WO2019196186A1 - 一种用于构建城市设计数字化沙盘的系统 - Google Patents
一种用于构建城市设计数字化沙盘的系统 Download PDFInfo
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06T—IMAGE DATA PROCESSING OR GENERATION, IN GENERAL
- G06T17/00—Three dimensional [3D] modelling, e.g. data description of 3D objects
- G06T17/05—Geographic models
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06T—IMAGE DATA PROCESSING OR GENERATION, IN GENERAL
- G06T17/00—Three dimensional [3D] modelling, e.g. data description of 3D objects
- G06T17/10—Constructive solid geometry [CSG] using solid primitives, e.g. cylinders, cubes
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F30/00—Computer-aided design [CAD]
- G06F30/10—Geometric CAD
- G06F30/13—Architectural design, e.g. computer-aided architectural design [CAAD] related to design of buildings, bridges, landscapes, production plants or roads
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06T—IMAGE DATA PROCESSING OR GENERATION, IN GENERAL
- G06T19/00—Manipulating 3D models or images for computer graphics
- G06T19/003—Navigation within 3D models or images
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- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F2111/00—Details relating to CAD techniques
- G06F2111/20—Configuration CAD, e.g. designing by assembling or positioning modules selected from libraries of predesigned modules
Definitions
- the invention belongs to the technical field of urban planning, and particularly relates to a system for constructing a digital sand table for urban design.
- the digital sandbox technology is an electronic sandbox technology based on RS and GIS technology, which integrates image data, vector space data and subsequent calculation and display functions.
- the digital sand table is mainly applied to the relatively large geographical scale, and has the following four advantages: rapid and convenient generation of digital terrain; detailed and intuitive display of digital terrain; retrieval and analysis; integrated 3S system.
- digital sandboxes With the support of computers, geographic information systems, virtual reality, visualization technology and multimedia technology, digital sandboxes have been used in military, circuit planning, real estate, water conservancy, fire protection, regional planning and geography research.
- the basic process of a general digital sandbox system is as follows: (1) preparation and processing of terrain data; (2) preparation and processing of remote sensing image data; (3) geometric operations such as geometric correction, fusion, and cutting; (4) society Economic data, thematic data, etc.; (5) MAPGIS system platform integration spatial database, attribute database, image database, etc.; (6) three-dimensional visualization, browsing, query; statistical analysis; printout.
- the functions of digital sandbox can be summarized into three categories: sandbox system basic functions, data maintenance functions and statistical analysis functions.
- the basic functions of the sandbox system include: collection and editing of multi-source data, basic operations of maps, layer operations, basic transformation of projections, editing of thematic maps, attribute query, data printout and visualization.
- Data maintenance functions including: update and maintenance of network data, image data, graphic data and attribute data.
- Statistical analysis functions including: connection visibility and visual domain, earthwork calculation, flood analysis, network analysis, image analysis and other practical analysis functions.
- the existing digital sandbox technology is more about the processing of existing terrain and economic data, but does not solve the problem of digitization and loading of urban design, nor does it solve the problem of multi-source big data and urban spatial form data.
- the present invention provides a system for constructing a digital sand table for urban design, which can construct a digital environment for urban design sand disks, and digitally according to actual needs of urban design.
- the function of the sand table is divided, and the urban design plan can be conveniently introduced into the overall environment of the city, and used as a platform to carry out digital research, analysis, management and control of the urban design.
- a system for constructing a digital sand table for urban design comprising the following modules:
- Sandbox environment building module for digital environment construction of urban design sandbox
- the feature grading display module is used for hierarchical management of urban design elements, and is hierarchically displayed by constructing a visual precision grading system;
- a spatial indicator interpretation module for attaching names, algorithms, and attributes to indicators in the urban design digital sandbox indicator library
- a spatial calculation tool module for loading a toolkit to calculate a selected range in the urban digital sandbox
- An offline data extraction module for exporting two-dimensional and three-dimensional data in a selected space range in an offline mode
- Dynamic real-time editing module for real-time editing of urban digital design schemes loaded in the system is a Dynamic real-time editing module for real-time editing of urban digital design schemes loaded in the system.
- the sandbox environment building module implements the digital environment construction of the urban design sandbox by performing the following steps:
- Multi-source big data is converted into coordinate system, unified into the coordinate system of the city, stored in SHP format, realizes digital superposition of multi-source big data; multi-source big data includes business POI, mobile phone signaling, LBS positioning Etc., unified as the city coordinate system, usually the Yellow Sea coordinate system.
- the database type data source includes Oracle Plus, Oracle Spatial, SQL Server Plus, PostgreSQL, DB2, etc., and its geometric information and attribute information are stored in the database.
- the front end adopts the C/S platform architecture sandbox and module system, and the deployment form is an EXE executable file; the MongoDB database is deployed in the background to share and publish the current data such as tilt photography, and the GIS data server; the front end through the database port and GIS data service URL, loading background data.
- the level of detail of the element display is displayed hierarchically.
