三维可视化服务平台的管理模型研究
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摘要
为了提高三维可视化应用开发效率,解决缺乏完善的三维可视化应用架构及多终端应用模式的问题,本文提出了基于三维可视化服务平台的管理模型.首先分析了传统的三维应用程序构建方法,提出了三维可视化服务平台架构.在此基础上,采用"模型-实例"思想,提出了基于角色,组件,消息(ACM)模型、角色模型(模型-算法-属性-消息)和运行管理模型,有效管理角色、组件等资源及通信控制,能够动态绑定角色算法和数据属性,满足动态构建三维应用的需求.同时,本文采用改进的负载均衡策略以满足多终端应用模式.实验结果表明,本文的方法实现简单,支持动态构建三维应用,为具体三维应用提供便捷的管理模式,有效提高三维可视化应用的开发效率,满足多终端可视化应用需要.
In order to improve the efficiency of 3D visualization application development and solve the lack of a complete 3D visualization application architecture and multi-terminal 3D application model,this paper presents the management model based on 3D visualization service platform. Firstly,the traditional method of constructing 3D application is analyzed,and the architecture of 3D visualization service platform is proposed. Then,we propose the visual management model( ACM) and role model( model-algorithm-attribute-message) using the " model-instance" idea,which can efficiently manage roles,components,other resources and communications and dynamically bind character algorithms and data attributes to meet the needs of dynamically building 3D applications. Meanwhile,this paper adopts an improved load balancing strategy to satisfy the multi-terminal application model. Experimental results show that our method is simple to implement and supports the dynamic construction of 3D application model and provides a convenient management mode for specific 3D applications,which effectively improves the development efficiency of 3D visualization applications,and satisfies the needs of multi-terminal applications.
In order to improve the efficiency of 3D visualization application development and solve the lack of a complete 3D visualization application architecture and multi-terminal 3D application model,this paper presents the management model based on 3D visualization service platform. Firstly,the traditional method of constructing 3D application is analyzed,and the architecture of 3D visualization service platform is proposed. Then,we propose the visual management model( ACM) and role model( model-algorithm-attribute-message) using the " model-instance" idea,which can efficiently manage roles,components,other resources and communications and dynamically bind character algorithms and data attributes to meet the needs of dynamically building 3D applications. Meanwhile,this paper adopts an improved load balancing strategy to satisfy the multi-terminal application model. Experimental results show that our method is simple to implement and supports the dynamic construction of 3D application model and provides a convenient management mode for specific 3D applications,which effectively improves the development efficiency of 3D visualization applications,and satisfies the needs of multi-terminal applications.
引文
[1] Xu Meng-chao. Study on three-dimensional visualization[J].M odern Surveying and M apping,2015,35(6):60-62.
[2] Singiresu S Rao,Yi Hu,Saif Matar. Three-dimensional simulationbased optimum design of direct methanol fuel cell system[J]. Fuel Cells Science and Technology,2013,10(2):52-62.
[3] Liu Si-bo. Research on application of visual simulation technology in oilfield[D]. Northeast Petroleum University,2014.
[4] Yang Yan-cong,Peng Rui-dong. Interactive control for viewing3D objects based on M FC and OpenGL[C]. Proceedings of 2011 International Conference on Computer Science and Network Technology,2011:419-424.
[5] Zhang Chun-jin,Ji Shu-juan,Liu Wei-ke. Research and implementation of OGRE-based emergency fire simulation[J]. Fire Science and Technology,2012,31(2):207-210.
[6] Shen Yan-chun,Zhu You-hong,Cao Li,et al. Design and implementation of 3D simulation platform based on OSG[J]. Computer Simulation,2007,24(6):207-211.
[7] Bu Xiang-bao,Wu Qi,Gao Meng-meng,et al. Construction technology of three-dimensional simulation platform based on OGRE[J]. Electronic Measurement Technology,2014,37(5):29-32.
[8] Guo Zhi-xing,Lian Dong-ben,Su Mo,et al. Emergency drill role system[J]. Computer Systems&Applications,2013,22(3):25-28.
[9] Xu Rui. Design and implementation of visual simulational system based on OGRE graphical Engine[D]. Tianjin:Tianjin University,2014.
[10] Li Chao. A three-dimensional visualization system optimization strategy[D]. Qinhuangdao:Yanshan University,2012.
