Overstock in aquaculture is a matter of concern in aquaculture management. To sort fish based on fingerling size in case of overstocking is an important problem in aquaculture farm. This study aims to determine the amount of fry overstock and sorting time in aquaculture farm. This study builds a mathematical model that finds the value of decision variables to optimize objective function summing up the fingerling purchasing cost, aquaculture farm operating cost and feeding cost under mortality and farming period constraints. The proposed mathematical model involves following biological and economical variables and coefficients: (1) number of fingerlings, (2) sorting time, (3) fish growth rate and variation, (4) mortality, (5) price of a fry (6) feeding cost, and (7) possible sorting periods. Numerical simulation is presented herein. The objective of numerical simulation is to provide decision makers to analyse and comprehend the proposed model. When extensive biological data about growth function of fry becomes available, the proposed model can be widely applicable to real aquaculture farms.

Fish mortality is the most important success factor in aquaculture management. To order fingerlings considering the effect of mortality is a important problem in aquaculture farm. This study is aimed to decision the number and size of fry in aquaculture farm. This study build the mathematical model that finds the value of decision variable to minimize total cost that sums up the fingerling purchasing cost, aquaculture farm operating cost and feeding cost under mortality constraint. The proposed mathematical model involve biological and economical variables: (1) number of fingerlings (2) fish growth rate (3) mortality (4) price of a fry (5) feeding cost, and (6) possible order period. Numerical simulation model presented here in. The objective of numerical simulation is to provide for decision makers to analyse and comprehend the proposed model. When extensive biological and cost data become available, the proposed model can be widely applied to yield more accurate results.

Fish mortality is the most important success factor in aquaculture management. To analyze the effect of mortality considering biological and economic condition is a important problem in land-based aquaculture. This study is aimed to analyze the effect of mortality for duration of cultivation in land-based aquaculture. This study builds the mathematical model that finds the value of decision variable to minimize cost that sums up the water pool usage cost, sorting cost, fingerling cost and feeding cost under critical standing corp constraint. The proposed mathematical model involves many aspects, both biological and economical: (1) number of fingerlings (2) timing and number of batch splitting event, based on (3) fish growth rate, (4) mortality, and (5) several farming expense. Numerical simulation model presented here in. The objective of numerical simulation is to provide for decision makers to analyse and comprehend the proposed model. When extensive biological and cost data become available, the proposed model can be widely applied to yield more accurate results.

Because land based aquaculture is restricted by high investment per rearing volume and control cost, good management planning is important in Land-based aquaculture system case. In this paper master production planning was made to decide the number of rearing, production schedule and efficient allocation of water resources considering biological and economic condition. The purpose of this article is to build the mathematical decision making model that finds the value of decision variable to maximize profit under the constraints. Stocking and harvesting decisions that are made by master production planning are affected by the price system, feed cost, labour cost, power cost and investment cost. To solve the proposed mathematical model, heuristic search algorithm is proposed. The model Input variables are (1) the fish price (2) the fish growth rate (3) critical standing corp (4) labour cost (5) power cost (6) feed coefficient (7) fixed cost. The model outputs are (1) number of rearing fish (2) sales price (3) efficient allocation of water pool.

The study aims to identify the current status of aquaculture information in Korea and suggests policy directions for its integrated management. Firstly, the study focuses on the identification of the current status of aquaculture information by reviewing how aquaculture information is managed. Secondly, this study identifies problems such as lacks in necessary aquaculture information, inefficiency caused by dispersion and overlapping of information, absence of integrated management system and insufficient sharing of information. After identifying the current status of aquaculture information and its problems, the study suggests three basic directions to systematically integrate and manage the information such as establishment of infrastructure for promoting the integrated management of aquaculture information, generation and systematic management of useful aquaculture information and enhancement of user convenience. Finally, the study suggests detailed strategies such as establishment of a foundation to facilitate integrated management of aquaculture information, organization of organic network, sharing of more information, creation of necessary information through demand survey, creation of systematic management system, provision of a customized total service, and increase in education and PR activities on information use.

Fish stocking is important element of land-based aquaculture management. To maintain constant stocking rate considering biological and economic condition is a convenient strategy in intensive aquaculture. This study is aimed to analyze the effect of over-stocking(more than aquaculture capacity) for certain periods of time. This study make the mathematical decision making model that finds the value of decision variable to minimize cost that sums up the water pool usage cost and sorting cost under critical standing corp constraint. The proposed mathematical decision making model was applied to 12 sample combination of sorting cost and the number of fish on the Oliver flounder culture farms. If a immature fish can be sold for high price than farming cost, restricted over-stocking resulted in a improvement of economic performance. When extensive comparable biological and market data become available, analysis model can be widely applied to yield more accurate results.

굴 양식 산업은 우리나라의 대표적인 양식수산업으로서 중요한 역할을 수행하여 왔지만, 최근에는 수출 감소, 국내 내수시장 소비의 한계, 양식 환경 악화와 같은 여러 문제에 직면하여 있다. 적정하고 지속적인 굴 생산은 어장환경의 공간정보를 기반으로 하는 적지 선정을 통하여 달성 가능하고, 양식장의 적지 선정은 양식장의 성공적 개발에 중요한 열쇠이며, 지속가능한 개발에 절대적 영향을 미친다. 이 연구는 GIS 기반의 다중 평가 방법을 이용하여 수하식 굴 양식장의 적지를 규명하고자 하였다. 대부분의 인자들은 GIS에서 보간법에 의해 추출되었고, 여덟 개의 환경 인자들이 두 가지 기본 서브모델로 그룹화 되었다. 이는 굴 성장에 관련된 인자(수온, 염분, 해수유동, 클로로필 a)와 양식장 주변 환경에 관련된 인자(저층 DO, 총유기탄소, 퇴적물 산휘발성 황화물, 저서군집 다양도) 등으로 구성되어 있다. 적합 점수는 가장 적지인 8점에서부터 가장 적합하지 못한 1 점까지의 규모로 가점되었으며, 총 80.1%의 잠재 지역이 가장 높은 점수 5점과 6점으로 채점되었다. 이 지역들이 거제한산만에서 굴 양식을 위한 가장 최적의 조건을 가지는 것으로 나타났으며, 이러한 GIS 기반의 적지 선정 기법은 공간적인 의사 결정을 지원함으로서 어장관리시스템으로 활용될 수 있다.

1차 산업인 수산물 양식업은 다양한 자연재해 위험에 노출되어 있으며, 기술의 낙후 등으로 국내 어류양식업계는 어려움에 처해 있다. 이러한 자연재해 등의 위험으로부터 어업경영의 재해 위험도 분석을 통하여 안정성을 도모하고 어류양식업 경쟁력 강화를 위한 합리적이고 안정적인 운영의 모색이 요구된다.따라서 본 연구에서는 수산물 양식업에 큰 영향을 주는 태풍과 적조의 최근 10개년도 발생 현황과 피해현환을 분석하고, 양식업의 생산 현황과 특성을 분석하여 어업피해에 대한 원인별 분석 및 재해위험도 자료 분석을 실시하고 아울러 피해원인에 대한 대응방안을 제시하기 위하여 양식장 재해에 대한 비구조적, 구조적, 제도적인 종합적 방재대책을 고려한 효율적으로 대처할 수 있는 방안을 제시하였다.