- LOD Levels Of Details
- the level of detail of the feature display is displayed hierarchically, and the features of the near feature are displayed by the fine model effect, and the distant elements are displayed by the simple model for improving the elements. Rendering performance.
- the spatial indicator interpretation module function :
- the spatial computing tool module is divided into three spatial computing toolkits: space basic computing toolkit, single-dimensional data computing toolkit, multi-source data coupling computing toolkit, and through the above toolkit
- space basic computing toolkit space basic computing toolkit
- single-dimensional data computing toolkit single-dimensional data computing toolkit
- multi-source data coupling computing toolkit multi-source data coupling computing toolkit
- the spatial analysis of the selected set or range is performed separately, the distribution structure analysis of the single-dimensional data type, and the superposition coupling degree analysis of any two types of data in the multi-source data.
- the offline data extraction module function :
- (5.1) Delineate the spatial extent of the data that needs to be extracted offline on the system map by drawing and selecting; in which, the space range defined on the system map by drawing selection means that multiple clicks on the system map are sequentially formed by the mouse.
- a coordinate area a closed area formed by sequentially connecting a plurality of coordinate points, that is, a spatial range in which data is extracted offline;
- the urban design scheme loaded in the system, by dragging and dropping interactive operations or interface modification parameters, based on memory simulation, real-time stretching or scaling model size, dynamically reconstructing the model, and adjusting the model rendering color in real time based on texture mapping technology Or texture map.
- the urban design digital sand table system provided by the present invention, according to the current digital trend of urban design development, and based on actual functional requirements, based on the urban environment, multi-source big data and digital design of urban design, different
- the digital sandbox system consisting of functional modules can easily load urban design results into the urban environment and carry out corresponding digital interaction, analysis, research, management and control.
- the invention fills the gap in this technical field, and constructs a scientific, standardized and convenient urban design digital sand table system, and the formed system can be applied to various aspects such as design and management of urban sand table.
- FIG. 1 is a schematic diagram of a system module for constructing a digital sandbox for urban design according to the present invention
- FIG. 2 is a schematic diagram of a construction interface of a digital environment of an urban design sand disk according to the present invention, that is, a schematic diagram of a sandbox environment construction module;
- FIG. 3 is a schematic diagram of a component hierarchical display module
- FIG. 4 is a schematic diagram of a spatial indicator interpretation module
- Figure 5 is a schematic diagram of an offline data extraction module.
- the invention discloses a system for constructing a digital sand table for urban design.
- the system comprises the following modules: a sandbox environment building module, constructing a digital environment for urban design sandbox, and digitizing the urban built environment, multi-source big data and urban design scheme. Conversion and spatial superposition; according to the actual needs of urban design, the digital sand table is divided into five functional modules, including three technical modules, including: element hierarchical display module, spatial indicator interpretation module, spatial computing tool module; management module 2, respectively: offline data extraction module and dynamic instant editing module.
- the feature grading display module hierarchical management of urban design elements, and visualized hierarchical display; spatial indicator interpretation module, the name, algorithm and attribute of the indicators in the urban design digital sandbox index library; space calculation
- the tool module calculates the selected range loading toolkit in the digital sandbox;
- the offline data extraction module extracts the digital sand table data in the offline mode for exporting the two-dimensional or three-dimensional spatial data;
- the dynamic instant editing module is used for The urban digital design scheme loaded in the system performs real-time editing operations.
- the module composition of the system is shown in Figure 1.
- the module is described in detail as follows:
- the sandbox environment construction module is constructed for the digital environment of the urban design sandbox, as shown in Fig. 2, which is a schematic diagram of the construction interface of the digital environment of the urban design sandbox of the present invention.
- the front end of the system adopts the C/S platform architecture sandbox and module system, and the deployment form is an EXE executable file;
- the MongoDB database is deployed in the background to share and release natural and built environment data such as tilt photography.
- the GIS data server the front end loads the background data through the database port and the GIS data service URL.
- the 3D model data and control element data of the design scheme are stored in the database type data source.
- the database type data source includes various databases such as Oracle Plus, Oracle Spatial, SQL Server Plus, PostgreSQL, DB2, etc., and the geometric information and attribute information are stored. In the database.
- (3.2) Prepare an indicator meaning table, which is based on the urban design digital sandbox indicator library, and further serves as an index file of the indicator library, which records the indicator code, which is the unique value of the indicator, and is used to read from the indicator library.
- the specified index, the indicator name, and the index algorithm are included, which include the index function name, the index index calculation implementation function, and the indicator description, which are used to describe the indicator meaning and the calculation parameter.
