• 한국항만경제학회지
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• 제28권1호
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• pp.143-157
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• 2012

물류기업은 가장 저렴한 원가구조를 갖는 지역에 생산, 물류거점 기지를 운영하며 세계시장을 대상으로 제품을 매매하는 경영방식을 선택하고 있다. 물류네트워크 상에서 물류창고는 적절한 위치에서 적절한 시기에 효과적으로 운영하므로 부가가치를 창출하여 효율성 제고를 통한 경쟁력 강화방안이 FTA에 대한 대응방안이 되고 있다. 물류기업은 물류창고의 역량을 강화하기 위하여 구조적 경쟁력 방안을 강화하므로 국내의 물류창고의 운영 효율성과 생산성 취약하므로 효율성과 생산성 분석은 의미가 있다. 본 연구에서는 2005년-2009년까지 지역별 물류창고 효율성 분석을 하였으며 동태적 안정성검증에서는 서울특별시, 부산광역시, 대구광역시, 전라북도가 안정적이며 생산성 변화를 측정한 결과는 광주광역시와 제주도의 경우 4기간 평균 생산성지수는 각각 2.553과와 2.602로 생산성이 약 255%와 260% 증가하였다. Catch-up 분석 해석 결과는 대전광역시, 전라북도, 경상남도 경영상 효율성의 악화가 이루어졌으며 Frontier 분석 해석결과는 서울특별시가 가장 낮고 광주광역시가 높은 기술진보가 이루어졌음을 알 수 있다.

• 수산경영론집
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• 제35권1호
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• pp.23-56
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• 2004

The offshore trawl fishery is seeking its survival way to overcome current management conditions in red, resulted from the bilateral agreement with China and Japan. However, this movement magnifies conflicts between fisheries on the contrary and it is thought to be impossible to get over current situations. For all that, this study is aimed at investigating how this current situations have occurred. The management freedom as response to the change in fishing conditions of a certain fishery, in case of Korea, is affected by institutional regulations. The example of this is controls on fishing gears, fishing vessels, and fishing grounds. The most exposure of this control is a segmentation of institutional fisheries. The initial segmentation of the offshore trawl fishery in Korea was occurred in the period of Japan's colonization when the degree of use of fishing grounds was limited geographically. At that time, fisheries were divided by fishing areas, but it did not divide the fishery itself. The large - sized fishing vessels were developed politically to be more competative to Japanese fishing vessels since 1950s. During this time, the trawl fishery was merged into current Eastern trawl fishery and South - Western trawl fishery. It was also inevitable to divide into the pair trawl and single trawl fishery as a result of the physical mergency between Western trawl and Southern trawl fishery. In order to develop the trawl fishery, new licenses were issued on the shrimp trawl fishery, through which it was expected to boost the trawl fishery. As opposed, the shrimp trawl fishery was changed into the mid - sized trawl fishery, targeting on the eastern fishing areas and the large - sized trawl fishery was developed since the late of 1970s with the development of filefish processing industry. The large trawl fishery that led in development of offshore trawl fishery since the late of 1950s was started to divide into a pair trawl and single trawl according to the fishing method and capital power. It finally became an institutionally independent fishery in 1980s, respectively. Looking into these historical process, the segmentation of the trawl fishery is thought as a result of the lack of long - term perspective and as a production of trial and error resulted by unprepared policy. As a result, these segmentation of fisheries roles as critical obstacles in harmonization of fisheries and in overcoming of current situations. Therefore, the review of this institutional segmentation of the offshore trawl fishery should be taken for an optimal redistribution of fishing grounds suits with business and fishing technology. For this, the fishery must be divided into large capitalized fishery and small - mid fishery with consideration of capital, fishing method, and the condition of use of fishing grounds. In addition to this, by limiting outline of fishing ground that the large fishery can harvest, it must allow for the small - mid fishery to catch with its own boundary. Furthermore, by launching buyback programs on the trawl, eastern trawl, pair trawl, it can provide broader fishing grounds where the fishery can harvest with management freedom.

