Automated Design and Visualization System of a House Foundation from Blocks

Automated Design and Visualization System of a House Foundation from Blocks

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摘要 This article analyzes creation methods of automated design system, presents design system of a house foundation from blocks. The creation methods of automated design system of a house foundation from blocks are discovered with Unified Modeling Language. Analyzed objects-classes： block, specification, model. Graphical system can design foundation, form specification of objects and create 3D model of house foundation. There are several types and different dimensions of concrete blocks. The program optimally arranges selected blocks so that monolithic parts will be minimal volume. Program selects a house foundation blocks from database by using ActiveX Data Objects technology, which by programming method connects drawing and database. Drawing＇s graphical objects have additional data from which exchange of data between graphical system and database is executed. Visualization system and example of house foundation from blocks project with specifications is presented. Creation problems of automated design system are discussed and conclusions are made.

作者 Algirdas Sokas

机构地区 Department of Engineering Graphics

出处《Journal of Civil Engineering and Architecture》 2010年第9期26-31,共6页 土木工程与建筑（英文版）

关键词 Object-oriented programming house foundation design Unified Modeling Language visualization system. 自动化设计系统可视化系统基础自动化系统 ActiveX 数据库连接统一建模语言创建方法设计方法

分类号 TP271 [自动化与计算机技术—检测技术与自动化装置] TP391.41 [自动化与计算机技术—计算机应用技术]

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1H. Said, M. Marzouk and M. El-Said, Application of computer simulation to bridge deck construction: Case study, Automation in Construction 2009 (4) 377-385.
2K.-C. Lai and S.-C. Kang, Collision detection strategies for virtual construction simulation, Automation in Construction 2009 (6) 724-736.
3M. Lu, H.-C. Lam and F. Dai, Resource-constrained critical path analysis based on discrete event simulation and particle swarm optimization, Automation in Construction 6 (2008) 670-681.
4K. Nassar, Integrating discrete event and lighting simulation for analyzing construction work zones lighting plans, Automation in Construction 5 (2008) 561-572.
5L. Wang and N. H. Wong, Coupled simulations for naturally ventilated residential buildings, Automation in Construction 4 (2008) 386-398.
6J. Lertlakkhanakul, J. W. Choi and M. Y. Kim, Building data model and simulation platform for spatial interaction management in smart home, Automation in Construction 8 (2008) 948-957.
7S. M. Lo, C. M. Zhao, M. Liu and A. Coping, A simulation model for studying the implementation of performance-based fire safety design in buildings, Automation in Construction 7 (2008) 852-863.
8M. Qin, R. Belarbi, A. Ait-Mokhtar and F. Allard, Simulation of coupled heat and moisture transfer in air-conditioned buildings, Automation in Construction 5 (2009) 624-631.
9X. Zhang, N. Bakis, T. C. Lukins, Y. M. Ibrahim, S. Wu, M. Kagioglou, G. Aouad, A. P. Kaka and E. Trucco, Automating progress measurement of construction projects, Automation in Construction 3 (2009) 294-301.
10J. Rumbaugh, I. Jacobson and G. Booch, The Unified Modeling Language Reference Manual, Addison Wesley, 1999.

1高振宇,周建忠.基于组件的级进模CAD系统的研究与开发[J].制造业自动化,2006,28(7):40-43. 被引量：2
2杨波,张明勇.基于参数化设计方法的齿轮设计自动化技术[J].组合机床与自动化加工技术,2010(3):7-10. 被引量：3
3宋政湘,王建华.继电线路的自动化设计系统[J].低压电器,1999(3):43-46.
4柴振荣.SDE version 3.0支持自动化设计系统[J].管理观察,1999,0(9):46-46. 被引量：1
5柴振荣.Windows NT与自动化设计系统的新的可能性[J].管理观察,1996,0(2):51-51. 被引量：2
6杨英.热电站电机部分自动化设计系统的发展状况和前景[J].管理观察,1994,0(8):33-34.
7耿永刚.自动化系统设计的一般进程模式及其特点分析[J].无线互联科技,2012,9(10):76-76.
8刘凤云.自动化设计系统[J].管理观察,1994,0(10):47-47.
9龙军,孙新岭,张涛,唐永勇.减速器系列参数绘图在AutoCAD上的实现[J].训练与科技,2006,27(4):56-58.
10杨英.动力技术方面的自动化设计系统的发展状况和前景[J].管理观察,1994,0(7):39-39.

Journal of Civil Engineering and Architecture

2010年第9期

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Automated Design and Visualization System of a House Foundation from Blocks

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