- the indicator meaning table can also include other attributes besides the above attributes. Among them, some indicators are shown in Table 2 below:
- the spatial basic calculation toolkit performs geometric analysis of the spatial shape of the selected range, and can be implemented by loading a tool module such as distance analysis, region analysis, and neighborhood analysis under SuperMap;
- Neighborhood analysis a visual representation of a conceptual class in a neighborhood or an object in the real world
- the single-dimensional data calculation toolkit analyzes the distribution structure of the single-dimensional data type for the selected range, and can be loaded with tool modules such as interpolation analysis and density analysis under SuperMap;
- Interpolation analysis predicting pixel values in the grid based on finite sample data points, kriging interpolation
- Density analysis interpolation calculation by discrete point data or line data, according to different interpolation principles, mainly divided into nuclear density analysis and ordinary point or line density analysis;
- the multi-source data coupling calculation tool kit analyzes the superposition coupling degree of any two types of data in the multi-source data for the selected range, and can be loaded by a multi-analysis, superposition analysis and other tool modules under SuperMap;
- Multivariate analysis an analytical method for studying the relationship between multiple independent variables and dependent variables
- Superposition analysis under the unified spatial reference system, generates a new data analysis method through a series of set operations on any two types of data in multi-source data.
- the space range defined on the system map by means of drawing selection refers to a closed area formed by sequentially clicking a plurality of coordinate points by sequentially clicking a plurality of coordinate points on the system map by the mouse, that is, extracting data offline The range of space.
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Abstract
Description
Claims (7)
- 一种用于构建城市设计数字化沙盘的系统,其特征在于,包括以下模块:沙盘环境构建模块,用于城市设计沙盘的数字化环境构建;要素分级显示模块,用于对城市设计要素进行分层管理,并通过构建可视化精度分级体系进行分级显示;空间指标解释模块,用于对城市设计数字化沙盘指标库中的指标进行名称、算法及属性的挂接;空间计算工具模块,用于加载工具包,对城市数字化沙盘中选定的范围进行计算;离线数据提取模块,用于在离线模式下,导出选择空间范围内的二维和三维数据;动态即时编辑模块,用于对系统中加载的城市数字化设计方案进行实时编辑操作。
- 根据权利要求1所述的一种用于构建城市设计数字化沙盘的系统,其特征在于,所述沙盘环境构建模块通过执行以下步骤实现对城市设计沙盘的数字化环境构建:(1.1)获取城市范围内三维切片缓存模型数据,将模型数据进行数字化转换,生成可参与计算的单体模型;(1.2)将多源大数据进行坐标系的转换,统一为所在城市坐标系,存储为SHP格式,实现多源大数据的数字化叠合;(1.3)将城市三维模型设计文件进行格式转换,并进行修编,转换为系统支持的UDB格式的数据源,实现城市设计方案的数字化转换;(1.4)以点、线、面的方式抽取城市设计方案的控制要素,实现对城市设计方案控制要素的提取;(1.5)对城市设计数字化沙盘建成的环境模型及多源大数据文件进行多维数据的储存、共享与发布。
- 根据权利要求1所述的一种用于构建城市设计数字化沙盘的系统,其特征在于,所述要素分级显示模块功能:(2.1)对城市设计要素数据进行分层存储,并对设计要素以图层树的方式进行分级显示,基于需求交互,动态管理分层设计要素的显示或隐藏;(2.2)根据不同的显示需求,构建可视化精度的分级体系,在不同比例尺下显示相对应精度的要素内容;(2.3)根据可视化精度分级体系,对要素显示的细节层次进行分级展示。
- 根据权利要求1所述的一种用于构建城市设计数字化沙盘的系统,其特征在于,所述空间指标解释模块功能:(3.1)将所有城市设计中的专业性指标术语进行汇总,形成城市设计数字化沙盘指标库;(3.2)编制指标涵义表,指标涵义表指在城市设计数字化沙盘指标库的基础上,作为指标库的索引文件;(3.3)将指标涵义表录入系统,使得每个指标名词挂接上包括指标解释以及计算公式在内的多个属性链接。
- 根据权利要求1所述的一种用于构建城市设计数字化沙盘的系统,其特征在于,所述空间计算工具模块功能:(4.1)通过要素点选或框选的方式,选择多个要素构成集合或一定的空间范围;(4.2)基于选取的要素集合或空间范围,依据空间指标解释模块,自动获取空间范围内要素模型信息数据,计算出基本空间指标;(4.3)根据城市设计空间计算需求,将空间计算工具模块划分为三个空间计算工具包:空间基础计算工具包、单维度数据计算工具包、多源数据耦合计算工具包,并且通过上述工具包对所选集合或范围分别进行空间形态的几何分析、单维度数据类型的分布结构分析、多源数据中的任意两类数据的叠加耦合程度分析。
- 根据权利要求1所述的一种用于构建城市设计数字化沙盘的系统,其特征在于,所述离线数据提取模块功能:(5.1)以画选的方式在系统地图上圈定需要离线提取数据的空间范围;(5.2)基于多边形裁切,打包导出选择空间范围内的二维和三维数据。
- 根据权利要求1所述的一种用于构建城市设计数字化沙盘的系统,其特征在于,所述动态即时编辑模块功能:对系统中加载的城市设计方案,通过鼠标拖拽交互操作或界面化修改参数的方式,基于内存模拟,实时拉伸或缩放模型尺寸,动态重建模型,并基于纹理映射技术,实时调整模型渲染颜色或纹理贴图。
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