├── .github ├── FUNDING.yml └── sponsor.md ├── GIS原理 ├── 第一章 绪论.png ├── 第七章 空间数据分析.png ├── 第三章 空间数据获取.png ├── 第二章 GIS的构成.png ├── 第五章 空间数据处理.png ├── 第八章 制图与可视化.png ├── 第六章 空间数据管理.png └── 第四章  空间数据表达.png ├── GIS可视化 ├── VGIS-1.png ├── VGIS-2.png ├── VGIS-4.png ├── VGIS-6.png ├── VGIS-7.png └── 提纲.pdf ├── GIS工程设计 ├── 2 GIS工程设计思想和内容.png ├── 3 GIS工程方法学.png ├── 4 系统定义.png ├── 5 系统总体设计.png └── 7 空间数据库设计.png ├── README.md ├── 摄影测量原理 ├── 解析摄影测量.png └── 解析摄影测量.pos ├── 空间数据库 ├── 1 空间数据库的基础 .png ├── 1 空间数据库的基础.pos ├── 2 空间实体.png ├── 2 空间实体.pos ├── 3 时空信息表达.png ├── 3 时空信息表达.pos ├── 4 时空数据组织与建模.png ├── 4 时空数据组织与建模.pos ├── 5 空间数据存储与空间索引.png └── 5 空间数据存储与空间索引.pos └── 遥感原理与应用 ├── 第一章 绪论.png ├── 第七章 遥感图像判读.png ├── 第三章 遥感平台及运行特点.png ├── 第二章 电磁波及遥感物理基础.png ├── 第五章 遥感图像的几何形变.png ├── 第八章 遥感影像自动识别分类.png ├── 第六章 遥感图像的辐射处理.png └── 第四章 遥感传感器及其成像原理.png /.github/FUNDING.yml: -------------------------------------------------------------------------------- 1 | custom: ['https://github.com/lsq210/Mind-Map/blob/master/.github/sponsor.md#我的支付宝二维码'] 2 | -------------------------------------------------------------------------------- /.github/sponsor.md: -------------------------------------------------------------------------------- 1 | ### 我的支付宝二维码 2 | ![支付宝二维码](https://lsq210.github.io/photo-album/readme/mind-map/alipay.jpg) -------------------------------------------------------------------------------- /GIS原理/第一章 绪论.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/GIS原理/第一章 绪论.png -------------------------------------------------------------------------------- /GIS原理/第七章 空间数据分析.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/GIS原理/第七章 空间数据分析.png -------------------------------------------------------------------------------- /GIS原理/第三章 空间数据获取.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/GIS原理/第三章 空间数据获取.png -------------------------------------------------------------------------------- /GIS原理/第二章 GIS的构成.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/GIS原理/第二章 GIS的构成.png -------------------------------------------------------------------------------- /GIS原理/第五章 空间数据处理.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/GIS原理/第五章 空间数据处理.png -------------------------------------------------------------------------------- /GIS原理/第八章 制图与可视化.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/GIS原理/第八章 制图与可视化.png -------------------------------------------------------------------------------- /GIS原理/第六章 空间数据管理.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/GIS原理/第六章 空间数据管理.png -------------------------------------------------------------------------------- /GIS原理/第四章  空间数据表达.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/GIS原理/第四章  空间数据表达.png -------------------------------------------------------------------------------- /GIS可视化/VGIS-1.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/GIS可视化/VGIS-1.png -------------------------------------------------------------------------------- /GIS可视化/VGIS-2.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/GIS可视化/VGIS-2.png -------------------------------------------------------------------------------- /GIS可视化/VGIS-4.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/GIS可视化/VGIS-4.png -------------------------------------------------------------------------------- /GIS可视化/VGIS-6.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/GIS可视化/VGIS-6.png -------------------------------------------------------------------------------- /GIS可视化/VGIS-7.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/GIS可视化/VGIS-7.png -------------------------------------------------------------------------------- /GIS可视化/提纲.pdf: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/GIS可视化/提纲.pdf -------------------------------------------------------------------------------- /GIS工程设计/2 GIS工程设计思想和内容.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/GIS工程设计/2 GIS工程设计思想和内容.png -------------------------------------------------------------------------------- /GIS工程设计/3 GIS工程方法学.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/GIS工程设计/3 GIS工程方法学.png -------------------------------------------------------------------------------- /GIS工程设计/4 系统定义.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/GIS工程设计/4 系统定义.png -------------------------------------------------------------------------------- /GIS工程设计/5 系统总体设计.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/GIS工程设计/5 系统总体设计.png -------------------------------------------------------------------------------- /GIS工程设计/7 空间数据库设计.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/GIS工程设计/7 空间数据库设计.png -------------------------------------------------------------------------------- /README.md: -------------------------------------------------------------------------------- 1 | ## 说明 2 | 因为期末考试需要复(预)习很多门课,有些课的内容还是很多的,就借助思维导图来帮忙了。 3 | 后来觉得太好看了哈哈哈😝 就决定传上来,有缘人自取吧~ 4 | 5 | ![GIS 原理](https://lsq210.github.io/photo-album/readme/mind-map/mind-maps.png) 6 | ![GIS 原理](https://lsq210.github.io/photo-album/readme/mind-map/map2.png) 7 | ![遥感原理与应用](https://lsq210.github.io/photo-album/readme/mind-map/map3.png) 8 | ![遥感原理与应用](https://lsq210.github.io/photo-album/readme/mind-map/map4.png) 9 | #### 在线访问 10 | GIS 原理 第四章 地理空间数据表达 11 | GIS 原理 第七章 地理空间数据分析 12 | ## 资源 13 | 基本都是遥感院本科的课程,目前已有的课程如下,佛系更新ing... 14 | - 《GIS 原理》 1~8章 15 | - 《遥感原理与应用》 1~8章 16 | - 《GIS 工程设计》 2~7章 17 | - 《GIS 可视化》 12467章 (pdf 带页码) 18 | - 《空间数据库》 1~5章(含 pos 格式) 19 | - 《摄影测量原理》 解析(含 pos 格式) 20 | ***** 21 | 如果有帮到你的话,不妨给我点颗⭐或买杯☕。我会用来去水印,添加功能,画出更好看的思维导图! 22 | 要是能攒够会员钱,我还能导出更多格式的图(我在做梦 23 | -------------------------------------------------------------------------------- /摄影测量原理/解析摄影测量.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/摄影测量原理/解析摄影测量.png -------------------------------------------------------------------------------- /摄影测量原理/解析摄影测量.pos: -------------------------------------------------------------------------------- 1 | {"diagram":{"image":{"height":200,"pngdata":"iVBORw0KGgoAAAANSUhEUgAAAMgAAADICAYAAACtWK6eAAAACXBIWXMAAAsTAAALEwEAmpwYAAAAsUlEQVR4nO3BAQEAAACCIP+vbkhAAQAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAB8GXHmAAFMgHIEAAAAAElFTkSuQmCC","width":200,"y":0,"x":0},"elements":{"id":"root","structure":"mind_right","leftChildren":[],"title":"解析摄影测量","root":true,"theme":"default","children":[{"id":"e8ed802d3d13","title":"1 绪论","children":[{"id":"d88699a43275","title":"基本概念","children":[{"id":"e0274e72048f","title":"定义","parent":"d88699a43275","children":[{"id":"a6dd027e54e7","title":"摄影测量与遥感","parent":"e0274e72048f","children":[]},{"id":"6de3c9537a42","title":"摄影测量学","parent":"e0274e72048f","children":[]}]},{"id":"0acee27911ce","title":"平台","parent":"d88699a43275","children":[{"id":"6ad9e55614fa","title":"航天飞机、无线电探空仪、喷气机、飞艇、飞机、索道、地面测量车","parent":"0acee27911ce","children":[]}]},{"id":"efe290468ba4","title":"分类","parent":"d88699a43275","children":[{"id":"14f91f6da3c7","title":"距离远近","parent":"efe290468ba4","children":[{"id":"7ef48e31da12","title":"航天","parent":"14f91f6da3c7","children":[]},{"id":"5dd36b8cf4ac","title":"航空","parent":"14f91f6da3c7","children":[]},{"id":"95158415261a","title":"地面","parent":"14f91f6da3c7","children":[]},{"id":"7665348080b9","title":"近景(小于100)","parent":"14f91f6da3c7","children":[]},{"id":"e5e0627d5df5","title":"显微
","parent":"14f91f6da3c7","children":[]}]},{"id":"ee5d70119d8b","title":"用途","parent":"efe290468ba4","children":[{"id":"a8539bd4b053","title":"地形","parent":"ee5d70119d8b","children":[{"id":"01af1f226733","title":"各种比例尺地形图、专题图,正射影像地图、景观图","parent":"a8539bd4b053","children":[]},{"id":"1ffecbf44388","title":"建立各种数据库
","parent":"a8539bd4b053","children":[]},{"id":"b0ef16217eb7","title":"提供地理信息系统和土地信息系统所需要的基础数据","parent":"a8539bd4b053","children":[]}],"summaries":[]},{"id":"2f5bd0c7064c","title":"非地形","parent":"ee5d70119d8b","children":[{"id":"4865dd1aac3d","title":"生物医学、公安侦破、古文物、
变形监测、军事侦察、矿山工程","parent":"2f5bd0c7064c","children":[]}]}],"summaries":[{"summary":true,"id":"fd3496206ac9","title":"任务","range":1,"parent":"ee5d70119d8b","children":[]}]},{"id":"92ade2ec5d22","title":"处理手段","parent":"efe290468ba4","children":[{"id":"918744733e0d","title":"模拟、解析、数字","parent":"92ade2ec5d22","children":[]}]}]},{"id":"5d79401f72fb","title":"特点","parent":"d88699a43275","children":[{"id":"3f6282180164","title":"无需接触物体本身,即可获得被摄物体的信息
","parent":"5d79401f72fb","children":[]},{"id":"4ac683f4a9fb","title":"由二维影像重建三维目标
","parent":"5d79401f72fb","children":[]},{"id":"6fdc05784c08","title":"同时提取物体的几何与物理特性","parent":"5d79401f72fb","children":[]}]},{"id":"67b635505e83","title":"任务","parent":"d88699a43275","children":[]}],"parent":"e8ed802d3d13"},{"id":"a094fbe49ffe","title":"发展历程","parent":"e8ed802d3d13","children":[{"id":"639a4b374f6b","title":"起源","parent":"a094fbe49ffe","children":[{"id":"f0ec7bc6b7c5","title":"第一次世界大战","children":[],"parent":"639a4b374f6b"}]},{"id":"61085258da33","title":"三个阶段","parent":"a094fbe49ffe","children":[{"id":"18cd8ea1c6a7","title":"模拟 1851-1970","parent":"61085258da33","children":[]},{"id":"f30902fb5d1a","title":"解析 1950-1980","parent":"61085258da33","children":[]},{"id":"a44aa73f02b9","title":"数字 1970-现在","parent":"61085258da33","children":[]}]}]},{"id":"ac85cf75640a","title":"发展趋势