[11] Wang Yu-hong,Lian Dong-ben,Sun Yong,et al. Design of message mechanism in the simulation training system[J]. Computer Systems&Applications,2013,22(2):169-172.
[12] Zhao Meng,Li Shu-yu. Load balancing of task scheduling based on ant colony optimization in cloud computing environment[J].Electronic Design Engineering,2016,24(8):30-33.
[1]徐孟超.浅谈国内外三维可视化发展及其应用[J].现代测绘,2015,35(6):60-62.
[5]张纯金,纪淑娟,刘伟科.基于OGRE的应急火灾仿真研究及实现[J].消防科学与技术,2012,31(2):207-210.
[6]申闫春,朱幼虹,曹莉,等.基于OSG的三维仿真平台的设计与实现[J].计算机仿真,2007,24(6):207-211.
[7]卜祥报,吴琦,高萌萌,等.基于OGRE的三维仿真平台的构建技术[J].电子测量技术,2014,37(5):29-32.
[8]郭志星,廉东本,苏谟,等.应急演练角色系统[J].计算机系统应用,2013,22(3):25-28.
[10]栗超.一种三维可视化系统的优化策略[D].秦皇岛:燕山大学,2012.
[11]王玉红,廉东本,孙咏,等.模拟演练中消息机制的研究与设计[J].计算机系统应用,2013,22(2):169-172.
[2] Singiresu S Rao,Yi Hu,Saif Matar. Three-dimensional simulationbased optimum design of direct methanol fuel cell system[J]. Fuel Cells Science and Technology,2013,10(2):52-62.
[3] Liu Si-bo. Research on application of visual simulation technology in oilfield[D]. Northeast Petroleum University,2014.
[4] Yang Yan-cong,Peng Rui-dong. Interactive control for viewing3D objects based on M FC and OpenGL[C]. Proceedings of 2011 International Conference on Computer Science and Network Technology,2011:419-424.
[5] Zhang Chun-jin,Ji Shu-juan,Liu Wei-ke. Research and implementation of OGRE-based emergency fire simulation[J]. Fire Science and Technology,2012,31(2):207-210.
[6] Shen Yan-chun,Zhu You-hong,Cao Li,et al. Design and implementation of 3D simulation platform based on OSG[J]. Computer Simulation,2007,24(6):207-211.
[7] Bu Xiang-bao,Wu Qi,Gao Meng-meng,et al. Construction technology of three-dimensional simulation platform based on OGRE[J]. Electronic Measurement Technology,2014,37(5):29-32.
[8] Guo Zhi-xing,Lian Dong-ben,Su Mo,et al. Emergency drill role system[J]. Computer Systems&Applications,2013,22(3):25-28.
[9] Xu Rui. Design and implementation of visual simulational system based on OGRE graphical Engine[D]. Tianjin:Tianjin University,2014.
[10] Li Chao. A three-dimensional visualization system optimization strategy[D]. Qinhuangdao:Yanshan University,2012.
[11] Wang Yu-hong,Lian Dong-ben,Sun Yong,et al. Design of message mechanism in the simulation training system[J]. Computer Systems&Applications,2013,22(2):169-172.
[12] Zhao Meng,Li Shu-yu. Load balancing of task scheduling based on ant colony optimization in cloud computing environment[J].Electronic Design Engineering,2016,24(8):30-33.
[1]徐孟超.浅谈国内外三维可视化发展及其应用[J].现代测绘,2015,35(6):60-62.
[5]张纯金,纪淑娟,刘伟科.基于OGRE的应急火灾仿真研究及实现[J].消防科学与技术,2012,31(2):207-210.
[6]申闫春,朱幼虹,曹莉,等.基于OSG的三维仿真平台的设计与实现[J].计算机仿真,2007,24(6):207-211.
[7]卜祥报,吴琦,高萌萌,等.基于OGRE的三维仿真平台的构建技术[J].电子测量技术,2014,37(5):29-32.
[8]郭志星,廉东本,苏谟,等.应急演练角色系统[J].计算机系统应用,2013,22(3):25-28.
[10]栗超.一种三维可视化系统的优化策略[D].秦皇岛:燕山大学,2012.
[11]王玉红,廉东本,孙咏,等.模拟演练中消息机制的研究与设计[J].计算机系统应用,2013,22(2):169-172.
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