2020, 12(3): 83-88. doi: 10.16670/j.cnki.cn11-5823/tu.2020.03.13
基于飞行视景仿真技术和BIM技术的机场设计优化应用技术路线研究
中国航空规划设计研究总院有限公司,北京 100120 |
Research on Technology Application Routes for Airport Design Optimization Based on Flight Visual Simulation Technology and BIM Technology
China Aviation Planning and Design Insititute (Group) Co., Ltd., Beijing 100120, China |
引用本文:
刘莹颖, 云朋. 基于飞行视景仿真技术和BIM技术的机场设计优化应用技术路线研究[J]. 土木建筑工程信息技术,
2020, 12(3): 83-88.
doi: 10.16670/j.cnki.cn11-5823/tu.2020.03.13
Citation:
Liu Yingying, Yun Peng. Research on Technology Application Routes for Airport Design Optimization Based on Flight Visual Simulation Technology and BIM Technology[J]. Journal of Information Technologyin Civil Engineering and Architecture,
2020, 12(3): 83-88.
doi: 10.16670/j.cnki.cn11-5823/tu.2020.03.13
摘要:视景仿真技术是计算机仿真技术的一个重要分支,可通过模拟真实环境为用户提供科学有效的技术手段对设计成果进行综合评估。对于机场设计而言,常用的逻辑计算仿真虽可进行定量分析,但受模型精度限制,且直观性不强,BIM设计模型也难以融合,很难开展更深层次、更宽领域、更大范围的技术研究和应用。因此,本文探索一套将飞行视景仿真技术和BIM技术应用到机场设计优化的技术路线,不仅可以支持BIM设计模型,GIS信息导入,搭建实景仿真环境,还可实现以飞机为主体对规划设计成果的真实模拟和体验,实现对飞行程序的验证,并可结合逻辑仿真结果实时模拟机场的真实运转情况,为设计成果的展示和评估提供强有力的支撑。
Abstract: The visual simulation technology is an important branch of computer simulation technology, which can provide the users with scientific and effective technical means for evaluation of the design results by simulating the real environment. For the airport design, although the popularized logic calculation simulation is able to be used for quantitative analysis, it is still limited by the accuracy of the model and non-intuitiveness, with many difficulties in integrating the BIM design model, which faces many obstacles in carrying out deeper level, wider field, and wider range of technical research and application. Therefore, this paper explores a set of technical route to apply flight visual simulation technology and BIM technology to airport design optimization. The technical route is not only able to support BIM design model and GIS information to build real simulation environment, but also able to implement the real simulation and experience of planning and design results with aircraft as the main body, realizing the verification of flight procedures, which provides strong support for the display and evaluation of design results
| [1] | |
| [2] |
陈芊.计算机仿真在机场飞行区规划设计中的应用[J].中国科技信息, 2013(17): 113-115.doi: 10.3969/j.issn.1001-8972.2013.17.068 |
| [3] |
韩文波, 陈瀚超.基于VEGAPRIME战斗机飞行视景仿真系统研究[J].长春理工大学学报(自然科学版), 2017, 40(6): 28-31+37.doi: 10.3969/j.issn.1672-9870.2017.06.007 |
| [4] |
Saunders J, Beard R. UAS Flight Simulation with Hardware-in-the-loop Testing and Vision Generation[M]. 2010. |
| [5] |
Daniec K, Pawel Iwaneczko, Karol Jedrasiak, et al. Prototyping the Autonomous Flight Algorithms Using the Prepar3D Simulator[M]. Vision Based Systems for UAV Applications. 2013. |
| [6] |
张燕燕, 黄其涛, 韩俊伟, 等.飞行模拟器视景系统的设计与实现[J].系统仿真学报, 2009, 21(12): 3662-3667. |
| [7] |
Studies on Virtual Flight Test-Certification Framework Components for Reliable Aerospace Vehicle Simulation[C]. KSAS 2016 Fall Conference, 2016. |
| [8] |
司海青, 汪海波, 丁松滨, 等.基于PREPAR3D的飞行原理教学实验平台建设[J].实验技术与管理, 2019, 36(10): 269-272. |
| [9] |
薛鹏.基于PREPAR3D的虚拟仿真技术在民航机务实践教学中的应用[J].科技资讯, 2017, 15(18): 161-163+165. |
| [10] |
Mariusz Domzal, Karol Jedrasiak, Pawe? Iwaneczko, et al. UAV Swarm Management Using Prepar3D[M]//Advanced Technologies in Practical Applications for National Security. 2018. |
| [11] |
宋一鑫.基于Prepar3D的飞行程序模拟应用初探[J].机场建设, 2015(4): 33-35. |
| [12] | |
| [13] |
DATA LINK COMMUNICATION INTERFACE WITH FLIGHT SIMULATOR IN FORM OF A CPDLC[D]. California: American Institute of Aeronautics and Astronautics. |
| [14] |
王超.飞行程序运行评估的理论方法及仿真应用研究[D].南京航空航天大学, 2012. |
计量
- PDF下载量(35)
- 文章访问量(1911)
- HTML全文浏览量(1101)