","children":[{"id":"3a84ed7a5de6","title":"多传感器集成","children":[],"parent":"ac85cf75640a"},{"id":"4616b593c1ec","title":"无地面控制
","children":[],"parent":"ac85cf75640a"},{"id":"e81ff990d32a","title":"自动化和智能化空间信息提取","children":[],"parent":"ac85cf75640a"}],"parent":"e8ed802d3d13"}],"parent":"root","collapsed":true},{"id":"2f51b427427d","title":"2 单幅影像解析基础","children":[{"id":"b7b5784a5fe6","title":"航摄像片的投影关系","parent":"2f51b427427d","children":[{"id":"82d6311b483b","title":"航空摄影与航摄像片","children":[{"id":"6f57cab2d6b9","title":"主点
","parent":"82d6311b483b","children":[]},{"id":"c46921a9d65a","title":"焦距","parent":"82d6311b483b","children":[]},{"id":"d5e5b692f3cd","title":"像场
","parent":"82d6311b483b","children":[]},{"id":"caf6083690fa","title":"重叠","children":[],"parent":"82d6311b483b"},{"id":"e9a145904b0f","title":"弯曲
","children":[],"parent":"82d6311b483b"},{"id":"8898456ef6db","title":"旋角","children":[],"parent":"82d6311b483b"},{"id":"b471f897e698","title":"基线","children":[],"parent":"82d6311b483b"},{"id":"d029e99a5e31","title":"比例尺","children":[],"parent":"82d6311b483b"}],"parent":"b7b5784a5fe6","collapsed":true},{"id":"b48f11568105","title":"航摄像片与地形图
","children":[{"id":"e8ce024c5a58","title":"投影
","parent":"b48f11568105","children":[]},{"id":"fbcfc38a01e1","title":"像点位移","parent":"b48f11568105","children":[]},{"id":"432367c80d0f","title":"二者区别
","parent":"b48f11568105","children":[{"id":"c0aa56ff13e8","title":"投影方式","parent":"432367c80d0f","children":[]},{"id":"b7898fc70e0b","title":"比例尺
","parent":"432367c80d0f","children":[]},{"id":"df072cd8ce69","title":"表示方法","children":[],"parent":"432367c80d0f"},{"id":"bea8f1839008","title":"表示内容","parent":"432367c80d0f","children":[]}]}],"parent":"b7b5784a5fe6"},{"id":"f6a6161da99a","title":"透视变换中的一些重要点、线、面及特性","children":[{"id":"fe21564d3840","title":"透视变换","parent":"f6a6161da99a","children":[{"id":"ba52c401be88","title":"定义","children":[],"parent":"fe21564d3840"},{"id":"3374c1b3ed5f","title":"特性","children":[{"id":"6c08cd06882b","title":"同素性
","children":[],"parent":"3374c1b3ed5f"},{"id":"e752ca4feee1","title":"互换性
","children":[],"parent":"3374c1b3ed5f"},{"id":"181c23ae9723","title":"结合性
","children":[],"parent":"3374c1b3ed5f"}],"parent":"fe21564d3840"}]},{"id":"9959385ed782","title":"点、线、面","parent":"f6a6161da99a","children":[{"id":"c54e4b09562c","title":"定义","parent":"9959385ed782","children":[]},{"id":"aa20075c8d0a","title":"特性","parent":"9959385ed782","children":[{"id":"2206eeb35aac","title":"像底点","parent":"aa20075c8d0a","children":[]},{"id":"585eb59225bf","title":"等角点
","parent":"aa20075c8d0a","children":[]},{"id":"2252a65efb14","title":"等比线","parent":"aa20075c8d0a","children":[]}]}]}],"parent":"b7b5784a5fe6"}],"collapsed":true},{"id":"dd606c354d5d","title":"单张像片解析 
","parent":"2f51b427427d","children":[{"id":"258b259090c9","title":"摄影测量常用坐标系
","parent":"dd606c354d5d","children":[{"id":"548d614ffa8c","tags":[{"text":"a(x,y)","color":"#276F86","background":"#d6f0f8"}],"title":"像平面直角坐标系","children":[{"id":"e6eceac74161","title":"框标","children":[],"parent":"548d614ffa8c"},{"id":"e17493bb433b","title":"像主点
","children":[],"parent":"548d614ffa8c"},{"id":"f800daf75edc","title":"主纵线
","children":[],"parent":"548d614ffa8c"}],"parent":"258b259090c9"},{"tags":[{"text":"a(x,y,-f)","color":"#276F86","background":"#d6f0f8"}],"id":"ee0e7c08b134","title":"像空间直角坐标系","children":[],"parent":"258b259090c9"},{"id":"acc4ceafc1eb","tags":[{"text":"a(X,Y,Z)","color":"rgb(39, 111, 134)","background":"rgb(214, 240, 248)"}],"title":"像空间辅助直角坐标系
","children":[],"parent":"258b259090c9"},{"id":"803a56c096eb","tags":[{"text":"A(Xp,Yp,Zp)","color":"#276F86","background":"#d6f0f8"}],"title":"摄影测量坐标系","parent":"258b259090c9","children":[]},{"id":"38e3d58efcb7","tags":[{"text":"A(Xtp,Ytp,Ztp)","color":"#276F86","background":"#d6f0f8"}],"title":"地面摄影测量坐标系
","children":[],"parent":"258b259090c9"},{"tags":[{"text":"A(Xt,Yt,Zt)","color":"#276F86","background":"#d6f0f8"}],"id":"1789b43e7a27","title":"地面测量坐标系
","parent":"258b259090c9","children":[{"id":"9d7b14077938","title":"国家统一坐标系","children":[],"parent":"1789b43e7a27"},{"id":"a06ef3a6235d","title":"左手","parent":"1789b43e7a27","children":[]}]}],"collapsed":false},{"id":"fc7f9c08194d","title":"航摄像片的方位元素","parent":"dd606c354d5d","children":[{"id":"19339314391e","title":"内方位元素 3","children":[{"id":"28f2a1954ca0","title":"确定摄影物镜节点与像片之间相互位置关系的参数","parent":"19339314391e","children":[]},{"id":"98922fc826b2","title":"像主点、主距
","parent":"19339314391e","children":[]}],"parent":"fc7f9c08194d"},{"id":"0cb80fb188be","title":"外方位元素 6","children":[{"id":"8607162c3a07","title":"确定摄影瞬间像片在地面直角坐标系中空间位置和姿态的参数","parent":"0cb80fb188be","children":[]},{"id":"9297f3a0c439","title":"线元素","parent":"0cb80fb188be","children":[],"summaries":[]},{"id":"5fecce17e6fa","title":"角元素
","parent":"0cb80fb188be","children":[]}],"parent":"fc7f9c08194d"}]},{"id":"986bf376cd84","title":"空间直角坐标变换","parent":"dd606c354d5d","children":[]}],"collapsed":false},{"id":"b077c5c5e684","title":"共线条件方程","children":[{"id":"b44600683279","title":"推导过程","parent":"b077c5c5e684","children":[]},{"id":"1a4a17c79669","title":"应用","parent":"b077c5c5e684","children":[{"id":"d0a6a7323252","title":"求像底点坐标
","parent":"1a4a17c79669","children":[]},{"id":"387b2c0f0be4","title":"单像空间后方交会和多像空间前方交会
","parent":"1a4a17c79669","children":[]},{"id":"374e482cc124","title":"摄影测量中的数字投影基础
","parent":"1a4a17c79669","children":[]},{"id":"43598a1abccb","title":"航空影像模拟
","parent":"1a4a17c79669","children":[]},{"id":"bd76e065c150","title":"光束法平差的基本数学模型
","parent":"1a4a17c79669","children":[]},{"id":"6841e739b253","title":"利用DEM制作数字正射影像图
","parent":"1a4a17c79669","children":[]},{"id":"1ab49b07c229","title":"利用DEM进行单张像片测图","parent":"1a4a17c79669","children":[]}],"collapsed":true},{"id":"ed4d257974f5","title":"线性化","parent":"b077c5c5e684","children":[]}],"parent":"2f51b427427d","collapsed":true},{"id":"8ae1dabdc839","title":"单片空间后方交会","parent":"2f51b427427d","children":[{"id":"0f900f15ac34","title":"定义","parent":"8ae1dabdc839","children":[{"id":"896eca3286e4","title":"根据影像覆盖范围内一定数量的分布合理的地面控制点(已知其像点和地面点的坐标),
利用共线条件方程求解像片外方位元素
","parent":"0f900f15ac34","children":[]}]},{"id":"20fef52d4552","title":"误差方程和法方程","parent":"8ae1dabdc839","children":[]},{"id":"3ef0d648c74c","title":"计算过程","parent":"8ae1dabdc839","children":[]}],"collapsed":true},{"id":"fcc80fd07af4","title":"像点位移与方向偏差","parent":"2f51b427427d","children":[{"id":"537340504b31","title":"定义","parent":"fcc80fd07af4","children":[{"id":"e1af97129736","title":"像点位移","parent":"537340504b31","children":[{"id":"831581ebaa31","title":"当像片倾斜、地面起伏时,地面点在航摄像片上构像相对于理想情况下的构像所产生的位置差异称~","parent":"e1af97129736","children":[]}]},{"id":"f776757d1bc1","title":"方向偏差","parent":"537340504b31","children":[{"id":"3dbf51cdfb13","title":"从像片上某点作出的方向线与地面对应点画出的方向线的方位角不等,这种差异称为~","parent":"f776757d1bc1","children":[]}]}]},{"id":"278af9fe0a57","title":"由像片倾斜引起的","parent":"fcc80fd07af4","children":[{"id":"bba356b4dc98","title":"像点位移出现在等角点为中心的辐射线上
","children":[],"parent":"278af9fe0a57"},{"id":"2ce8f80ff893","title":"等比线上无像点位移,等比线上任意两点的连线无方向偏差,过等角点直线两点的连线无方向偏差
","parent":"278af9fe0a57","children":[]},{"id":"9b73f4a9da95","title":"等比线将影像分成两个部分","children":[{"id":"a3dd03234780","title":"上部分影像线段短,比例尺小
","children":[],"parent":"9b73f4a9da95"},{"id":"6358dd58ca68","title":"下部分影像线段长,比例尺大","parent":"9b73f4a9da95","children":[]}],"parent":"278af9fe0a57"}],"collapsed":true},{"id":"880cc7fe4ce5","title":"由地面起伏引起的","parent":"fcc80fd07af4","children":[{"id":"7ec25e58cdfe","title":"当h为正时,像点位移为正,位移背向像底点;h为负,位移为负,朝向像底点
","children":[],"parent":"880cc7fe4ce5"},{"id":"a3c58b838014","title":"像底点处无像点位移,过像底点引出的直线无方向偏差
","parent":"880cc7fe4ce5","children":[]}],"collapsed":true}]}],"parent":"root","collapsed":false},{"id":"851ab5d85abf","title":"3 双像立体测图
","parent":"root","children":[{"id":"fa355cc68464","title":"立体观察与像点坐标量测","parent":"851ab5d85abf","children":[{"id":"b77dd6abc7f6","title":"立体视觉原理
