VR激光技术在建筑布局中的应用
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摘要
针对建筑布局准确性较差的问题,提出基于VR激光技术的高层建筑布局方法,利用VR激光技术将虚拟现实同城市地理情况有机融合在一起,构建高层建筑布局虚拟空间。所提方法在高层建筑布局虚拟空间中进行仿真分析,将高层建筑对低层建筑的光源影响分为合理性光源与不合理性光源,找出不合理性光源的产生位置,并给出高层建筑高度与宽度的布局优化方法。实验结果显示,所提方法能够准确描绘高层建筑布局,经过布局优化,高层建筑对低层建筑的光源影响得到了极大改善。
Aiming at the problem of architectural layout accuracy,high-rise building layout method based on VR laser technology is put up.Using VR laser technology to virtual reality with urban geography organically fuses in together,high-rise building virtual space layout is built.The simulation analysis of the proposed method in the virtual spale of high-rise buiding layout,light source of high-rise building effect on low-rise buildings is divided into reasonable light source and irrationality source.The unreasonable source location is find out,and high-rise building height and width of the layout optimization method is given.Experimental results show that the proposed method can accurately depict high-rise building layout.Through the optimized layout,high-rise building of low-rise buildings of light source influence is greatly improved.
Aiming at the problem of architectural layout accuracy,high-rise building layout method based on VR laser technology is put up.Using VR laser technology to virtual reality with urban geography organically fuses in together,high-rise building virtual space layout is built.The simulation analysis of the proposed method in the virtual spale of high-rise buiding layout,light source of high-rise building effect on low-rise buildings is divided into reasonable light source and irrationality source.The unreasonable source location is find out,and high-rise building height and width of the layout optimization method is given.Experimental results show that the proposed method can accurately depict high-rise building layout.Through the optimized layout,high-rise building of low-rise buildings of light source influence is greatly improved.
引文
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[2]孔龙,刘庆想,王少萌,等.基于螺线盘聚焦径向电子束的理论分析与仿真研究[J].强激光与粒子束,2015,27(1):117-121.
[3]胡冬梅,刘泉,于林韬,等. LSSVM模型下的LCVR相位延迟特性标定方法[J].红外与激光工程,2016,004(5):257-261.
[4]白雪,郭磐,陈思颖,等.相干多普勒测风激光雷达时域信号仿真及时频分析[J].中国激光,2015,42(1):323-331.
[5]李慧,甘霖,张文攀,等.激光制导武器对抗半实物仿真弹干视线角模拟精度分析[J].激光与光电子学进展,2015,52(1):103-111.
[6]张伟杰,宋开山.红外波长的随机激光器设计及FDTD软件特性验证[J].红外与激光工程,2016,45(11):35-39.
[7] LI Y,LI X. Natural ventilation potential of high-rise residential buildings in northern China using coupling thermal and airflow simulations[J]. Building Simulation,2015,8(1):51-64.
[8]雷震,张立文,张晓玲,等.高斯激光辐照焦平面探测器温度场分析与仿真[J].激光技术,2016,40(4):516-520.
[9]阎石,孙昊鹏,孙威,等.环境温度变化压电智能骨料信号稳定性试验研究[J].压电与声光,2015,37(1):96-99.
[10]刘照军,王继英,王文佳,等.中国古建筑石灰灰浆的光谱分析技术[J].光散射学报,2016,28(1):45-50.
[11]王金舵,郭喜庆,余锦. 150fs~10ps脉宽下熔石英激光损伤的仿真与分析[J].强激光与粒子束,2015,27(4):9-15.
[12] FANG C,WANG Z. Quantitative Diagnoses and Comprehensive Evaluations of the Rationality of Chinese Urban Development Patterns[J]. Sustainability,2015,7(4):3859-3884.
[13]王春辉,李旭,彭欢.星载全波形激光测高仪仿真分析技术研究[J].激光与光电子学进展,2015,52(10):270-276.
[14]朱俊明,郝万君,李泽,等.基于Zig Bee无线传感器网络的建筑结构健康监测系统设计与实现[J].电子设计工程,2016,24(7):83-86.
[15]沈振民,蓝天,王云,等.基于LED灯的室内可见光通信系统仿真分析[J].红外与激光工程,2015,44(8):2496-2500.
[16] Smith B D. A Comparison of Niche Construction Theory and Diet Breadth Models as Explanatory Frameworks for the Initial Domestication of Plants and Animals[J]. Journal of Archaeological Research,2015,23(3):215-262.
[17] Alfes C,Griffin M,Ono K,et al. Weierstrass mock modular forms and elliptic curves[J]. Research in Number Theory,2015,1(1):1-31.
[18]董浩,刘会通.载机偏航运动对大视场红外扫描装置成像质量影响的仿真分析[J].红外与激光工程,2015,44(3):810-815.
[19]许斌,陈梦琦,王海东,等.基于压电阻抗的钢管砼柱横隔板剥离缺陷检测[J].压电与声光,2015,37(1):172-175.