Browse > Article

Development of Integrated Design System for Agricultural Facilities  

Bae, Yeun-Jung (서울대학교 대학원)
Lee, Jeong-Jae (서울대학교 농업생명과학대학)
Yoon, Seong-Soo (충북대학교 농과대학)
Publication Information
Magazine of the Korean Society of Agricultural Engineers / v.44, no.4, 2002 , pp. 75-84 More about this Journal
Abstract
The irrigation facilities are managed systematically and a facility is independent at the view of shape and function. The design of the irrigation facility is the formulated process with independent objectives. So its process is accordance to object-oriented concept. The design of irrigation facilities is classified into several steps. In these steps, the design data is made and the various problems are solved and consolidated with analysis and decision. In order to achieve our goal of constructing an efficient integrated design system, the results from the design should be able to be systematically connected and re-used. In the study, the design task of irrigation facility, the integrated design system for (IDSAF) is to be developed using the object-oriented methods, and then its applicability will be examined.
Keywords
OOA/D; Elementary object; IDSAF; Integrated design system;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Kim, S. A. 1998. Development of a Process-Oriented Design Support System. J. of Architecture Institute of Korea. 14(1) : 21-27. (in Korean)
2 Abdalla, G. A. 1989. Object-oriented Principles and Techniques for Computer-Integrated Design. Ph. D. Dissertation : University of California at Berkeley
3 Yoon, S. S. and J. J. Lee. 2002. A Study Oil the Reinforcement of Reinforced Concrete using Evolutionary Structural Optimization. J. of the Korean Society of Agricultural Engineers. 44(2) : 127-135. (in Korean)
4 Grady Booch. 1994. Object-Oriented Analysis and Design. The Benjamin/ Cummings Publishing Company
5 Kim, C. K., and S. M. Hong. 1992. A Study on the Development of Integrated System for Structural Design of Buildings using Object-Oriented Design Method. J. of Architecture Institute fir Korea. 8(9) : 171-179. (in Korean)
6 Choi, J. H. 1997. A Study on the TIN Generation using Delaunay Triangle Algorithm. Degree of Master Dissertation: YeonSei University. (in Korean)
7 Yoon, S. S. and J. J. Lee. 2002. Development Element Object and Implementation using MPC Data Model. J. of the Korean Society fir Agricultural Engineers. 44(1) : 57-68. (in Korean)
8 Howard, H. C., J. A. Abdalla, and D. H. Douglas Phan, 1992. Primitive-Composite Approach for Structural Data Modeling, ASCE J. of. Computing in Civil Engineering. 6(1) : 19-39
9 Lee, J. C.. Y. M. Kim, C. K. Kim, and S. M. Hong. 1999. A Viewpoint/Layer based Data Model (V/L Model) for Integrated Computer Aided Structural Design System. J. of Architecture Institute of Korea. 15(3) : 47-54. (in Korean)
10 Bae, Y. C. 2001. Implementation and Improvement of the P-C Model in Integrated Facility Design System. Degree of Master Dissertation : Seoul National University. (in Korean)