","children":[{"id":"fbe83f5e331f","title":"人眼的立体视觉","parent":"b77dd6abc7f6","children":[{"id":"3aedf189c0bc","title":"人用双眼观察景物可判断其远近,得到景物的立体效应,这种现象称为~","children":[],"parent":"fbe83f5e331f"}]},{"id":"bff86d4db96b","title":"人造立体视觉","parent":"b77dd6abc7f6","children":[{"id":"1538ee721c48","title":"观察立体像对得到地面景物立体影像的立体感觉称为~","children":[],"parent":"bff86d4db96b"}]},{"id":"8b9689bb0e23","title":"立体视觉条件","parent":"b77dd6abc7f6","children":[{"id":"300069c76e42","title":"立体像对","parent":"8b9689bb0e23","children":[]},{"id":"dfe8e5279ee9","title":"分像条件","parent":"8b9689bb0e23","children":[]},{"id":"41454b5f9580","title":"两像片上同名像点的连线与眼基线应大致平行","parent":"8b9689bb0e23","children":[]},{"id":"dc811e2e3a16","title":"两像片的比例尺应相近   <15%","parent":"8b9689bb0e23","children":[]}]},{"id":"ec466d4b438e","title":"立体效应","parent":"b77dd6abc7f6","children":[{"id":"ef4f04f254a2","title":"正立体","children":[{"id":"acfaeeb975bc","title":"立体模型与实物相似","children":[],"parent":"ef4f04f254a2"}],"parent":"ec466d4b438e"},{"id":"9778a88303b3","title":"反立体","children":[{"id":"8b3e51b824de","title":"立体模型与实物相反","children":[],"parent":"9778a88303b3"}],"parent":"ec466d4b438e"},{"id":"046db61b080a","title":"零立体","children":[{"id":"0be822bafb45","title":"起伏的视模型变平","children":[],"parent":"046db61b080a"}],"parent":"ec466d4b438e"}]}],"parent":"fa355cc68464"},{"id":"d348698d8e1c","title":"像对的立体观察方法","children":[{"id":"3bf5d994234d","title":"立体镜","parent":"d348698d8e1c","children":[{"id":"a5fa2fb2ff23","title":"桥式立体镜","parent":"3bf5d994234d","children":[]},{"id":"18e6980a09e9","title":"反光立体镜","parent":"3bf5d994234d","children":[{"id":"e66b19733c15","title":"扩大眼基距","parent":"18e6980a09e9","children":[]}]}]},{"id":"f5b17a38c9c9","title":"叠映影像","parent":"d348698d8e1c","children":[{"id":"353cbce6735c","title":"互补色法","children":[],"parent":"f5b17a38c9c9"},{"id":"777866e6dbe8","title":"光闸法","children":[],"parent":"f5b17a38c9c9"},{"id":"f5e501308bea","title":"偏振光法","children":[],"parent":"f5b17a38c9c9"}]},{"id":"489540a3b06e","title":"双目镜","parent":"d348698d8e1c","children":[{"id":"12b208d8bd7c","title":"移动调整像片","parent":"489540a3b06e","children":[]}]}],"parent":"fa355cc68464"},{"id":"04678274f8e5","title":"像点坐标获取与系统误差改正","parent":"fa355cc68464","children":[{"id":"3b56c916e7dc","title":"解析内定向
","parent":"04678274f8e5","children":[{"id":"618af693374e","title":"利用平面相似变换,将像片架坐标变换为以像主点为原点的像平面坐标","parent":"3b56c916e7dc","children":[]},{"id":"4cbeb40626b9","title":"方法","children":[{"id":"95f0d198c172","title":"正形变换
","children":[],"parent":"4cbeb40626b9"},{"id":"c2b56b6fe8e4","title":"仿射变换
","parent":"4cbeb40626b9","children":[]},{"id":"78c5202838c7","title":"双线性变换
","parent":"4cbeb40626b9","children":[]}],"parent":"3b56c916e7dc"},{"id":"c149557eaacb","title":"计算过程
","children":[{"id":"d8a6e91c3825","title":"获取框标点的理论坐标
","children":[],"parent":"c149557eaacb","icons":[]},{"id":"a3fe34c16c57","title":"选用合适的变换模型
","parent":"c149557eaacb","children":[],"icons":[]},{"id":"5c88cb6a2906","title":"建立误差方程
","parent":"c149557eaacb","children":[]},{"id":"09850cdd5298","title":"建立法方程并解算
","parent":"c149557eaacb","children":[]},{"id":"a0cbb7dea1d8","title":"由变换参数计算像点坐标","parent":"c149557eaacb","children":[]}],"parent":"3b56c916e7dc"}]},{"id":"0ec5ceebcd68","title":"像片系统预误差","parent":"04678274f8e5","children":[{"id":"64e66787210d","title":"摄影材料变形","children":[{"id":"18e605ae5494","title":"框标位于四个角","children":[{"id":"e37a9b5c6af9","title":"仿射变换","children":[],"parent":"18e605ae5494"}],"parent":"64e66787210d"},{"id":"1533334441f5","title":"框标位于中央","children":[{"id":"369031666df4","title":"比例缩放","children":[],"parent":"1533334441f5"}],"parent":"64e66787210d"}],"parent":"0ec5ceebcd68"},{"id":"6dcefae9d1d9","title":"镜头畸变","parent":"0ec5ceebcd68","children":[{"id":"3adf3d65c965","title":"相机提供;由控制点计算","children":[],"parent":"6dcefae9d1d9"}]},{"id":"368cc48ef8a9","title":"大气折光","children":[],"parent":"0ec5ceebcd68"},{"id":"a0ae34f952c4","title":"地球曲率","children":[],"parent":"0ec5ceebcd68"}]}]}],"collapsed":true},{"id":"14cec0bba08f","title":"立体像对前方交会","children":[{"id":"1cc21f7cf638","title":"定义","children":[{"id":"306fd6ddf6d0","title":"由立体像对中张像片内、外方位元素像点坐标来确定
相应地面点在物方空间坐标系中坐标的方法","children":[],"parent":"1cc21f7cf638"},{"id":"1aa2aa24b16c","title":"核面","parent":"1cc21f7cf638","children":[{"id":"65ed7f9acf59","title":"摄影基线与同一地面点发出的两条同名光线组成的面","parent":"1aa2aa24b16c","children":[]}]},{"id":"f2a3cf536649","title":"核线","children":[{"id":"d49d28c20d27","title":"核面与左右像片面的交线为同名核线","children":[],"parent":"f2a3cf536649"}],"parent":"1cc21f7cf638"},{"id":"1d53314fa1c4","title":"同名像点","children":[{"id":"926b4fd634e8","title":"同一地面点发出的两条光线经左右摄影中心
在左右像片上构成的像点称为~","children":[],"parent":"1d53314fa1c4"}],"parent":"1cc21f7cf638"},{"id":"a719ba801931","title":"同名光线","children":[{"id":"dd957115bc16","title":"同一地面点发出的两条光线称为~","children":[],"parent":"a719ba801931"}],"parent":"1cc21f7cf638"},{"id":"6ccc3b00776b","title":"像对","children":[{"id":"b22f739da5fe","title":"航向相邻两张像片组成一个像对","children":[],"parent":"6ccc3b00776b"},{"id":"5b9ad56fe15a","title":"理想像对","children":[{"id":"586a2ca0df81","title":"相邻两像片水平、摄影基线水平","children":[],"parent":"5b9ad56fe15a"}],"parent":"6ccc3b00776b"},{"id":"4bcd8c6fdde4","title":"正直像对","children":[{"id":"791e5932657c","title":"相邻两像片水平、摄影基线不水平","children":[],"parent":"4bcd8c6fdde4"}],"parent":"6ccc3b00776b"},{"id":"86be2f9df02d","title":"竖直像对","children":[{"id":"11792400fe98","title":"相邻两像片不严格水平、摄影基线不水平","children":[],"parent":"86be2f9df02d"}],"parent":"6ccc3b00776b"}],"parent":"1cc21f7cf638"}],"parent":"14cec0bba08f"},{"id":"a3f2aa3da2dc","title":"基本公式","children":[{"id":"a678f222bf64","title":"严密解法","children":[],"parent":"a3f2aa3da2dc"},{"id":"6af0f67aeccb","title":"点投影系数法","children":[],"parent":"a3f2aa3da2dc"}],"parent":"14cec0bba08f"}],"parent":"851ab5d85abf","collapsed":true},{"id":"83dc7d7a5c80","title":"解析法相对定向","parent":"851ab5d85abf","children":[{"id":"3f99f40013f4","title":"相对定向元素","parent":"83dc7d7a5c80","children":[{"id":"8ba285efe500","title":"描述立体像对中两张像片相对位置和姿态关系的参数
","parent":"3f99f40013f4","children":[]},{"id":"b40dec7d6e62","title":"连续法","parent":"3f99f40013f4","children":[]},{"id":"4485cd07694c","title":"单独法","parent":"3f99f40013f4","children":[]}]},{"id":"a7c7973ef44b","title":"相对定向原理","children":[{"id":"add4eca7a092","title":"同名光线交于核面 三个向量的混合积=0","children":[],"parent":"a7c7973ef44b"},{"id":"262b62b67570","title":"常数项的几何意义","children":[{"id":"35ceb03066fc","title":"=0,完成相对定向","children":[],"parent":"262b62b67570"}],"parent":"a7c7973ef44b"}],"parent":"83dc7d7a5c80"},{"id":"e6a25e8ae670","title":"相对定向的步骤","children":[],"parent":"83dc7d7a5c80"}]},{"id":"9bb97a5832f5","title":"解析法绝对定向","children":[{"id":"7703b2b48ad8","title":"绝对定向元素 7个","children":[],"parent":"9bb97a5832f5"},{"id":"8ecc68aa0443","title":"绝对定向原理","parent":"9bb97a5832f5","children":[]},{"id":"3c1896abf0bc","title":"绝对定向元素的计算","parent":"9bb97a5832f5","children":[]},{"id":"5562670493a9","title":"重心化坐标的好处","parent":"9bb97a5832f5","children":[{"id":"e126dd8a693c","title":"减少模型点坐标在计算过程中的有效位数,以保证计算的精度","parent":"5562670493a9","children":[]},{"id":"55578f190044","title":"使法方程的系数简化,个别项数值变为0,以提高计算的速度
","parent":"5562670493a9","children":[]}]}],"parent":"851ab5d85abf"}],"collapsed":false},{"id":"31793879e287","title":"4 解析空中三角测量","parent":"root","children":[{"id":"89dae0e00012","title":"概述","parent":"31793879e287","children":[{"id":"6622a1831197","title":"定义","parent":"89dae0e00012","children":[{"id":"3ee0db26902c","title":"指的是用摄影测量解析法确定区域内所有影像的外方位元素","parent":"6622a1831197","children":[]},{"id":"48cc0d287f88","title":"摄影测量加密","parent":"6622a1831197","children":[]}]},{"id":"8b0098a29f97","title":"意义","parent":"89dae0e00012","children":[{"id":"1f161656c534","title":"不触及被量测目标即可测定其位置和几何形状","parent":"8b0098a29f97","children":[]},{"id":"c73a619509c5","title":"可快速地在大范围内同时进行点位测定,以节省野外测量工作量","parent":"8b0098a29f97","children":[]},{"id":"8b46fa2f5f4e","title":"不受通视条件限制","parent":"8b0098a29f97","children":[]},{"id":"56c112486ee1","title":"区域内部精度均匀,且不受区域大小限制","parent":"8b0098a29f97","children":[]}]},{"id":"ffaf8332c553","title":"目的","parent":"89dae0e00012","children":[{"id":"ca0e8e8c5b11","title":"为测绘地形图提供定向控制点和像片定向参数","parent":"ffaf8332c553","children":[]},{"id":"10e5ed62c371","title":"测定大范围内界址点的统一坐标","parent":"ffaf8332c553","children":[]},{"id":"54de54f7c49a","title":"单元模型中大量地面点坐标的计算","parent":"ffaf8332c553","children":[]},{"id":"d6e3ca9faa43","title":"解析近景摄影测量和非地形摄影测量","parent":"ffaf8332c553","children":[]}]},{"id":"ef345fa12597","title":"分类","parent":"89dae0e00012","children":[{"id":"d388835d4624","title":"按数学模型","parent":"ef345fa12597","children":[{"id":"c681d53584b7","title":"航带法","parent":"d388835d4624","children":[{"id":"269d67f9f3ff","title":"航带模型;消除累积的系统误差","children":[],"parent":"c681d53584b7"}]},{"id":"19c65adc26ad","title":"独立模型法","parent":"d388835d4624","children":[{"id":"dfd3a971a247","title":"一个模型视为刚体,利用公共点连起来","parent":"19c65adc26ad","children":[]},{"id":"8d7df3d7e9d3","title":"变换时使模型间公共点的坐标尽可能一致","parent":"19c65adc26ad","children":[]},{"id":"7f89547e0bec","title":"控制点的坐标与地面摄测坐标尽可能一致","parent":"19c65adc26ad","children":[]},{"id":"f1830c7cecf6","title":"观测值改正数的平方和最小","parent":"19c65adc26ad","children":[]}]},{"id":"0e4ee681b49e","title":"光线束法","parent":"d388835d4624","children":[]}]},{"id":"48776f4d0d34","title":"按平差范围","parent":"ef345fa12597","children":[{"id":"53072275a42f","title":"单模型法","parent":"48776f4d0d34","children":[]},{"id":"bcf8e78f1ee7","title":"航带法","parent":"48776f4d0d34","children":[]},{"id":"88f47fe79698","title":"区域网法","parent":"48776f4d0d34","children":[]}]}]},{"id":"79555cb81420","title":"信息","children":[{"id":"11186aa909d2","title":"摄影测量信息","children":[{"id":"aaeda52bef48","title":"像片上量测的像点坐标","children":[],"parent":"11186aa909d2"}],"parent":"79555cb81420"},{"id":"0ac3a6f559bb","title":"非摄影测量信息","children":[{"id":"30873e1ced42","title":"大地测量观测值","children":[{"id":"a888c86efb03","title":"距离;角度;天文经纬度;局部坐标","children":[],"parent":"30873e1ced42"}],"parent":"0ac3a6f559bb"},{"id":"b1f1f89b8d36","title":"像片外方位元素","children":[{"id":"3f41a1e12282","title":"高差仪记录;摄站坐标;像片姿态;摄站坐标差","children":[],"parent":"b1f1f89b8d36"}],"parent":"0ac3a6f559bb"},{"id":"c820a9ec9c02","title":"相对控制条件","children":[{"id":"30b68daf4b7e","title":"湖面等高;平面;圆周;共线","children":[],"parent":"c820a9ec9c02"}],"parent":"0ac3a6f559bb"}],"parent":"79555cb81420"}],"parent":"89dae0e00012"}],"collapsed":true},{"id":"f235d0de6bbc","title":"航带法空中三角测量","parent":"31793879e287","children":[{"id":"293378505326","title":"思想与流程","children":[{"id":"ea516b09a396","title":"思想","children":[],"parent":"293378505326","note":"把许多立体像对构成的单个模型连结成一个航带模型,将航带模型视为单元模型进行解析处理,通过消除航带模型中累积的系统误差,将航带模型整体纳入到测图坐标系中,从而确定加密点的地面坐标"},{"id":"595e34f10fb4","title":"流程","children":[{"id":"25daa16802c9","title":"像点坐标系统误差预改正
