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  • h3converter:转换H3-源码

    2021-03-11 00:43:52
    转换H3 此软件包可帮助您将h3 hec代码直接转换为geojson,并将GeoJSON实体转换为h3 hex代码。 样本: H3到GeoJSON: from h3converter import h3converter h3converter.h3_to_geojson(['89be455030bffff','89be...
  • h3crd_h3crd_h3crd

    2014-11-06 19:03:09
    h3crd播放器 需用者下载用之
  • h3-pg:H3的PostgreSQL绑定,H3是分层的六角形地理空间索引系统
  • H3CNE H3CNE 教材H3CNE 教材教H3CH3CNE 教材NE 教材材
  • h3欧姆龙控制设ba-n_h3bf-n_h3bg-n_h3bh-n_h3ba-x_l126_094-cn5_1_6(1)pdf,
  • 欧姆龙H3Y/H3YN共通注意事项pdf,欧姆龙H3Y/H3YN共通注意事项
  • 士研电机时间继电器H3MT/ H3MT-S/ H3MT-Ypdf,士研电机时间继电器H3MT/ H3MT-S/ H3MT-Y:内装CMOS IC故具高信赖度及稳定度,从0.1sec~30hrs,有5种时间范围可选,A,B接点,可在面板上转换,使用双色LED,可清楚指示...
  • 士研电机时间继电器H3M/H3M-S/H3M-Y说明书pdf,士研电机时间继电器H3M/H3M-S/H3M-Y说明书:内装CMOS IC故具高信赖度及稳定度,从0.1sec~30hrs,有5种时间范围可选,A,B接点,可在面板上转换,使用双色LED,可清楚指示...
  • H3VRModInstaller 这是一个为您安装H3VR的程序。 使用的系统允许我们为H3VRMI自动更新mod,而无需新版本。 话虽如此,H3VRMI目前尚未完成,并且可能有更新/问题。 如何安装H3VR Mod安装程序? 首先,安装NET 5.0。 ...
  • H3.jl:H3.jl提供了H3的Julia版本,即六角分层地理空间索引系统。 https:github.comuberh3
  • H3CNE题库 H3C认证

    2011-02-28 18:42:44
    H3CNE题库H3CNE题库H3CNE题库H3CNE题库H3CNE题库
  • H3CNE认证资料

    2019-07-22 17:11:28
    教程名称:H3CNE 认证资料课程目录:【】H3CNE 6.0 (01)局域网基本原理【】H3CNE 6.0 (02)广域网基本原理【】H3CNE 6.0 (03)TCP和UDP基本原理【】H3CNE 6.0 (04)路由器交换机及其操作系统【】H3CNE 6.0 (15)DNS ...
  • 本课程涉及计算机网络基础知识、企业网常用技术介绍、H3C路由器和交换机配置网络运维,常用工具介绍、H3C模拟器介绍、H3C资料和手册。全国职业院校技能大赛-高职组计算机网络应用赛项讲解。
  • H3CNE模拟器

    2018-07-23 11:44:33
    H3CNE考试模拟器,实用题库全,欢迎各位萌新宝宝使用。
  • H3CTE实验笔记

    2018-05-17 11:53:15
    H3CTE实验整理笔记,H3CTE实验整理笔记H3CTE实验整理笔记
  • Uber H3 封装

    2019-01-29 14:40:01
    Uber H3 库的 OC 封装,将全球地图划分为六边形的样式,可以用于热力图等地图上的显示,目前只有 c 的版本
  • H3_API

    2020-12-25 09:19:26
    DGGS_H3 标签(空格分隔):室内定位 1、Distance h3Distance int h3Distance(H3Index origin, H3Index h3); 返回两个索引对应的网格cell单元的距离 若是查询距离失败,则返回负值 2、Hierarchical grid functions ...