• 한국컴퓨터그래픽스학회논문지
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• 제24권3호
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• pp.73-81
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• 2018

본 논문은 다중의 플레이어들이 단합된 동작을 통해 노를 저어 보트를 이동시키도록 하기 위해 동작에 의해 구동되는 조정(rowing) 시뮬레이션 프레임워크를 제안한다. 실제 조정 경기에서 보트를 가속하기 위해서는 선수들이 시간과 자세에 대해 노 젓는 동작을 동기화 시키는 것이 매우 중요하다. 조정의 이러한 흥미로운 특징을 이용하여, 본 논문에서는 다중 플레이어들이 노 젓는 동작을 수행하는 동안 그들 사이의 동작 유사도를 실시간으로 측정하고 그 유사도에 기반하여 가상 환경에서 보트의 속도를 제어한다. 또한 제안된 프레임워크에 아이템 획득과 같은 게임적인 요소들을 추가하여 플레이어들의 조화된 행동에 의해 아이템을 획득한 경우 아이템 종류에 따라 배의 속도가 증가하거나 감소하도록 한다. 이러한 게임적인 요소들은 플레이어들이 단합된 조정 동작을 생성하기 위한 좋은 팀워크를 훈련할 때 좀더 적극적으로 참여하도록 장려한다. 노 젓는 동작과 아이템을 획득하는 동작을 인식하기 위해 본 논문에서 제안하는 방법은 머리와 양손에 대한 추적 데이터만을 필요로 하며 실시간에 동작할 정도로 충분히 빠르다. 몰입감을 높이기 위해 조정 시뮬레이션 결과를 대형 곡면 스크린에 프로젝션 한다.

• 한국경제지리학회지
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• 제19권4호
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• pp.694-711
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• 2016

본 연구는 경제전반의 저성장 기조에도 불구하고 성장세를 보이는 지식서비스산업의 입지적 특성과 하위 업종별 고용기회의 변화를 분석한다. 특히 우리나라 20-30대 청년층이 선호하는 전문직서비스업 중 고용분포가 높은 업종인 출판업, 정보서비스업, 교육서비스업을 중심으로 지난 10년간 입지분포의 공간적 특성을 파악하고 고용분포의 변화를 예측한다. 이를 위하여 수도권지역을 대상으로 지식서비스업과 하위 3개 업종별 입지계수(LQ)를 산출하고, LISA 분석을 통해 집중분포지역을 파악한다. 또한 지식서비스업과 하위 3개 업종별 입지분포에 영향을 미치는 사회경제적 요인을 파악하고, 마르코프 체인 모형(Markov Chain Model)의 확률과정을 적용하여 고용분포지역의 변화를 단기예측한다. 분석결과, 수도권의 일부 특정지역을 중심으로 집중분포를 보이고 있는 세 업종별 특성에 따라 분포에 영향을 미치는 유의미한 변수에 차이가 나타났고, 업종에 따라 지역별 고용분포의 재분산에도 공간적 차이가 나타날 것으로 추정되었다. 본 연구에서 살펴본 지식서비스업종은 청년층의 고용분포가 가장 높지만 동시에 인력부족도 높은 것으로 나타났다. 이들 업종별 구인-구직과정의 마찰을 감소시키기 위한 노력이 필요할 것이며, 이는 청년실업 문제를 완화하는 데에도 기여할 수 있을 것이다.

• 수산해양기술연구
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• 제53권2호
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• pp.126-131
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• 2017

To improve the efficiency of hairtail trolling, it is important to gain an accurate understanding of the distribution of fish based on their diurnal vertical migration patterns. This study evaluated the vertical distribution of hairtails through catch efficiency tests using vertical longlines. Five replicate tests of the efficiency were carried out on the eastern coast of Jeju Island from August to September 2016, from 11:00 AM to 03:00 PM in the daytime and 11:00 PM to 03:00 AM in the nighttime. The fishing gear was composed of 20 hooks per line set, numbered in order from the first hook near the surface to the last hook on the seabed. The depth of the first hook was 18 m, and that of the last hook was 86 m. Pacific saury was used as the baits. In total, 10 sets of fishing gear were used per trip. After fishing, we counted the hairtails at each numbered hook, which were summed up both by number and in aggregate. A total of 232 hairtails were caught using 2,000 hooks: 193 individuals at daytime and 39 at nighttime. The hook rate was 11.5% : 9.6% at daytime; 2.0% at nighttime. For both daytime and nighttime catches, there were variations in the hook rates at each numbered hook. In the daytime, a maximum of 28.5% catches occurred at hook number 18, followed by 21.4% at number 20, and 10.7% at number 17, accounting for 60.6% of the daytime hook rates. In the nighttime, a maximum of 23.0% catches occurred at hook number 1, followed by 15.3% at hook number 4 and 9, accounting for 53.6% of the nighttime hook rate. Based on the above results, hairtails are usually distributed in deeper region in daytime, whereas they occur near the surface in nighttime. Therefore, it is necessary to position trolling lines according to diurnal vertical distribution layers of hairtails for fishing efficiency.