","parent":"595e34f10fb4","children":[]},{"id":"2cba6bd21ecc","title":"立体像对相对定向
","parent":"595e34f10fb4","children":[]},{"id":"0420ada36466","title":"模型连接构建自由航带网
","parent":"595e34f10fb4","children":[]},{"id":"9724fdc8af74","title":"航带模型绝对定向
","parent":"595e34f10fb4","children":[]},{"id":"ee3159dc3137","title":"航带模型非线性改正
","parent":"595e34f10fb4","children":[]},{"id":"e849e6707d00","title":"加密点坐标计算","parent":"595e34f10fb4","children":[]}],"parent":"293378505326","collapsed":true}],"parent":"f235d0de6bbc"},{"id":"4da3d67547c9","title":"自由航带网的构建
","children":[{"id":"aa3c892e8ae0","title":"连续法相对定向","children":[],"parent":"4da3d67547c9"},{"id":"485e56601b6b","title":"单独法相对定向","children":[],"parent":"4da3d67547c9"},{"id":"366e0874135b","title":"带模型连接条件的连续法相对定向","children":[],"parent":"4da3d67547c9"}],"parent":"f235d0de6bbc","collapsed":true},{"id":"198317aaad3f","title":"单航带空中三角测量
","children":[],"parent":"f235d0de6bbc"},{"id":"56ebc4cb77fa","title":"航带法区域网平差
","children":[],"parent":"f235d0de6bbc"}]},{"id":"176da23f0cb0","title":"光束法空间三角测量","children":[],"parent":"31793879e287"}],"icons":[{"index":"45","color":"rgb(191, 30, 27)","name":""}],"collapsed":false}]}},"meta":{"id":"5dfdcbaee4b0250e8ae5a5d5","member":"5c15e0dfe4b0e244fdf91717","exportTime":"2020-01-02 11:21:13","diagramInfo":{"category":"mind_free","title":"解析摄影测量","created":"2019-12-21 15:37:18","creator":"5c15e0dfe4b0e244fdf91717","modified":"2020-01-02 11:20:55"},"type":"ProcessOn Schema File","version":"1.0"}} -------------------------------------------------------------------------------- /空间数据库/1 空间数据库的基础 .png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/空间数据库/1 空间数据库的基础 .png -------------------------------------------------------------------------------- /空间数据库/1 空间数据库的基础.pos: -------------------------------------------------------------------------------- 1 | {"diagram":{"image":{"height":200,"pngdata":"iVBORw0KGgoAAAANSUhEUgAAAMgAAADICAYAAACtWK6eAAAACXBIWXMAAAsTAAALEwEAmpwYAAAAsUlEQVR4nO3BAQEAAACCIP+vbkhAAQAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAB8GXHmAAFMgHIEAAAAAElFTkSuQmCC","width":200,"y":0,"x":0},"elements":{"id":"root","title":"1 空间数据库的基础
","leftChildren":[],"structure":"mind_free","style":{"text-align":"center"},"root":true,"theme":"caihong","children":[{"id":"4d738b38e370","title":"数据库","children":[{"tags":[{"text":"大数据卷","color":"#276F86","background":"#d6f0f8"},{"text":"持久性","color":"#276F86","background":"#d6f0f8"}],"id":"df9366895ee9","title":"什么是数据库? 
","children":[{"id":"7c8872949225","title":"数据仓库或基地,即统一存贮和集中管理数据的基地","parent":"df9366895ee9","children":[]},{"id":"75986f9dabf0","title":"研究内容","children":[{"id":"f9292665592d","title":"物理表达和逻辑表达","children":[],"parent":"75986f9dabf0","note":"### (1)逻辑表达\n- 定义数据库模式: 描述特定应用的数据结构\n- 确定 DBMS 支持的逻辑数据模型: 如关系数据模型\n- 数据库模式的设计步骤:\n 1 概念建模:( ER 图, UML 等)\n 2 逻辑建模:将概念模型转换成 DBMS 支持的数据模型(层次、网状、关系等)\n### (2)物理表达\n- 数据存储:外存储器上\n- 访问路径:数据获取方法,索引, B-tree\n- 查询处理:设计有效的“ 连接” 算法\n- 查询优化:发现更有效的方法完成查询\n- 并发与恢复: DBMS 负责数据库的安全性和并发性,保持数据库的一致性和安全性"}],"parent":"df9366895ee9"}],"parent":"4d738b38e370"},{"id":"04dbd386c558","title":"数据库系统的发展 
","children":[{"id":"ca17ce23e7af","title":"层次、网状=》关系=》面向对象","parent":"04dbd386c558","children":[],"icons":[]}],"parent":"4d738b38e370"},{"id":"3dbc33a32d1c","title":"数据库中的数据模型","children":[{"id":"921d881ea6a5","title":"是对数据库应用结构的结构化描述;目的是为
系统开发者和用户提供一个有意义的通用计算媒介 ","parent":"3dbc33a32d1c","children":[]}],"parent":"4d738b38e370"}],"parent":"root"},{"id":"9f9ce32f8f6c","title":"空间数据库","children":[{"id":"372894415dd8","title":"基本概念","parent":"9f9ce32f8f6c","children":[{"id":"217e74d008f4","title":"数据","parent":"372894415dd8","children":[{"id":"3dd4ee831ea8","title":"指客观事物的属性、数量、位置及其相互关系等的符号描述。 ","children":[],"parent":"217e74d008f4"}]},{"id":"ccc525e3b173","title":"空间数据","parent":"372894415dd8","children":[{"id":"49dae0ab55c3","title":"特征","children":[{"id":"a2a6beae8680","title":"空间","children":[],"parent":"49dae0ab55c3","note":"空间特征是指空间地物的位置、形状和大小等几何特征,以及与相邻地物的空间关系。\n"},{"id":"d2493906d8c3","title":"时间","children":[],"parent":"49dae0ab55c3","note":"空间数据总是在某一特定时间或时间段内采集得到或计算得到的"},{"id":"4ce2f17e54c3","title":"专题","children":[],"parent":"49dae0ab55c3","note":"**空间现象或空间目标的属性特征**,指除了时间和空间特征以外的空间现象的其他特征,如地形的坡度、波向、某地的年降雨量、土地酸碱度、土地覆盖类型、人口密度、交通 流量、空气污染程度等。\n\n此外,空间数据还具有多维、多尺度和海量 等非空间数据所不具备的特征。"}],"parent":"ccc525e3b173"}],"note":"是对现实世界中空间对象(事物)的描述, 其**实质**是指以地球表面空间位置为参照,用来描述空间实体的位置、形状、大小及其分布特征等诸多方面信息的数据。"},{"id":"5a5444e120b2","title":"空间数据库
","children":[],"parent":"372894415dd8","note":"指以特定的信息结构(如国土、规划、环境、交通等)和数据模型(如关系模型、面向对象模型等)表达、存储和管理从地理空间中获取的某类空间信息,以满足不同用户对空间信息需求的数据库。","collapsed":false}]},{"id":"ada904c8e647","title":"为什么要用空间数据库","children":[{"id":"ad2383d1bac9","title":"与传统数据相比,空间数据更复杂","children":[],"parent":"ada904c8e647"},{"id":"b8b36811e9a9","title":"空间数据的非结构化特征,传统数据库无法满足","parent":"ada904c8e647","children":[]},{"id":"fc92eb63d57f","title":"空间数据的组织和管理不同于一般的事务性数据","children":[],"parent":"ada904c8e647"}],"parent":"9f9ce32f8f6c"},{"id":"d3f546c267c7","title":"GIS 领域对空间数据的管理方法","children":[{"id":"1129ebc50a60","title":"松散","parent":"d3f546c267c7","children":[{"id":"e0e29370770d","title":"对地理空间数据和描述性数据分开管理","parent":"1129ebc50a60","children":[]}]},{"id":"fde4d4d24b2c","title":"集合","children":[{"id":"f82e17aa5dbc","title":"扩展的DBMS","children":[],"parent":"fde4d4d24b2c","note":"①扩展其逻辑数据表达用于几何数据:满足数据独立性;简单;接近用户在真实世界的视图;\n②对空间数据的有效的物理表达;\n③扩展查询语言的功能用于操纵几何对象的查询;\n④高效的数据访问,由于B-Trees不适用于空间数据访问,故需要新的空间索引方法;\n⑤关系查询处理中的一些算法(如连接算法)不能用于空间数据库,故需要新的算法。\n"}],"parent":"d3f546c267c7"}],"parent":"9f9ce32f8f6c"}],"parent":"root"},{"id":"b675fa4d6ba5","title":"空间数据库管理的发展过程","children":[{"id":"d4ac00bb74ac","title":"人工管理阶段","parent":"b675fa4d6ba5","children":[]},{"id":"08d342713336","title":"文件管理阶段","parent":"b675fa4d6ba5","children":[]},{"id":"a3e8af02b466","title":"文件与关系数据库混合管理系统","parent":"b675fa4d6ba5","children":[]},{"id":"7497d36a1cc3","title":"全关系型空间数据库管理系统 ","children":[],"parent":"b675fa4d6ba5"},{"id":"f790716ff5f1","title":"对象关系数据库管理系统","children":[{"id":"88e946aa83a3","title":"关系型数据库+空间数据引擎
","children":[],"parent":"f790716ff5f1"},{"id":"58c20e3662c4","title":"扩展对象关系型数据库管理系","children":[],"parent":"f790716ff5f1"}],"parent":"b675fa4d6ba5"},{"id":"af58794f3958","title":"面向对象的数据库系统","children":[],"parent":"b675fa4d6ba5"}],"parent":"root","icons":[{"index":"32","color":"rgb(255, 0, 0)","name":"flag"}]},{"id":"8a81f2dc8e2f","title":"空间数据库的研究内容
","children":[{"id":"6b8e1161787e","title":"目的","children":[],"parent":"8a81f2dc8e2f"},{"id":"a1db198e0e2f","title":"主要任务","children":[{"id":"b0f1e94f3b86","title":"空间数据表达模型 
","children":[],"parent":"a1db198e0e2f"},{"id":"b2fd23206fbc","title":"空间数据组织模型","children":[],"parent":"a1db198e0e2f"},{"id":"1d5b7cc0c20d","title":"空间数据存储结构","children":[],"parent":"a1db198e0e2f"},{"id":"cb545adfc575","title":"空间索引技术","children":[],"parent":"a1db198e0e2f"},{"id":"045eb595c4f5","title":"空间数据查询访问技术","children":[],"parent":"a1db198e0e2f"},{"id":"36ecf1bfe4d1","title":"空间数据库系统","children":[],"parent":"a1db198e0e2f"},{"id":"c511e4b423f3","title":"空间数据共享研究","children":[],"parent":"a1db198e0e2f"}],"parent":"8a81f2dc8e2f"},{"id":"69c62de0054b","title":"谁在研究","children":[{"id":"8d6c3b28ee6b","title":"数据库厂商","children":[],"parent":"69c62de0054b"},{"id":"e9d5b2ad4a2f","title":"GIS厂商","children":[],"parent":"69c62de0054b"}],"parent":"8a81f2dc8e2f"}],"parent":"root"},{"id":"cfb7a3f6ac21","title":"时空数据库