    DGGS_H3

    标签(空格分隔):室内定位

    1、Distance

    h3Distance

    int h3Distance(H3Index origin, H3Index h3);
    

    返回两个索引对应的网格cell单元的距离
    若是查询距离失败,则返回负值

    2、Hierarchical grid functions

    h3ToParent

    H3Index h3ToParent(H3Index h, int parentRes);
    

    Returns the parent (coarser) index containing h.

    h3ToChildren

    void h3ToChildren(H3Index h, int childRes, H3Index *children);
    

    Populates children with the indexes contained by h at resolution childRes. children must be an array of at least size maxH3ToChildrenSize(h, childRes).

    maxH3ToChildrenSize

    int maxH3ToChildrenSize(H3Index h, int childRes);
    

    Returns the size of the array needed by h3ToChildren for these inputs.

    compact

    int compact(const H3Index *h3Set, H3Index *compactedSet, const int numHexes);
    

    Compacts the set h3Set of indexes as best as possible, into the array compactedSet. compactedSet must be at least the size of h3Set in case the set cannot be compacted.

    Returns 0 on success.

    uncompact

    int uncompact(const H3Index *compactedSet, const int numHexes, H3Index *h3Set, const int maxHexes, const int res);
    

    Uncompacts the set compactedSet of indexes to the resolution res. h3Set must be at least of size maxUncompactSize(compactedSet, numHexes, res).

    Returns 0 on success.

    maxUncompactSize

    int maxUncompactSize(const H3Index *compactedSet, const int numHexes, const int res)
    

    Returns the size of the array needed by uncompact.
    #3、 Indexing functions

    filter input outputs
    geoToH3 lat/lon H3Index
    h3ToGeo H3Index cell center point in lat/lon
    h3ToGeoBoundary H3Index cell boundary in lat/lon
    h3ToComponents H3Index components
    kRing H3Index surrounding H3Index
    hexRange H3Index surrounding H3Index, in order

    geoToH3

    H3Index geoToH3(const GeoCoord *g, int res);
    

    Indexes the location at the specified resolution.

    Returns 0 on error.

    h3ToGeo

    void h3ToGeo(H3Index h3, GeoCoord *g);
    

    Finds the centroid of the index.

      ##h3ToGeoBoundary
    
    void h3ToGeoBoundary(H3Index h3, GeoBoundary *gp);
    

    Finds the boundary of the index.
    Unix Command Line Examples

    • find the index for coordinates at resolution 5

      echo 40.689167 -74.044444 | geoToH3 5

    • output the cell center point for H3Index 845ad1bffffffff

      echo 845ad1bffffffff | h3ToGeo

    • output the cell boundary for H3Index 845ad1bffffffff

      echo 845ad1bffffffff | h3ToGeoBoundary

    • find the components for the H3Index 845ad1bffffffff

      echo 845ad1bffffffff | h3ToComponents

    • output all indexes within distance 1 of the H3Index 845ad1bffffffff

      echo 845ad1bffffffff | kRing 1

    • output all hexagon indexes within distance 2 of the H3Index 845ad1bffffffff

      echo 845ad1bffffffff | hexRange 2

    Note that the filters h3ToGeo and h3ToGeoBoundary take optional arguments that allow them to generate kml output. See the header comments in the corresponding source code files for details.
    #4、 Index inspection functions

    h3GetResolution

    int h3GetResolution(H3Index h);
    

    Returns the resolution of the index.

    h3GetBaseCell

    int h3GetBaseCell(H3Index h);
    

    Returns the base cell number of the index.

    stringToH3

    H3Index stringToH3(const char *str);
    

    Converts the string representation to H3Index (uint64_t) representation.

