얼마나 빠른 환경의 변화에 잘 적응하느냐에 따라서 개인과 조직의 성패는 좌우된다. 이러한 환경의 변화에 잘 적응하기 위해서는 정보의 활용이 필수적이다. 본 연구에서는 농장경영체의 정보 활용도 향상을 위한 구체적인 방안을 제시하는데 있다. 이를 위해 설문과 인터뷰조사, 선행사례 조사 등을 실시하고 농장경영에 필요한 의사결정 단계별 정보를 도출하고 이를 제공하기 위한 데이터베이스와 모델 베이스를 제안하였다. 또한 구축된 정보를 잘 활용하는 정보 접근 방법을 병목정보 해결의 시각에서 정형검색과 비정형검색방법을 제시하였다. 이러한 가치사슬적 접근 방법은, 아직 농업분야에서는 보편적인 내용은 아니지만 여타 첨단정보산업과 서비스업에서는 경영체별로 구체화하여 비교적 유용하게 활용하고 있는 방법이다. 본 연구를 바탕으로 품목별로 의사결정 단계별 데이터베이스와 모델베이스가 구축되어 농장경영체가 잘 활용함으로서 불확실성 요인과 변동요인에 잘 대응하여 농업 생산성 향상에 기여할 수 있도록 국가 차원에서 구체적인 시스템적 접근이 필요하다고 본다.

The importance of information system evaluation has increased according to ICT development and this evaluation is required for objective verification. The aim of this study is to develop evaluation indicators for web-based information system and verify the availability of these evaluation indicators through applying to agricultural water integrated information system. This study finds and provides eight evaluation items and 64 indicators for a web-based information system using 3×3 Mandal-Art matrix that is a tool for creating creative ideas. These evaluation items are design, contents, navigation, stability, community, convenience, usefulness, and accuracy. Total 64 evaluation indicators were presented by deriving eight evaluation items for each using 9×9 Mandal-Art matrix. When evaluating information system using evaluation indicators, it can be identified the vulnerable items in the information system. Also, the comprehensive results of the information system could be understood when appearing a single score after weighting. In addition, it can also help to prepare a questionnaire for evaluation systematically.

Recently the use of smart phones and mobile devices is increasing rapidly, data search and retrieval in the mobile environments are generalized. There are only few mobile applications available in the area of agriculture while huge amount of new applications are developed and uploaded. The purpose of this study was to develop the android based mobile application for providing agricultural infrastructure and disaster information. The mobile application was designed through the database establishment and management system, server management system, and mobile application development. The database is composed of weather data, agricultural infrastructure data, and agricultural disaster data. By developing the mobile application which provides agricultural infrastructure information, it is expected to improve the accessibility to agricultural information and mitigate the agricultural disaster damages.

Agricultural information was discussed for suggesting tasks and solutions of knowledge based information system. States of agricultural information systems in rural development administration were described and problems and tasks were summarized in knowledge needs survey of farmers who have to decide many alternatives for farming. Hard to access information are soil state, disease and insect pest. Important information in agriculture are water, soil fertility, soil physical property, and accessibility from main road. In conclusion, knowledge based agricultural information system can be developed based on surveyed needs.

농업유전자원정보시스템의 구성은 크게 농업유전자원 정보를 관리하는 업무관리시스템과 농업유전자원정보 를 웹 서비스하는 홈페이지 시스템으로 구분할 수 있다. 기존에는 식물, 미생물, 곤충 등 각기 따로 시스템이 구성되어 있었으며, 식물은 종자와 영양체, 미생물은 세균, 곰팡이, 버섯 등이 따로 관리되고 있었다. 이렇게 식물유전자원, 미생물유전자원, 누에유전자원이 각각 개별적이고 이질적인 환경에서 별도로 구축되어 운영 되었던 시스템을 통합하여 농업유전자원정보통합관리시스템으로 구축하였다. MS-SQL 기반의 데이터베이스 를 통합하여 Oracle 10g 기반으로 구축하였고, Migration과 통합을 위한 DB 재설계로 속도개선 및 최적화된 데이터베이스 환경을 구축하였다. X-internet 솔루션인 MiflatForm을 도입하여 인터넷 기반의 시스템 환경을 구축함으로써 기존 C/S 기반의 기능편리성을 제공함과 동시에 Java 기반으로 운영하여 보안 및 기능 편이성을 강화하였다. 본 시스템은 농업유전자원 관리기관에서 권한을 부여받아 사용할 수 있는 중앙 집중형 네트워크 버전으로 정보의 통합관리 및 공유를 통하여 농업유전자원 국가관리체계 확립에 기여할 수 있을 것으로 기대 된다.

This study reviews and modifies general IS success models to find success factors of WIS(Web-based Information Systems) and to confirm the relationship between WIS success and user's satisfaction of web use. A WISSM(Web-based Information Success Model extended to include EQ(E-Quality) is developed to anticipate user's intention to use Web-based Agricultural Information System and fit into the survey data from 252 WIS users of RDA(Rural Development Administration). PLS is applied to estimate a structural model based on EQ-WISSM to test hypotheses including 1) users reach a high level of intention to use Web-based Information Systems when they feel a high level of interactivity among an 'E-Quality', 'Decision Making Support Satisfaction' and 'Task Support Satisfaction', and E-Quality boosts intention to use Web-based Information Systems. The results show high path coefficients and R2 values and find followings; First, the EQ-WISSM explains the user's intention to use WAIS quite well. Second, E-Quality can be used well in web-based IS environment to predict IS Success. Finally, this research finds the importance of 'Task Support Satisfaction' as a mediator between 'Decision Making Support Satisfaction', 'E-Quality' and 'Intention to Use'.

The purpose of this study is to develop a dynamic DSS (Decision Support System) interfaced with GIS (Geographic Information System) and agriculture information network, In this study, DSS was developed to assist services which required tremendous and real time data in national scale. The data transmitte'd from the local area by the agriculture network were stored in DBMS (Data Base Management System) and analyzed by GIS. GIS and database tools used in this study were ARC/INFO 7.1.1 and INFORMIX 4.0. ACSAS (Agriculture Calamity Service Asist System) by the system prototype was constructed to solve the problem about the drought counterplan service which was to take the responsibility in the Ministry of Agriculture. It was easy to transfer, process, and analyze the information using the system. Specially, the meteological, the reservoir storage rate and the drought counterplan information were spatially analyzed by the functions of GIS.