","children":[{"id":"495615600a56","title":"计算机中,相互关联的有时间参考的空间数据集合","parent":"cfb7a3f6ac21","children":[]},{"id":"ee1b3383696c","title":"研究内容","children":[{"id":"ca4939e949d9","title":"时空对象表达","children":[],"parent":"ee1b3383696c","note":"主要研究时空对象在计算机中的表示问题,即如何在计算机中表示空间对象在时间轴上随时间的变化\n"},{"id":"bc49547db6bb","title":"时空数据建模","children":[],"parent":"ee1b3383696c","note":"研究时空对象的概念、结构和物理布局。其中包括时空数据概念模型、逻辑模型(数据模型)和物理模型的研究"},{"id":"481efdb6f521","title":"时空数据索引","children":[],"parent":"ee1b3383696c","note":"借助时空数据的固有特性,利用近似技术,通过逐步缩小查询范围的方法来加速时空数据库访问机制或技术\n"},{"id":"00eae6b01cb8","title":"时空数据库体系结构","children":[],"parent":"ee1b3383696c","note":"研究时空数据库系统的整体框架,包括内部\n体系结构和外部体系结构"},{"id":"6e2839bcbfa7","title":"时空数据库操作","children":[],"parent":"ee1b3383696c","note":"指一系列数据处理功能和流程,通过使用结构化查询语言(SQL)查询和检索选择的数据库内容、并根据特定的空间和非空间条件联接数据库表,最后以指定的格式来表达处理结果。\n"}],"parent":"cfb7a3f6ac21"}],"parent":"root"}]}},"meta":{"id":"5df86aa6e4b0c4255e9ef928","member":"5c15e0dfe4b0e244fdf91717","exportTime":"2019-12-20 00:26:38","diagramInfo":{"category":"mind_free","title":"1 空间数据库的基础","created":"2019-12-17 13:41:58","creator":"5c15e0dfe4b0e244fdf91717","modified":"2019-12-20 00:24:22"},"type":"ProcessOn Schema File","version":"1.0"}} -------------------------------------------------------------------------------- /空间数据库/2 空间实体.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/空间数据库/2 空间实体.png -------------------------------------------------------------------------------- /空间数据库/2 空间实体.pos: -------------------------------------------------------------------------------- 1 | {"diagram":{"image":{"height":200,"pngdata":"iVBORw0KGgoAAAANSUhEUgAAAMgAAADICAYAAACtWK6eAAAACXBIWXMAAAsTAAALEwEAmpwYAAAAsUlEQVR4nO3BAQEAAACCIP+vbkhAAQAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAB8GXHmAAFMgHIEAAAAAElFTkSuQmCC","width":200,"y":0,"x":0},"elements":{"id":"root","title":"2 空间实体的计算机表达","leftChildren":[],"structure":"mind_free","root":true,"theme":"simple","lineStyle":{"lineWidth":"1"},"children":[{"id":"3523c47da303","title":"空间信息模型","children":[{"id":"ffa3c99505a2","title":"实体","children":[{"id":"1b744a516a3a","title":"思想","parent":"ffa3c99505a2","children":[{"id":"a6a5b900a442","title":"将地理实体和现象作为独立的对象,以独立的方式存在,主要描述不连续的地理对象","parent":"1b744a516a3a","children":[]},{"id":"316215864962","title":"基于实体的模型把信息空间看作许多对象的集合,这些对象拥有自己的属性","parent":"1b744a516a3a","children":[]}],"collapsed":false},{"id":"cd430b5e3f84","title":"基本实体包括","children":[{"id":"3fce6d7232cf","title":"零维(点)","parent":"cd430b5e3f84","children":[{"id":"6a047e0b8971","title":"表示实体的位置","children":[],"parent":"3fce6d7232cf"}]},{"id":"6d10a5203265","title":"一维(线)","parent":"cd430b5e3f84","children":[{"id":"ee0fa0572393","title":"表示网络","parent":"6d10a5203265","children":[]}]},{"id":"a9ab96bd4316","title":"二维(面)","parent":"cd430b5e3f84","children":[{"id":"b12f7640487e","title":"表示大面积的实体","children":[],"parent":"a9ab96bd4316"}]}],"parent":"ffa3c99505a2","collapsed":true},{"id":"3ea6745a4b54","title":"真实世界的近似表达","parent":"ffa3c99505a2","children":[],"note":"- 线状和面状实体有线段(边)定义,只是对真实实体的近似表达\n- 线段越多,近似性越好\n- 通常在真实性和有效表达之间有一个折中 trade-off "}],"parent":"3523c47da303","collapsed":false},{"id":"665d55e704be","title":"场","parent":"3523c47da303","children":[{"id":"21646f5e449e","title":"思想","children":[{"id":"2e497a2deb61","title":"把地理空间的事物和现象作为连续的变量来看待 ","children":[],"parent":"21646f5e449e"},{"id":"7fd1db6a25e3","title":"在空间中任何点上都有一个表达这一现象的值,通常定义为一个二维点的连续函数","children":[],"parent":"21646f5e449e"}],"parent":"665d55e704be"},{"id":"bd38e79d3c57","title":"表达类别","parent":"665d55e704be","children":[{"id":"a95e03ec9c7a","title":"图斑模型","parent":"bd38e79d3c57","children":[{"id":"430c7b17ba07","title":"将地理空间划分为一些简单的连通域,每个区域用一个简单
的数学函数表示一种主要属性的变化 ","parent":"a95e03ec9c7a","children":[]}]},{"id":"694fcb5b94ce","title":"等值线模型","parent":"bd38e79d3c57","children":[{"id":"7f1228ac2c7d","title":"场由一系列等值线组成 ","parent":"694fcb5b94ce","children":[]}]},{"id":"6237d14bfd04","title":"选样模型","parent":"bd38e79d3c57","children":[{"tags":[{"text":"离散点","color":"rgb(39, 111, 134)","background":"rgb(214, 240, 248)"},{"text":"规则格网","color":"rgb(39, 111, 134)","background":"rgb(214, 240, 248)"},{"text":"不规则三角网","color":"rgb(39, 111, 134)","background":"rgb(214, 240, 248)"}],"id":"948d59911829","title":"地理空间上的属性值是通过采集有限个点的属性值来确定的","parent":"6237d14bfd04","children":[]}]}]}],"collapsed":false}],"parent":"root"},{"id":"7a499f3dbd8a","title":"空间实体的表达","children":[{"tags":[{"text":"TIN","color":"rgb(39, 111, 134)","background":"rgb(214, 240, 248)"}],"id":"7113cdb5cd44","title":"镶嵌模型","parent":"7a499f3dbd8a","children":[{"id":"2df5b2076d02","title":"将嵌入空间划分为彼此不重合的单元,每个单元通过一定的数值表达方式
(如颜色、灰度级)表达空间地理现象(如环境污染程度、植被覆盖情况)
","parent":"7113cdb5cd44","children":[]},{"id":"ce7399884f6e","title":"分类","parent":"7113cdb5cd44","children":[{"id":"e0f1537e35e4","title":"规则","parent":"ce7399884f6e","children":[{"id":"11e90ab61f2c","title":"使用固定尺寸多边形规则格网或栅格表达","parent":"e0f1537e35e4","children":[]}]},{"id":"22b836a349cd","title":"不规则","parent":"ce7399884f6e","children":[{"id":"c07e17a9336d","title":"使用可变尺寸不规则多边形表达
","parent":"22b836a349cd","children":[]}]}]},{"id":"35a3db00f0c9","title":"表达实体数据","children":[{"id":"eb0e2b8fd420","title":"二维空间中的空间实体被表示为包含它的有限像素子集.
","children":[],"parent":"35a3db00f0c9"}],"parent":"7113cdb5cd44"},{"id":"831254c4c371","title":"表达场数据","children":[{"id":"22856704b48a","title":"影像数据(气温、污染预测)","children":[],"parent":"831254c4c371"},{"id":"4407617ca8ca","title":"像素的连续函数","children":[],"parent":"831254c4c371"}],"parent":"7113cdb5cd44","collapsed":false}]},{"id":"0a5dee34cc68","title":"矢量模型","parent":"7a499f3dbd8a","children":[{"id":"b7b6371ec80f","title":"定义一种数据结构来描述连续的空间。对象被表达为由点和边组成,点和边称为图元","parent":"0a5dee34cc68","children":[]},{"id":"41fc58cad2ce","title":"表达实体数据","style":{"color":"rgb(68,68,68)","font-size":"13px","lineStyle":{"lineColor":"rgb(130,130,130)","lineWidth":1},"font-style":"normal","textAlign":"left","lineStype":{"lineColor":"rgb(130,130,130)","lineWidth":1},"font-family":"微软雅黑","font-weight":"normal","padding":"2px 6px 3px"},"lineStyle":{"lineColor":"rgb(130,130,130)","lineWidth":1},"children":[{"id":"5d20e075d59a","title":"表达点、线、多边形和区域","parent":"41fc58cad2ce","children":[]},{"id":"0e439fa671ad","title":"特点","parent":"41fc58cad2ce","children":[{"id":"97ebf492d3e2","title":"①相对于栅格表达,矢量表达不占据太多内存,更加紧凑;","children":[],"parent":"0e439fa671ad"},{"id":"3037bc59ed77","title":"②在表达空间实体时,在表达能力和结构的复杂度上有一个折中;","children":[],"parent":"0e439fa671ad"},{"id":"5b4739bfd86c","title":"③简单的矢量表达不能表示一些对确保语义的正确和数据完整性方面很有用的约束","children":[],"parent":"0e439fa671ad"}]}],"parent":"0a5dee34cc68"},{"id":"0925e1837a93","title":"表达场数据
","style":{"color":"rgb(68,68,68)","font-style":"normal","lineStyle":{"lineColor":"rgb(130,130,130)","lineWidth":1},"font-size":"13px","font-family":"微软雅黑","lineStype":{"lineColor":"rgb(130,130,130)","lineWidth":1},"textAlign":"left","font-weight":"normal","padding":"2px 6px 3px"},"lineStyle":{"lineColor":"rgb(130,130,130)","lineWidth":1},"children":[{"id":"139589da258c","title":"DEMs","parent":"0925e1837a93","children":[]},{"id":"c1a585fda5b9","title":"A TIN","parent":"0925e1837a93","children":[]}],"parent":"0a5dee34cc68"}],"icons":[{"index":"45","color":"rgb(191, 30, 27)","name":""}]}],"parent":"root"},{"id":"4a1e2b6c3659","title":"空间实体集的表达","children":[{"id":"bad0c684f22d","title":"面条","parent":"4a1e2b6c3659","children":[{"id":"14386e0d1e20","title":"特点","parent":"bad0c684f22d","children":[{"id":"8f3aea47cb8b","title":"独立地描述实体集中任意实体的几何信息","parent":"14386e0d1e20","children":[]},{"id":"64d9e0c1d1bd","title":"面条模型不存储拓扑关系,所有的拓扑关系在需要的时候计算","children":[],"parent":"14386e0d1e20"}]},{"id":"0a111ae80b00","title":"优缺点
","parent":"bad0c684f22d","children":[{"id":"cb493f26ee2c","title":"优点","parent":"0a111ae80b00","children":[{"id":"23464be5df63","title":"简单","parent":"cb493f26ee2c","children":[]},{"id":"eca64b1f3f67","title":"独立存储,使得用户可轻松添加新对象
","parent":"cb493f26ee2c","children":[]}]},{"id":"e26a1f9008ea","title":"缺点
","children":[{"id":"8fb6f54fda73","title":"缺乏拓扑关系
","children":[],"parent":"e26a1f9008ea"},{"id":"1fa5c399acc0","title":"没有数据共享,数据冗余度高
","children":[],"parent":"e26a1f9008ea"}],"parent":"0a111ae80b00"}]}]},{"id":"ce0ec74392c4","title":"网络","parent":"4a1e2b6c3659","children":[{"id":"c343c5e15545","title":"在基于网络(图)的应用中对网络进行表达","parent":"ce0ec74392c4","children":[]},{"id":"e0b22a3ff18f","title":"两个概念","parent":"ce0ec74392c4","children":[{"id":"ebae4b7bd197","title":"节点","parent":"e0b22a3ff18f","children":[{"id":"6628d69991c6","title":"节点是连接一个弧列的连接点
","parent":"ebae4b7bd197","children":[]}]},{"id":"b628a75debb5","title":"弧
","parent":"e0b22a3ff18f","children":[{"id":"5e356828e6f6","title":"弧是一条始于一个节点终于另一节点的多线","parent":"b628a75debb5","children":[]}]}]},{"id":"30b9f543a060","title":"优缺点","parent":"ce0ec74392c4","children":[{"id":"cf450a07d26e","title":"优点","parent":"30b9f543a060","children":[{"id":"34f005a01cc1","title":"清晰表达网络拓扑关系","parent":"cf450a07d26e","children":[]}]},{"id":"70e5edeae854","title":"缺点","parent":"30b9f543a060","children":[{"id":"bfe400786c56","title":"没有储存二维对象的关系信息","parent":"70e5edeae854","children":[]}]}]}]},{"id":"67917b763d17","title":"拓扑","parent":"4a1e2b6c3659","children":[{"id":"d3a952e8fa70","title":"拓扑矢量模型仅从抽象概念理解图形元素(点线面)之间的相互关系,
不考虑结点和线段的坐标位置,只注意它们的相邻与连接关系。","children":[],"parent":"67917b763d17"},{"id":"07539a116dd2","title":"优缺点","parent":"67917b763d17","children":[{"id":"75e6a957a521","title":"优点","parent":"07539a116dd2","children":[{"id":"f850f518cb10","title":"①几何信息冗余度低","parent":"75e6a957a521","children":[]},{"id":"58c1998d7adc","title":"②数据模型表达了多边形的连接性,从而不需要额外计算","parent":"75e6a957a521","children":[]},{"id":"62010acdd653","title":"③支持数据的持续更新,只要一份边界信息更新即可","parent":"75e6a957a521","children":[]},{"id":"05efc162ed07","title":"④支持网络和路径分析","parent":"75e6a957a521","children":[]}]},{"id":"4e747f04f127","title":"缺点","parent":"07539a116dd2","children":[{"id":"03684feb9821","title":"①较复杂,运算较慢","parent":"4e747f04f127","children":[]},{"id":"ef6b0944692c","title":"②一些结构信息没有实际的语义含义","parent":"4e747f04f127","children":[]},{"id":"4555c7a368c6","title":"③增加一个新的对象需要对平面图进行重新计算.