• 수산해양기술연구
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• 제35권1호
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• pp.1-10
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• 1999

The north-west sea area of Cheju Island is where originate two layer current in the summer season. The case of the fishing operations in this sea area is almost impossible for normal expansion of the net gear for shooting net, and is happened to be frequent occasions for rise of tension suddenly in purseline by changes of the net shapes in the operation. Therefore, the safety of the operations is often obstructed by the above mentioned. In connection with the above, model experiments on the purse seine in the circulating water tank was carried out in comparison and analysis on the changes of tension in the pruseline by deformation of purse seine in the sea area of two layer current. THe results obtained are as follows;In the case of the required time for pursing of 20 minutes in the no current set, the increasing curve for tension of purseline can be expressed as:Y=0.0004x3+0.0098x2+0.3000x(r=0.9989)where Y is tension(metric tons) of a purseline, x is required time(minutes) for pursing. And, the maximum value of tension in this time was an increase of 31.3 percent at 15 minutes, and was a decrease of 30.3 percent at 30 minutes than that of 20 minutes.When the bottom margin of net is held on the position in velocity of 0.5 knot at three-eighths of net in the bottom current to the net height, the maximum tension of the required time for pursing of 30 minutes in tight set and loose set were decrease of 29.5 percent and 28.7 percent respectively than that of 20 minutes.The work load during the required time for pursing of 20 minutes were calculated 5.79×106 kgf·m in no current set, 7.89×106 kgf·m in tight set and 5.15×106 kgf·m in loose set, therefore it was an increase of 22.3 percent in tight set, and was a decrease of 11.1 percent in loose set than that of the no current set. Where tight set and loose set is a range of the bottom current with velocity of 0.5 knot at three-eighths of net to the net height.

• 수산해양기술연구
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• 제41권1호
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• pp.27-34
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• 2005

붕장어에 대한 스프링형 그물통발의 망목선택성 및 적정망목을 추정하기 위한 시험조업은 경남 거제시 능포 인근해역에서 2002년 9월25일${\sim}$9월27일에 실시되었다. 시험어구는 현용어구인 15mm, 20mm 및 시험을 위해 제작한 25mm, 30mm 그리고 수산자원보호령에서 규정하고 있는 35mm와 대조어구로써 통수공 6.7mm의 플라스틱 통발을 각각 50개씩 제작하여 사용하였다. 망목선택성은 Kitahara(1968)와 Fujimori(1996)의 방법을 사용하여 분석하였고, 적정망목은 어체 동주와 체장과의 관계 그리고 망목선택성 Master Curve를 사용하여 추정하였다. 그 결과를 요약하면 다음과 같다. 1. 시험조업 결과 총어획미수는 835미로, 붕장어 537미(64.4%), 게류 225미(26.9%), 기타 73미(8.7%)였다. 2. 망목선택성 곡선의 Master Curve에서 최대 전장/망목(max. 1/m)의 값은 23.9로 추정되었다. 3. 붕장어 스프링 통발의 적정망목은 34.0mm로 추정되었다.

• 수산경영론집
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• 제25권1호
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• pp.37-59
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• 1994

Many studies to cope with the present problems of Korean coastal and offshore fisheries has been performed, but these were done partly in necessities and general studies for Korean inshore and offshore fisheries are in early stage. Most of these studies adopted analytical way of approach for each fishery individually and they could not reflect the effect of correlated interaction among fisheries on the several common species/stocks, and thus optimal effort allocation was impossible. To consider general fisheries and optimal effort allocation among competing mixed species, a linear programming (LP) approach is applied in this study and introduced into 16 important inshore and offshore fisheries with 13 constraining species which were chosen by annual yield order. This study is not based on the biological interaction among species (i.e., prey - predator system) but the technological interaction between species and fishing efforts. For the application of LP model in these fisheries, the standardization of fishing efforts through different fishing gears could not be successful and a new way of effort standardization through CPUE for vessel tonnage was originated. Total standardized fishing effort on a particular species i, Ei, is computed as the linear summation of standardized fishing effort generated by each fishery j. That is, (equation omitted) where $f_{j}$ is the total vessel tonnage of fishery j and aij is the coefficients contributing to the standardized fishing effort per ton for species i taken in fishery j. The total fishing effort level on species i due to both directed fishing and by - catch can thus be accounted in the aij's. Optimal effort allocation among the j fisheries may be considered a minimizing problem (minimize $\Sigma$ $f_{j}$), subject to the constraints that standardized fishing effort levels on particular species are maintained at, above, and below certain predefined levels. Fishing effort goals for individual species can be based on various biological and/or economic criteria, i.e., fishing effort level generating maximum sustainable yield and/or maximum economic yield. But in this study the $F_{0.1}$ criteria which was accepted as an approximate level for $F_{mey}$ by Outland and Boerema's (1973) study. The findings of this study are, (1) LP model can be applied to the Korean inshore and offshore fisheries giobally. (2) Through a new way of combining multiple different fisheries' efforts for a particular species together generating standardized fishing effort, Schaefer curve could be applied to the complex system successfully. (3) The results of this study for total reduction scale were mostly the same as those of prior studies, but different much from the individual scales of reduction. This study showed the necessities for exploitation of more concrete parameters to put into consideration of profitability of fisheries and social factors, and this model can be modified according to the actual constraints. Also, considering the age structure of stocks, this model can be developed into better one for better fisheries management.ent.

