CN 11-5366/S     ISSN 1673-1530
“风景园林,不只是一本期刊。”
张潇涵,程子倩,张宁.从视点到空间:基于点云的景观空间视觉特征量化分析方法[J].风景园林,2024,31(7):1-7.
引用本文: 张潇涵,程子倩,张宁.从视点到空间:基于点云的景观空间视觉特征量化分析方法[J].风景园林,2024,31(7):1-7.
ZHANG X H, CHENG Z Q, ZHANG N. From Viewpoint to Space: Quantitative Analysis Method for Visual Characteristics of Landscape Space Based on Point Cloud[J]. Landscape Architecture, 2024, 31(7): 1-7.
Citation: ZHANG X H, CHENG Z Q, ZHANG N. From Viewpoint to Space: Quantitative Analysis Method for Visual Characteristics of Landscape Space Based on Point Cloud[J]. Landscape Architecture, 2024, 31(7): 1-7.

从视点到空间:基于点云的景观空间视觉特征量化分析方法

From Viewpoint to Space: Quantitative Analysis Method for Visual Characteristics of Landscape Space Based on Point Cloud

  • 摘要:
    目的 景观空间视觉特征是衡量景观空间品质的重要标准之一。过往基于三维模型、二维照片的分析方法难以兼顾对视觉界面平面维度与纵深维度空间信息的量化分析,对于较大尺度的城市公园空间视觉特征研究与设计实践的适用度较低,对景观空间视觉特征进行量化分析有助于设计师认知场地空间形态的关键特征。
    方法 提出一种将点云可视化技术与ArcGIS空间分析相结合的方法,包括点云模型数据获取与处理、空间单元划分与视点生成、人群视觉模拟与特征指标计算、空间单元视觉特征可视化与分析4个步骤。借助该方法,以南京市情侣园为例,选择延伸度、开敞度、复杂度、绿视率和天空率5个视觉特征指标进行量化分析。
    结果 空间单元内部不同位置的视觉特征指标数值差异可能与单元内要素的空间分布存在联系。空间单元中心视点的视觉指标计算结果在反映单元整体的视觉特征上存在一定局限。
    结论 相较于过往的分析方法,该方法能够更加全面和直观地展现多种视觉特征指标在空间中的数值分布及连续变化情况,且具有综合分析多个指标的潜力。该方法在探究景观空间的视觉特征与人群行为偏好间的关联机制、预测人群行为活动等领域具有一定应用前景。

     

    Abstract:
    Objective Visual characteristics of landscape space are one of the criteria for measuring the quality of landscape space. The in-depth investigation of the quantitative analysis method for visual characteristics of landscape space will assist designers in accurately recognizing the spatial form of landscape space, and provide support for the design of high-quality landscape space. Previous scholars have conducted numerous studies on the association between landscape visual characteristics and human perception, proposed different assessment indicators for describing visual characteristics of landscapes, and confirmed that the visual characteristics of landscape space play an important role in predicting people’s preference for a specific landscape space as well as their potential activity behaviors. However, the previous analysis methods based on 3D models or 2D photographs can hardly take into account the quantitative analysis of the spatial information of visual interface in both the plane and depth dimensions, which is less applicable in the research and design practice regarding the spatial visual characteristics of large-scale urban parks. Although the point cloud model is highly accurate, the quantification method based on point cloud voxelization entails long-time computing, and there are still some difficulties in the quantitative analysis of spatial visual characteristics of large-scale urban green landscapes. Therefore, this research aims to propose a quantitative analysis method for the visual characteristics of landscape space based on point cloud and visualization algorithms. On the basis of retaining the high-precision spatial data of the point cloud model, this method has high computational efficiency and can meet the demand for quantitative analysis of 2D and 3D visual characteristics.
    Methods Based on previous research on the quantification of landscape spatial morphology, this research combines the point cloud visualization with the spatial analysis function in ArcGIS and calculates multiple visual indicators by simulating the visual interface of multiple viewpoints in landscape space, thus realizing the computation and visualization of the visual characteristics of landscape space. The method is mainly divided into four steps, including point cloud model data acquisition and processing, spatial unit delineation and viewpoint generation, visual simulation and characteristic indicator calculation, and visualization and analysis of the visual characteristics of spatial units. First, point cloud model data are acquired by virtue of unmanned aerial vehicle (UAV) oblique photography and classified into a total of seven categories: Trees and shrubs, ground cover, lawn, hard ground, water surface, buildings, and others. Second, spatial units are identified by slope analysis in ArcGIS, and viewpoints are generated using the fishing net tool created in ArcGIS. Using the point cloud visualization and depth image tools in Point Cloud Library (PCL), the visual interface of each viewpoint is simulated, and the depth value and semantic value corresponding to each pixel point of the 2D image are extracted, which can be computed for multiple visual characteristic indicators. Five visual characteristic indicators (extension, openness, complexity, green visibility, and sky ratio) mostly used in previous research, are selected as examples. Relevant calculation formulas and methods are developed according to the proposed method. Finally, upon calculation of the visual characteristic indicators of each viewpoint, corresponding viewpoint properties are added to the viewpoint object in ArcGIS, and the calculated indicator values are imported into the characteristic table. Additionally, the Kriging interpolation tool in ArcGIS is adopted to generate a color raster map of each indicator.
    Results In order to verify the feasibility of the proposed method, Qinglvyuan Park in Najing is taken as an example to explore the application of the method. Four spatial units with an area larger than 0.5 ha are extracted for quantitative analysis. From the results, the visual characteristics of the four spatial units differ significantly. The spatial distribution characteristics of each visual indicator in the spatial units are weakly correlated with their respective plane geometry The spatial distribution characteristics of each visual indicator in the spatial units are weakly correlated with the plane geometry of such units. Although the value of each visual characteristic indicator continuously changes in space, the distribution locations of the peak and valley values are related to the elements inside the space (e.g., internal trees). Compared with previous analysis methods, the proposed method can more comprehensively and intuitively show the distribution of the indicator values and continuous changes of multiple visual characteristics in space, and has the potential to comprehensively analyze multiple characteristics based on the quantitative analysis of multiple visual characteristics.
    Conclusion The point cloud visualization method can replace the manual photographs taken in the landscape environment, and it can obtain spatial information on the depth of visual interface that cannot be fully covered by the photographs. Although it has certain advantages over traditional methods in terms of the efficiency and accuracy of visual interface simulation and analysis, there are some shortcomings in terms of the data acquisition method of the point cloud model, the rules of parameter setting, and the applicability to landscape spaces with different scales. This method has certain application prospects in the fields of exploring the correlation mechanism between the visual characteristics of landscape space and the behavioral preferences of crowds, predicting the behavioral activities of crowds, and designing the interaction between people and the environment.

     

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