","parent":"4e747f04f127","children":[]}]}]}]}],"parent":"root"}]}},"meta":{"id":"5df88feee4b0fa593e023857","member":"5c15e0dfe4b0e244fdf91717","exportTime":"2019-12-20 00:26:43","diagramInfo":{"category":"mind_free","title":"2 空间实体","created":"2019-12-17 16:21:02","creator":"5c15e0dfe4b0e244fdf91717","modified":"2019-12-19 12:34:36"},"type":"ProcessOn Schema File","version":"1.0"}} -------------------------------------------------------------------------------- /空间数据库/3 时空信息表达.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/空间数据库/3 时空信息表达.png -------------------------------------------------------------------------------- /空间数据库/3 时空信息表达.pos: -------------------------------------------------------------------------------- 1 | {"diagram":{"image":{"height":200,"pngdata":"iVBORw0KGgoAAAANSUhEUgAAAMgAAADICAYAAACtWK6eAAAACXBIWXMAAAsTAAALEwEAmpwYAAAAsUlEQVR4nO3BAQEAAACCIP+vbkhAAQAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAB8GXHmAAFMgHIEAAAAAElFTkSuQmCC","width":200,"y":0,"x":0},"elements":{"id":"root","title":"3 时空信息表达","leftChildren":[{"id":"58b5ea6e2eb5","title":"时空关系表示","parent":"root","children":[{"id":"4af37eb7cebc","title":"时态拓扑关系","parent":"58b5ea6e2eb5","children":[{"id":"0dbd6bc5db34","title":"时刻-时刻","parent":"4af37eb7cebc","children":[]},{"id":"77117d3e2646","title":"时刻-时段","parent":"4af37eb7cebc","children":[]},{"id":"e572ebf8727c","title":"时段-时段","parent":"4af37eb7cebc","children":[]}]},{"id":"05b186978d46","title":"时空拓扑关系","parent":"58b5ea6e2eb5","children":[],"image":{"w":467,"h":333,"url":"http://cdn.processon.com/5df9b758e4b0fa593e03f1af?e=1576650089&token=trhI0BY8QfVrIGn9nENop6JAc6l5nZuxhjQ62UfM:ghI58UF76CgWFjTrIveTL01mXVk="}}]},{"id":"3d5c2a16f66d","title":"时空数据类型","parent":"root","children":[{"id":"d5cca52ba7b4","title":"","image":{"w":561,"h":284,"url":"http://cdn.processon.com/5df9bc4ae4b06f5f1461cf57?e=1576651355&token=trhI0BY8QfVrIGn9nENop6JAc6l5nZuxhjQ62UfM:sG3O2uI1N2n5d1JS_IfmBrPEgII="},"children":[],"parent":"3d5c2a16f66d"}]}],"structure":"mind_free","root":true,"theme":"caihongthinner","children":[{"id":"958975dedbcc","title":"时空信息基准与模型","parent":"root","children":[{"id":"d043f9bec1fa","title":"常用时间系统","children":[{"id":"8ce20add25f9","title":"世界时UT","children":[],"parent":"d043f9bec1fa","note":"#### 世界时(UT)\n格林尼治平时T(0时区的区时)称为世界时。世界时是以地球自转周期为基准测定的。\n#### 世界时的不均匀性\n(1)长期变化\n(2)季节性变化\n(3)不规则变化"},{"id":"e02e441f16dc","title":"历书时ET","children":[],"parent":"d043f9bec1fa","note":"从公历1900年初附近,太阳几何平黄经为279°41′48″.04的瞬间起算的,这一瞬间的历书时取为1900年1月0日12时正。"},{"id":"b3f33ca6dcfb","title":"原子时AT","children":[],"parent":"d043f9bec1fa","note":"是用原子跃迁所产生的振荡频率为基准而建立起来的一种均匀的计时系统"},{"id":"7ce4cdeab4af","title":"协调时UTC","children":[],"parent":"d043f9bec1fa","note":"是介于原子时与世界时之间的一种均匀时。"}],"parent":"958975dedbcc"},{"id":"b92aaf1d19fa","title":"时间的尺度","children":[{"id":"c37c8c830077","title":"时间基准、时间粒度","children":[],"parent":"b92aaf1d19fa"},{"id":"7d15216917ad","title":"不确定性","children":[{"id":"98fdb9fa4398","title":"预测的不精确性","children":[],"parent":"7d15216917ad"},{"id":"55dab4989d02","title":"事件时间的不确定性","children":[],"parent":"7d15216917ad"},{"id":"84da0e61aafa","title":"微粒过小","children":[],"parent":"7d15216917ad"},{"id":"48042e4db719","title":"计时的不确定性","children":[],"parent":"7d15216917ad"}],"parent":"b92aaf1d19fa"}],"parent":"958975dedbcc"},{"id":"2dd079cbbf16","title":"时空信息建模","parent":"958975dedbcc","children":[{"id":"9bb15b563047","title":"基于事件的时空模型","parent":"2dd079cbbf16","children":[{"id":"93369aaf5a93","title":"事件的标识","parent":"9bb15b563047","children":[]},{"id":"5a284f004718","title":"第i个事件发生后对象的空间状态","children":[],"parent":"9bb15b563047"},{"id":"2deae1555136","title":"事件发生的时刻","children":[],"parent":"9bb15b563047"}]},{"id":"8f95cd38ce35","title":"基于场的时空模型","parent":"2dd079cbbf16","children":[{"id":"a5c8ba35f3c3","title":"场函数","parent":"8f95cd38ce35","children":[]},{"id":"675331b26d2e","title":"时间框架","parent":"8f95cd38ce35","children":[{"id":"ea47f4779632","title":"以一定时间基准为基础而建立的时段","parent":"675331b26d2e","children":[]}]},{"id":"9d9830b370ed","title":"空间特征","parent":"8f95cd38ce35","children":[{"id":"5dc5054202e0","title":"一个将时间框架映射到不同空间属性中的函数","parent":"9d9830b370ed","children":[]}]},{"id":"9c9417ff0213","title":"与空间场模型不同","children":[],"parent":"8f95cd38ce35","note":"空间场模型是将离散的空间框架映射到属性域,而时空场是将离散的时间框架映射到空间域。"}]}]},{"id":"6481f9f2c804","title":"时空信息表示","parent":"958975dedbcc","children":[{"id":"e749971b795d","title":"时间的表示","parent":"6481f9f2c804","children":[{"id":"61312c620315","title":"离散","parent":"e749971b795d","children":[]},{"id":"12e8738a1b8d","title":"连续","parent":"e749971b795d","children":[]}]},{"id":"6b799fd161ad","title":"离散事件表示","children":[],"parent":"6481f9f2c804"},{"id":"c8e529d91af9","title":"状态的表示","children":[{"id":"9de837cab44e","title":"对象位置变,形状大小不变","children":[{"id":"0c7223693805","title":"时空轨迹","children":[],"parent":"9de837cab44e"}],"parent":"c8e529d91af9"},{"id":"b81338c75b36","title":"对象位置、形状、大小等都变","children":[{"id":"ed102596b0b9","title":"时间序列","children":[],"parent":"b81338c75b36","note":"得到状态所处时段内的一系列镶嵌模型表示的数据"}],"parent":"c8e529d91af9"}],"parent":"6481f9f2c804"}]}]}]}},"meta":{"id":"5df99311e4b0cfc88c3e04c6","member":"5c15e0dfe4b0e244fdf91717","exportTime":"2019-12-20 00:26:48","diagramInfo":{"category":"mind_free","title":"3 时空信息表达","created":"2019-12-18 10:46:41","creator":"5c15e0dfe4b0e244fdf91717","modified":"2019-12-20 00:25:35"},"type":"ProcessOn Schema File","version":"1.0"}} -------------------------------------------------------------------------------- /空间数据库/4 时空数据组织与建模.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/空间数据库/4 时空数据组织与建模.png -------------------------------------------------------------------------------- /空间数据库/4 时空数据组织与建模.pos: -------------------------------------------------------------------------------- 1 | {"diagram":{"image":{"height":200,"pngdata":"iVBORw0KGgoAAAANSUhEUgAAAMgAAADICAYAAACtWK6eAAAACXBIWXMAAAsTAAALEwEAmpwYAAAAsUlEQVR4nO3BAQEAAACCIP+vbkhAAQAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAB8GXHmAAFMgHIEAAAAAElFTkSuQmCC","width":200,"y":0,"x":0},"elements":{"id":"root","title":"4 时空数据组织与建模","leftChildren":[],"structure":"mind_free","root":true,"theme":"caihong","children":[{"id":"2b5e50179c8e","title":"空间数据组织","children":[{"id":"84e32ace0e53","title":"分层","children":[{"id":"16b3e4405406","title":"组织的对象过于庞杂","children":[],"parent":"84e32ace0e53"},{"id":"9f0ace17d8a8","title":"将地理空间数据按照某种属性特征形成一个数据层","children":[],"parent":"84e32ace0e53"},{"id":"3559af4d4096","title":"按专题、时间序列、实体集合类型、树形结构、垂直切面","children":[],"parent":"84e32ace0e53"}],"parent":"2b5e50179c8e"},{"id":"eaa562ad5690","title":"分幅","children":[{"id":"3022b8e4dc3f","title":"覆盖的地理范围过大","parent":"eaa562ad5690","children":[]},{"id":"a80a3123ba49","title":"将地理空间数据按照一定规则划分为一组单元","parent":"eaa562ad5690","children":[]}],"parent":"2b5e50179c8e"},{"id":"34323d11b59c","title":"分块","children":[],"parent":"2b5e50179c8e"}],"parent":"root"},{"id":"a3230041a989","title":"空间数据概念模型","children":[{"id":"4a08b275d96b","title":"指概念化的数据模型,是在建模初始阶段形成的对真实世界的认识","parent":"a3230041a989","children":[]},{"id":"880913a417d7","title":"工具","children":[{"tags":[{"text":"图形化","color":"rgb(255, 255, 255)","background":"rgb(255, 159, 26)"}],"id":"6fc1092053ef","title":"ER","children":[{"id":"556e97f2c37a","title":"实体-联系模型把要描述的对象抽象为实体和实体之间的联系
根据联系的类别将实体之间的关系表达出来","children":[],"parent":"6fc1092053ef"}],"parent":"880913a417d7","collapsed":false},{"tags":[{"text":"类图","color":"rgb(255, 255, 255)","background":"rgb(255, 159, 26)"}],"id":"e249177a5882","title":"UML","children":[{"id":"d8aac21f65f6","title":"统一建模语言是用于面向对象软件设计的概念层建模的新型标准之一。
用于在概念层对结构化模式和动态行为进行建模。","parent":"e249177a5882","children":[]},{"id":"fa4326f084a7","title":"组成","children":[{"id":"ad5ab813fe6e","title":"类、属性、方法、关系","children":[],"parent":"fa4326f084a7"}],"parent":"e249177a5882"}],"parent":"880913a417d7"}],"parent":"a3230041a989"}],"parent":"root"},{"id":"72118763d1d5","title":"空间数据库逻辑模型","children":[{"id":"46e733753659","title":"层次","children":[],"parent":"72118763d1d5"},{"id":"166b36f3e419","title":"网状","children":[],"parent":"72118763d1d5"},{"id":"28fa8c497f8b","title":"关系","children":[],"parent":"72118763d1d5"},{"id":"aa45476dcc86","title":"地理关系","children":[{"id":"9bc82cb91e19","title":"空间数据被抽象成一系列独立定义层,每层代表了一个相关空间要素的集合","children":[],"parent":"aa45476dcc86","note":"利用地理关系模型存储的所有图层都必须占用或 至少在一些空间重合区,低于甚至高于地球表面,在相同的地理空间建模。"},{"id":"61741f2e939e","title":"特点