• 생태와환경
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• 제40권4호
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• pp.503-510
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• 2007

The purposes of the study were to analyze the seasonal effects on the fish fauna and compositions including trophic guilds and tolerance guilds. For the study, we collected fish samples twice in June as premonsoon period and early September 2007 as monsoon periods in five sampling sites of the Gap Stream, and then biological oxygen demand (BOD), nutrients (TN, TP) and suspended solids (SS) were compared with the guild data along the gradient of upstream-to-downstream. Chemical water quality, based on BOD, TP, and TN degraded gradually from the upstream to downstream reach and there were about 3 fold difference between S1 and S5. Water quality was worse in the premonsoon than the monsoon, and the heavy monsoon resulted in a dilution of the polluted river by rain water, especially, in the downstream reach. Total number of fish species, based on the catch per unit effort (CPUE), showed a distinct difference between the two seasons; 30 species were sampled in premonsoon, but 23 species were sampled in the monsoon, indicating a seasonal difference in the fish fauna. Tolerant species dominated the fish community (48.3%) in the stream, and the proportions prior to physical disturbance by the monsoon rain were evidently greater in the downstream reach than the upstream. This reflected the characteristics of urban stream polluted by nutrient enrichment as shown in the BOD and TP values. Sensitive species in the premonsoon decreased from the gradient of upstream-to-downstream reach. Such seasonal modifications in the trophic and tolerance guilds were evident. In the analysis of trophic guild and habitat guild, during the premonsoon the proportion of insectivore and riffle-benthic species were largely greater in the upstream reach than the downstream, whereas the proportions were opposite along the gradient of the stream in monsoon. Thus, the patterns of chemical water quality along the longitudinal gradients reflected the premonsoon conditions of insectivores and tolerant species, indicating that summer monsoon data of fish may not match with water quality due to large physical disturbance by flow regime. Seasonal monsoon in this region as well as the chemical pollution may act as a key role influencing the fish compositions of trophic and tolerance guilds and fauna. The data collected during the premonsoon rather than the monsoon, thus, may be better predictor for a diagnosis of stream health conditions.

• 수산해양교육연구
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• 제9권2호
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• pp.222-235
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• 1997

천엽현암화전(千葉縣岩和田)어업협동조합에 소속하는 1인승어선이 어획한 7어종항목에 대해서 어획금액이 높은 어종항목으로 어선을 분류하여, 다시 이들을 판별함수로 분류한 결과, 6그룹으로 분류할 수 있었다. 이들 그룹은, 방어류를 주어종으로 하는 G1그룹, 넙치류를 주어종으로 하는 G2그룹, 가다랭이 참치류를 주어종으로 하는 G3그룹, 오징어류를 주어종으로 하는 G4그룹, 저서어류를 주어종으로 하는 G5그룹, 기타어류를 주어종으로 하는 G6그룹이다. 1인승어선 총척수의 대부분의 평균어획금액은 10년동안 400만엔에 미치지 못하는 G1, G2 및 G6그룹에 속하고, 전업어업에 종사하지 않는 어선들이었다. 그리고, 7어종의 어획금액에 관해서 주성분분석을 행하여, 제1주성분에서 제4주성분의 주성분득점으로 각 그룹을 고찰한 결과, 끌낚시어업에 의한 방어류와 넙치류를 주어종으로 하는 G1 G2그룹, 가다랭이 참치류와 오징어류를 주어종으로 하는 G3 G4그룹과 저서어류를 포함하는 G5그룹, G1 G2그룹과 유사하지만 자망에 의한 어획이 주된 G6그룹의 3그룹으로 다시 크게 분류할 수 있었다. 그러나, G1 G2그룹과 G3 G4 G5그룹의 일부분이 중복된 것에 대해서의 해석은 앞으로의 연구과제라 할 수 있다.