Research and Application of UE5-based Digital Simulation Technology for Water Flow of Hudu River

doi:10.11988/ckyyb.20230957

Abstract

Abstract:

River simulation technology plays a crucial role in watershed digital twin. However, current precise modelling of physical rivers to virtual watershed faces several deficiencies. To address such deficiencies, a 3D hydrodynamic model was developed in this study based on terrain measurements, remote sensing images,hydrological data, and water surface line calculated by hydrological model. The UE5 engine and Fluid Flux plug-in rendering was employed in the model. Blueprints were reconstructed and compiled, data assets were trained and coordinate system disparities were reconciled to finally achieve high fidelity simulation of the water flow of Hudu River. Calibration results indicate that the present model accurately reflects real-world conditions with small errors. The simulation model depicts the water flow dynamics during different periods, the relative height difference between water level and embankment, the artificial flood diversion blasting, and underwater scenarios. Parameter adjustments enable comparative analysis of different scenarios, offering visualization support for flood control decision-making.

Key words: large scene river virtual simulation, digital twin, UE5 engine, flood scenario preview, Hudu River

CLC Number:

TV12工程水文学

LU Han-you, ZHAO Wen-gang, JIANG Jie-yu, WANG Zai-ai, LIU Xiao-qun, LI Zhi-wei. Research and Application of UE5-based Digital Simulation Technology for Water Flow of Hudu River[J]. Journal of Yangtze River Scientific Research Institute, 2024, 41(8): 157-163.

Figures/Tables 13

Fig.1 Map of the Hudu River

Fig.2 Flow chart of terrain preprocessing

Fig.3 Flow chart of river simulation processing

Fig.4 Topographic cloud map of Hudu River

Fig.5 Flow relationship between two stations

Fig.6 Calibration of simulation results

Fig.7 Model simulation result of hydrograph

Table 1 Simulation parameter settings

模拟区域参数	参数取值	水位控制点参数	参数取值
平面缩放比尺	1∶10	形状	矩形
垂直缩放比尺	1∶2.5	边缘参数	10
网格数量/个	2 048×2 048	初始流量/(m³·s^-1)	0
网格大小 /m	0.5	速度/(m·s^-1)	0~4
单区面积 /m²	1 024×1 024	持续性参数	-1
模拟区数量	4	影响强度	1
重力加速度/ (m·s^-2)	9.807	优先度	1 000

Fig.8 Generation process of simulated water surface

Fig.9 Composition of UE5 blueprint

Fig.10 Simulated scene of Hudu River

Fig.11 Verification of simulation result

Fig.12 Simulation of flood diversion scenario of Xiguan embankment blasting

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