","children":[{"id":"2ffb43200bf6","title":"空间数据和属性数据相结合","children":[],"parent":"61741f2e939e"},{"id":"4f79a8822e5e","title":"这种结构可以存储实体对象要素的拓扑关系
","children":[],"parent":"61741f2e939e"}],"parent":"aa45476dcc86"},{"id":"81f2adcbc76b","title":"举例:ESRI的ShapeFile模型
","children":[],"parent":"aa45476dcc86"}],"parent":"72118763d1d5"},{"id":"b03d3b3173f1","title":"对象","children":[{"id":"1dde39aad443","title":"面向对象数据模型是一个由类及类的继承与合成关系所构成的类层次结构图","parent":"b03d3b3173f1","children":[]},{"id":"3c8faba15b44","title":"概念","parent":"b03d3b3173f1","children":[{"id":"69f5b7ed5340","title":"类","parent":"3c8faba15b44","children":[{"id":"09211e13ea90","title":"共享同样属性和方法集的所有对象构成了一个对象类","parent":"69f5b7ed5340","children":[]}]},{"id":"59c0c15af130","title":"抽象","children":[{"id":"91e0e0eb51d2","title":"把事物共同点抽取出来,以统一的方式进行概要描述的过程","children":[],"parent":"59c0c15af130"}],"parent":"3c8faba15b44"},{"id":"64d100ebb402","title":"封装","children":[{"id":"9a42d4c920a7","title":"把对象的属性和方法结合成一个独立的系统单位","children":[],"parent":"64d100ebb402"},{"id":"1e0a7999a993","title":"好处","children":[{"id":"5c6554443359","title":"保护对象;保护客户端;防止程序相互依赖带来的变动影响;
使程序易于维护,提高重用性。","children":[],"parent":"1e0a7999a993"}],"parent":"64d100ebb402"}],"parent":"3c8faba15b44"},{"id":"94bf53bf50c4","title":"继承","children":[{"id":"bdfc27647b21","title":"让某个类型的对象获得另一个类型的对象的特征","children":[],"parent":"94bf53bf50c4"},{"id":"21394e47ad3f","title":"好处","children":[{"id":"b5d03f618e26","title":"软件具有开放性、可扩充性,增加代码重用性;
使公共的特性能够共享,降低开发和维护费用","parent":"21394e47ad3f","children":[]}],"parent":"94bf53bf50c4"}],"parent":"3c8faba15b44"},{"id":"612a4a7be78b","title":"关联","parent":"3c8faba15b44","children":[]},{"id":"d043bedc8bed","title":"聚集","parent":"3c8faba15b44","children":[{"id":"6d0b74ed7ef3","title":"表示类之间是整体与部分的关系","parent":"d043bedc8bed","children":[]}]},{"id":"50fa6a6158e9","title":"组成","parent":"3c8faba15b44","children":[{"id":"39ea2ee617b7","title":"聚集对象与它的组成对象存在强关联时叫组成","parent":"50fa6a6158e9","children":[]}]}]}],"parent":"72118763d1d5"},{"id":"b07274f924cf","title":"对象-关系 OODB","children":[{"id":"9505f007e78f","title":"对关系模型支持的数据库的数据类型进行了扩展","children":[],"parent":"b07274f924cf"},{"id":"b6d8d1c8b966","title":"扩展类型","children":[{"id":"0c0a8613ec33","title":"LOB","children":[{"id":"4ade2832057d","title":"大对象,可存储音频、图像、长字符串","children":[],"parent":"0c0a8613ec33"}],"parent":"b6d8d1c8b966"},{"id":"2006f0508abf","title":"BOOLEAN","children":[],"parent":"b6d8d1c8b966"},{"id":"c40a694f1cb0","title":"集合类型ARRAY","children":[],"parent":"b6d8d1c8b966"}],"parent":"b07274f924cf"}],"parent":"72118763d1d5"}],"parent":"root"},{"id":"6e7dbf521ebe","title":"时态数据模型","children":[{"id":"adaf29a18ea0","title":"时态数据库的时间体系","children":[{"id":"0b9b26671f67","title":"用户自定义时间","children":[{"id":"41f5bcde7c08","title":"用户根据自己需要或理解定义的时间","parent":"0b9b26671f67","children":[]}],"parent":"adaf29a18ea0"},{"id":"63f22161aa8f","title":"有效时间","parent":"adaf29a18ea0","children":[{"id":"950ccd072c33","title":"现实世界中为真的时间段","parent":"63f22161aa8f","children":[]}]},{"id":"9943c03a8269","title":"事务时间","parent":"adaf29a18ea0","children":[{"id":"cf5a89f7436e","title":"一个数据库对象进行操作的时间","parent":"9943c03a8269","children":[]}]}],"parent":"6e7dbf521ebe","icons":[{"index":"32","color":"rgb(255, 0, 0)","name":"flag"}]},{"id":"3f0d5ff6b691","title":"时间概念模型","parent":"6e7dbf521ebe","children":[]},{"id":"08f14e9c8b32","title":"时态数据逻辑模型","parent":"6e7dbf521ebe","children":[{"id":"e17cdd71efdf","title":"历史关系数据模型","parent":"08f14e9c8b32","children":[]},{"id":"eaeb21a54881","title":"数据模型对象","parent":"08f14e9c8b32","children":[]},{"id":"3698acb642e2","title":"快照数据模型","parent":"08f14e9c8b32","children":[{"id":"6d2e5d59b9c9","title":"属性维+元组维","parent":"3698acb642e2","children":[]}]},{"id":"a22d4d5df917","title":"回滚数据模型","parent":"08f14e9c8b32","children":[{"id":"7f0d0bfa6939","title":"属性维+元组维+事务时间维","parent":"a22d4d5df917","children":[]}]},{"id":"ff4bae0a8eb6","title":"历史数据模型","parent":"08f14e9c8b32","children":[{"id":"53a375538947","title":"支持有效时间的数据模型","parent":"ff4bae0a8eb6","children":[]},{"id":"8022080beabb","title":"属性维+元组维+有效时间维","parent":"ff4bae0a8eb6","children":[]}]},{"id":"d11500f502b3","title":"双时态数据模型","parent":"08f14e9c8b32","children":[{"id":"e83fc84ae15e","title":"既支持事务时间,又支持有效时间","parent":"d11500f502b3","children":[]}]}]}],"parent":"root"},{"id":"fea17462657a","title":"时空数据模型","children":[{"id":"18a2b29002ee","title":"时空数据的基本特征","parent":"fea17462657a","children":[{"id":"03000c2e91a6","title":"时间、空间、属性和动态(时变)","parent":"18a2b29002ee","children":[]}]},{"id":"7aeb6e4e15bc","title":"时空变化类型","parent":"fea17462657a","children":[{"id":"3b87a26df5c6","title":"序列快照模型","parent":"7aeb6e4e15bc","children":[{"id":"743cba643b2e","title":"基本思想","parent":"3b87a26df5c6","children":[{"id":"fcdf64442ad5","title":"将某一时间段内地理现象的变化过程,用一系列时间片段的序列
快照保存起来,反映整个空间特征的状态
","parent":"743cba643b2e","children":[]}],"note":""},{"id":"39c3fb6a34d0","title":"优点","parent":"3b87a26df5c6","children":[{"id":"0008926dc776","title":"直观简单;容易理解;容易实现","parent":"39c3fb6a34d0","children":[]}]},{"id":"cc3893af8bf8","title":"缺点","parent":"3b87a26df5c6","children":[{"id":"13a4b49b193d","title":"大量数据冗余;当应用模型变化频繁且
数据量较大时,系统效率急剧下降。","parent":"cc3893af8bf8","children":[]},{"id":"27862fbdef2f","title":"不支持有效和事务时间","parent":"cc3893af8bf8","children":[]}]}],"note":""},{"id":"2451ebb6a22d","title":"基态修正模型","parent":"7aeb6e4e15bc","children":[{"id":"2d381261aba9","title":"基本思想","parent":"2451ebb6a22d","children":[{"id":"4dd11cfab587","title":"它按事先设定的时间间隔采样,不存储研究区域中每个状态的全部信息,
只存储某个时间的数据状态,以及相对于基态的变化量。","children":[],"parent":"2d381261aba9"}],"note":""},{"id":"5405ae391172","title":"优点","children":[{"id":"6c441331f827","title":"数据量大大减小、时态分辨率值与事件发生的时刻
完全对应,只记录一个数据基态和相对基态的变化值,
提高了时态分辨率,减小数据冗余;保证地学对象的完整性。","children":[],"parent":"5405ae391172"}],"parent":"2451ebb6a22d"},{"id":"a39a4f1c7dbb","title":"缺点","children":[{"id":"57ced85fc7f8","title":"仍难以适应基于时间的空间查询","children":[],"parent":"a39a4f1c7dbb"}],"parent":"2451ebb6a22d"}],"icons":[{"index":"32","color":"rgb(255, 0, 0)","name":"flag"}]},{"id":"f3bfb28a58df","title":"离散网格单元列表模型","children":[{"id":"5d76eb5092a0","title":"基本思想","children":[{"id":"dfdc630c6f83","title":"将网格单元及其变化以变长列表形式存储","children":[],"parent":"5d76eb5092a0"}],"parent":"f3bfb28a58df"},{"id":"2a3d6c5298a5","title":"不足","children":[{"id":"94a2455e5867","title":"仍是基于位置模型,对于基于时间的查询,仍需查询所有位置。","children":[],"parent":"2a3d6c5298a5"}],"parent":"f3bfb28a58df"}],"parent":"7aeb6e4e15bc"},{"id":"bd20d59a2096","title":"时空复合模型","children":[],"parent":"7aeb6e4e15bc"},{"id":"066238f6ba3a","title":"三域模型","children":[],"parent":"7aeb6e4e15bc"},{"id":"2307c2190e56","title":"基于版本的数据模型","children":[],"parent":"7aeb6e4e15bc"},{"id":"321b36502803","title":"面向对象模型","children":[{"id":"826b67fa129f","title":"空间数据类型","children":[{"id":"3384819881cd","title":"点、线、多边形","parent":"826b67fa129f","children":[]}],"parent":"321b36502803"},{"id":"31c490c7720e","title":"时间数据类型","children":[{"id":"8b8031501130","title":"连续、间隔","parent":"31c490c7720e","children":[]}],"parent":"321b36502803"},{"id":"2c4cee97523c","title":"时空数据类型","children":[{"id":"65801829cb2d","title":"从时间集合T到控件对象O的映射","parent":"2c4cee97523c","children":[]}],"parent":"321b36502803"}],"parent":"7aeb6e4e15bc"}]},{"id":"5b5a88545722","title":"时空数据库模型设计","parent":"fea17462657a","children":[{"id":"cb90a683a628","title":"5个表、3个层","parent":"5b5a88545722","children":[{"id":"72b38fdb8235","title":"属性、几何","children":[],"parent":"cb90a683a628"},{"id":"9ab36150a34c","title":"事件及其发生的时间","children":[],"parent":"cb90a683a628"},{"id":"733f3f1d37b9","title":"安全性和完整性","children":[],"parent":"cb90a683a628"}]}]}],"parent":"root"}]}},"meta":{"id":"5df9bcc3e4b051b174ba899a","member":"5c15e0dfe4b0e244fdf91717","exportTime":"2019-12-20 00:26:53","diagramInfo":{"category":"mind_free","title":"4 时空数据组织与建模","created":"2019-12-18 13:44:35","creator":"5c15e0dfe4b0e244fdf91717","modified":"2019-12-19 09:36:06"},"type":"ProcessOn Schema File","version":"1.0"}} -------------------------------------------------------------------------------- /空间数据库/5 空间数据存储与空间索引.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/空间数据库/5 空间数据存储与空间索引.png -------------------------------------------------------------------------------- /空间数据库/5 空间数据存储与空间索引.pos: -------------------------------------------------------------------------------- 1 | {"diagram":{"image":{"height":200,"pngdata":"iVBORw0KGgoAAAANSUhEUgAAAMgAAADICAYAAACtWK6eAAAACXBIWXMAAAsTAAALEwEAmpwYAAAAsUlEQVR4nO3BAQEAAACCIP+vbkhAAQAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAB8GXHmAAFMgHIEAAAAAElFTkSuQmCC","width":200,"y":0,"x":0},"elements":{"id":"root","structure":"mind_free","leftChildren":[{"id":"75e4dda60b21","title":"索引","parent":"root","children":[{"id":"fbcf023339dc","title":"概念","parent":"75e4dda60b21","children":[]},{"id":"99029b782356","title":"分类","parent":"75e4dda60b21","children":[{"id":"73cb7699a7fc","title":"主索引","parent":"99029b782356","children":[{"id":"15b5fa2cb9e2","title":"按索引属性排序的数据文件","parent":"73cb7699a7fc","children":[]},{"id":"7085817d3723","title":"一个索引记录一个数据块","parent":"73cb7699a7fc","children":[]}]},{"id":"1b25aed8dbba","title":"次索引
