extent. In addition, as the scale of oceanographic research has expanded to become much more comprehensive and widespread, the allocation of research resources on various topics has become an important issue. In this study, the frequency analysis of scientific terms was performed using text mining. The data used in the analysis is a general-purpose scholarship database, totaling 2,878 articles. Hypoxia, which is an important issue in the marine environment, was selected as a research field and the frequencies of related words were analyzed. The most frequently used words were 'Organic matter', 'Bottom water', and 'Dead zone' and specific areas showed high frequency. The results of this research can be used as a basis for the allocation of research resources to the frequency of use of related terms in specific fields when planning a large research project represented by single word.

• Korean Journal of Remote Sensing
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• v.26 no.2
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• pp.277-285
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• 2010

Geostationary Ocean Color Imager(GOCI-I), the world's first space-borne ocean color observation geostationary satellite, will be launched on June 2010. Development of GOCI-I took about 6 years, and its expected lifetime is about 7 years. The mission and user requirements of GOCI-II are required to be defined at this moment. Because baseline of the main mission of GOCI-II must be defined during the development time and early operational period of GOCI-I. The main difference between these missions is the global-monitoring capability of GOCI-II, which will meet the necessity of the monitoring and research on climate change in the long-term. The user requirements of GOCI-II will have higher spatial resolution, $250m{\times}250m$, and 12 spectral bands to fulfill GOCI-I's user request, which could not be implemented on GOCI-I for technical reasons. A dedicated panchromatic band will be added for the nighttime observation to obtain fishery information. GOCI-II will have a new capability, supporting user-definable observation requests such as clear sky area without clouds and special-event areas, etc. This will enable higher applicability of GOCI-II products. GOCI-II will perform observations 8 times daily, the same as GOCI-I's. Additionally, daily global observation once or twice daily is planned for GOCI-II. In this paper, we present an improved development and organization structure to solve the problems that have emerged so far. The hardware design of the GOCI-II will proceed in conjunction with domestic or foreign space agencies.

• Journal of the Korean Association of Geographic Information Studies
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• v.10 no.2
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• pp.47-57
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• 2007

Real-time oceanographic information system was developed using platforms of aquaculture farms to examine causes of mass mortality of hatchery fishes, and to reduce the damage of mass mortality which has been occurred frequently off coast by abnormal change of ocean conditions. The system had the advantages of direct data distribution to fishermen at the farm and instant maintenance of equipments due to easy access to the farms and residents at the farms in comparison with offshore mooring buoy system. To avoid discontinued measurement of the system, repairs caused by malfunction of equipments, bimonthly preventive maintenances and daily monitoring of measured data were systematized. Confidence intervals calculated by a statistical method using accumulated data were applied to data management. Such activities could minimize discontinuance of measurement and keep information more trustful. In addition, the system has various ways of data distribution. Through homepage and e-mail in the internet, information was provided to public. Display units which were connected to equipments at the farm gave the measured data directly to fishermen, which guided them to run their farm scientifically. Finally large display unit was installed at a fish market and showed the measured data at the nearest station with tide and weather information. Proper region for aquaculture and wintering region were studied using temperature data obtained by the system in 2006. The system will contribute to reduce economic damage of coastal fishery and to understand coastal marine environment.