","parent":"99029b782356","children":[{"id":"2d840796d373","title":"堆数据文件","parent":"1b25aed8dbba","children":[]},{"id":"949948277c2e","title":"一个索引记录一个数据项","parent":"1b25aed8dbba","children":[]}]}]},{"id":"9b85676ad145","title":"索引非顺序文件","parent":"75e4dda60b21","children":[{"id":"4104284daec5","title":"稠密索引","parent":"9b85676ad145","children":[]}]},{"id":"06ac96b49eb0","title":"索引顺序文件","parent":"75e4dda60b21","children":[{"id":"cf126847cef1","title":"稀疏索引","parent":"06ac96b49eb0","children":[]}]}]}],"title":"5 空间数据存储与空间索引","root":true,"theme":"caihong","children":[{"id":"b8a59d8dd079","title":"存储","children":[{"id":"e9221bd03298","title":"存储设备","children":[{"id":"8fa9df26ba94","title":"1 基本存储","parent":"e9221bd03298","children":[{"id":"a6dcc479620d","title":"寄存器、高速缓冲存储器、主存储器","parent":"8fa9df26ba94","children":[]}]},{"id":"dede5aa73e19","title":"2 联机存储","parent":"e9221bd03298","children":[{"id":"a78adf6ec555","title":"快闪存储器、磁盘存储器","parent":"dede5aa73e19","children":[]}]},{"id":"271a7dee49b0","title":"3 脱机存储","parent":"e9221bd03298","children":[{"id":"59f4fb65d77a","title":"光盘存储器、磁带存储器","parent":"271a7dee49b0","children":[]}]}],"parent":"b8a59d8dd079"},{"id":"5fe66c3cdc6f","title":"磁盘","children":[{"id":"fd7cdc87a24f","title":"磁盘、磁道、扇区、磁盘块","parent":"5fe66c3cdc6f","children":[]},{"id":"290aaeb36884","title":"访问扇区的三个步骤
总耗时t=ts+tl+tt","parent":"5fe66c3cdc6f","children":[{"id":"77e1e3e0c4fe","title":"寻道","parent":"290aaeb36884","children":[{"id":"67f1f00a3106","title":"找到相关磁道 ts","parent":"77e1e3e0c4fe","children":[]}]},{"id":"db9fdb99f16f","title":"延迟时间","parent":"290aaeb36884","children":[{"id":"d51fa9e0d30b","title":"等待主轴旋转到相关扇区 tl","parent":"db9fdb99f16f","children":[]}]},{"id":"6637465b73a9","title":"传输","parent":"290aaeb36884","children":[{"id":"976f8b8739dc","title":"读写扇区 tt","parent":"6637465b73a9","children":[]}]}]},{"id":"510853fe67c8","title":"如何有效应用","children":[{"id":"c7a228d0e351","title":"扇区大小","children":[],"parent":"510853fe67c8"},{"id":"24dd754bf202","title":"常用数据项的放置","children":[],"parent":"510853fe67c8"},{"id":"73d70bf7a3c7","title":"大数据集需要更多的扇区","parent":"510853fe67c8","children":[]}],"parent":"5fe66c3cdc6f"}],"parent":"b8a59d8dd079"},{"id":"07a8abf56823","title":"缓冲器管理","parent":"b8a59d8dd079","children":[{"id":"03c43cc676dc","title":"原因","parent":"07a8abf56823","children":[{"id":"88ca65bcccf1","title":"访问磁盘的速度远低于访问主存的速度","parent":"03c43cc676dc","children":[]}]},{"id":"8b062eb4b58d","title":"缓冲器管理器","parent":"07a8abf56823","children":[{"id":"91e6755e2798","title":"概念","parent":"8b062eb4b58d","children":[{"id":"40b56fff2727","title":"DBMS的一个软件模块,负责管理主存域二级存储
之间的数据传输","parent":"91e6755e2798","children":[]}]},{"id":"5f7e293a2037","title":"作用","children":[{"id":"aa94262e2703","title":"确定哪些扇区应放在主存缓冲区中","children":[],"parent":"5f7e293a2037"},{"id":"34273c5261a4","title":"如果主存缓冲区的空间用完了,哪些扇区被移除","children":[],"parent":"5f7e293a2037"},{"id":"b4b2289a1bdd","title":"哪些是预取扇区等","children":[],"parent":"5f7e293a2037"}],"parent":"8b062eb4b58d"}]}]},{"id":"1da60622d11f","title":"域、记录、文件","parent":"b8a59d8dd079","children":[{"id":"a641065f327a","title":"磁盘上的数据是它们组织起来的集合","parent":"1da60622d11f","children":[]}]},{"id":"5c2f546ad469","title":"文件的结构","children":[{"id":"adbc9538c7e6","title":"文件组织其记录的方法","children":[],"parent":"5c2f546ad469"},{"id":"f6a29f43b270","title":"常用","children":[{"id":"f4f2b0e25f0f","title":"堆(无序)文件","children":[],"parent":"f6a29f43b270"},{"id":"abbf4246f3b2","title":"散列","parent":"f6a29f43b270","children":[]},{"id":"aa41c5e61490","title":"顺序文件","parent":"f6a29f43b270","children":[]},{"id":"133ae6a143c5","title":"聚类","parent":"f6a29f43b270","children":[{"id":"1b8c4b590544","title":"降低常见大查询的寻道时间和等待时间","parent":"133ae6a143c5","children":[]},{"id":"bbc390d54e30","title":"空间聚类技术:空间填充曲线","parent":"133ae6a143c5","children":[{"id":"2187a191f05b","title":"Z曲线和Hilbert曲线","parent":"bbc390d54e30","children":[]}]}]}],"parent":"5c2f546ad469"}],"parent":"b8a59d8dd079"}],"parent":"root"},{"id":"6e3a0c8cd22b","title":"空间索引","children":[{"id":"89f31fc6af51","title":"概念","children":[],"parent":"6e3a0c8cd22b","note":"依据空间对象的位置和形状或空间对象之间的某种空间关系按一定的顺序排列的一种数据结构,其中包含空间对象的概要信息,如对象的标识、外接矩形及指向空间对象实体的指针。"},{"id":"8da6183ad5bb","title":"作用","parent":"6e3a0c8cd22b","children":[],"note":"辅助性的空间数据结构,介于空间操作算法和空间对象之间,通过筛选作用,大量与特定空间操作无关的空间对象被排除,从而提高空间操作的速度和效率。"},{"id":"598ca8ef41d8","title":"基本原理","parent":"6e3a0c8cd22b","children":[{"id":"0ff7b347338a","title":"分割","parent":"598ca8ef41d8","children":[]}]},{"id":"c4e8f9df1822","title":"常用空间索引","parent":"6e3a0c8cd22b","children":[{"id":"feebc2667812","title":"自顶向下、逐级划分地理空间","parent":"c4e8f9df1822","children":[]},{"id":"7332f2aa0262","title":"规则分割","parent":"c4e8f9df1822","children":[{"id":"2458474f48c6","title":"格网、BSP、KDB","children":[],"parent":"7332f2aa0262"}]},{"id":"de151862807c","title":"基于对象的分割","children":[{"id":"0dcb7230abf5","title":"R树、R+树、Cell树","children":[],"parent":"de151862807c"}],"parent":"c4e8f9df1822"}]}],"parent":"root"},{"id":"26b403aeae11","title":"时空索引","children":[{"id":"0f5f45653d3a","title":"概念","children":[],"parent":"26b403aeae11"},{"id":"aab27003b381","title":"方法","parent":"26b403aeae11","children":[]}],"parent":"root"}]}},"meta":{"id":"5df9d9eae4b010171a4b8b8c","member":"5c15e0dfe4b0e244fdf91717","exportTime":"2019-12-20 00:26:58","diagramInfo":{"category":"mind_free","title":"5 空间数据存储与空间索引","created":"2019-12-18 15:48:58","creator":"5c15e0dfe4b0e244fdf91717","modified":"2019-12-20 00:26:19"},"type":"ProcessOn Schema File","version":"1.0"}} -------------------------------------------------------------------------------- /遥感原理与应用/第一章 绪论.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/遥感原理与应用/第一章 绪论.png -------------------------------------------------------------------------------- /遥感原理与应用/第七章 遥感图像判读.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/遥感原理与应用/第七章 遥感图像判读.png -------------------------------------------------------------------------------- /遥感原理与应用/第三章 遥感平台及运行特点.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/遥感原理与应用/第三章 遥感平台及运行特点.png -------------------------------------------------------------------------------- /遥感原理与应用/第二章 电磁波及遥感物理基础.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/遥感原理与应用/第二章 电磁波及遥感物理基础.png -------------------------------------------------------------------------------- /遥感原理与应用/第五章 遥感图像的几何形变.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/遥感原理与应用/第五章 遥感图像的几何形变.png -------------------------------------------------------------------------------- /遥感原理与应用/第八章 遥感影像自动识别分类.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/遥感原理与应用/第八章 遥感影像自动识别分类.png -------------------------------------------------------------------------------- /遥感原理与应用/第六章 遥感图像的辐射处理.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/遥感原理与应用/第六章 遥感图像的辐射处理.png -------------------------------------------------------------------------------- /遥感原理与应用/第四章 遥感传感器及其成像原理.png: -------------------------------------------------------------------------------- https://raw.githubusercontent.com/lsq210/Mind-Map/80a459cca919292bd056b715978e4b5939cc768e/遥感原理与应用/第四章 遥感传感器及其成像原理.png --------------------------------------------------------------------------------