    Returns 0 on error.

    h3ToString

    void h3ToString(H3Index h, char *str, size_t sz);
    

    Converts the H3Index representation of the index to the string representation. str must be at least of length 17.

    h3IsValid

    int h3IsValid(H3Index h);
    

    Returns non-zero if this is a valid H3 index.

    h3IsResClassIII

    int h3IsResClassIII(H3Index h);
    

    Returns non-zero if this index has a resolution with Class III orientation.

    h3IsPentagon

    int h3IsPentagon(H3Index h);
    

    Returns non-zero if this index represents a pentagonal cell.
    #5、 Miscellaneous H3 functions

    degsToRads

    double degsToRads(double degrees);
    

    Converts degrees to radians.

    radsToDegs

    double radsToDegs(double radians);
    

    Converts radians to degrees.

    hexAreaKm2

    double hexAreaKm2(int res);
    

    Average hexagon area in square kilometers at the given resolution.

    hexAreaM2

    double hexAreaM2(int res);
    

    Average hexagon area in square meters at the given resolution.

    edgeLengthKm

    double edgeLengthKm(int res);
    

    Average hexagon edge length in kilometers at the given resolution.

    edgeLengthM

    double edgeLengthM(int res);
    

    Average hexagon edge length in meters at the given resolution.

    numHexagons

    int64_t numHexagons(int res);
    

    Number of unique H3 indexes at the given resolution.
    #6、 Neighbor traversal functions

    kRing

    void kRing(H3Index origin, int k, H3Index* out);
    

    k-rings produces indices within k distance of the origin index.

    k-ring 0 is defined as the origin index, k-ring 1 is defined as k-ring 0 and
    all neighboring indices, and so on.

    Output is placed in the provided array in no particular order. Elements of
    the output array may be left zero, as can happen when crossing a pentagon.

    maxKringSize

    int maxKringSize(int k);
    

    Maximum number of indices that result from the kRing algorithm with the given k.

    kRingDistances

    void kRingDistances(H3Index origin, int k, H3Index* out, int* distances);
    

    k-rings produces indices within k distance of the origin index.

    k-ring 0 is defined as the origin index, k-ring 1 is defined as k-ring 0 and
    all neighboring indices, and so on.

    Output is placed in the provided array in no particular order. Elements of
    the output array may be left zero, as can happen when crossing a pentagon.

    hexRange

    int hexRange(H3Index origin, int k, H3Index* out);
    

    hexRange produces indexes within k distance of the origin index.
    Output behavior is undefined when one of the indexes returned by this
    function is a pentagon or is in the pentagon distortion area.

    k-ring 0 is defined as the origin index, k-ring 1 is defined as k-ring 0 and
    all neighboring indexes, and so on.

    Output is placed in the provided array in order of increasing distance from
    the origin.

    Returns 0 if no pentagonal distortion is encountered.

    hexRangeDistances

    int hexRangeDistances(H3Index origin, int k, H3Index* out, int* distances);
    

    hexRange produces indexes within k distance of the origin index.
    Output behavior is undefined when one of the indexes returned by this
    function is a pentagon or is in the pentagon distortion area.

    k-ring 0 is defined as the origin index, k-ring 1 is defined as k-ring 0 and
    all neighboring indexes, and so on.

    Output is placed in the provided array in order of increasing distance from
    the origin. The distances in hexagons is placed in the distances array at
    the same offset.

    Returns 0 if no pentagonal distortion is encountered.

    hexRanges

    int hexRanges(H3Index* h3Set, int length, int k, H3Index* out);
    

    hexRanges takes an array of input hex IDs and a max k-ring and returns an
    array of hexagon IDs sorted first by the original hex IDs and then by the
    k-ring (0 to max), with no guaranteed sorting within each k-ring group.

    Returns 0 if no pentagonal distortion was encountered. Otherwise, output
    is undefined

    hexRing

    int hexRing(H3Index origin, int k, H3Index* out);
    

    Produces the hollow hexagonal ring centered at origin with sides of length k.

    Returns 0 if no pentagonal distortion was encountered.
    #7、 Region functions

    polyfill

    void polyfill(const GeoPolygon* geoPolygon, int res, H3Index* out);
    

    polyfill takes a given GeoJSON-like data structure and preallocated,
    zeroed memory, and fills it with the hexagons that are contained by
    the GeoJSON-like data structure.

    The current implementation is very primitive and slow, but correct,
    performing a point-in-poly operation on every hexagon in a k-ring defined
    around the given geofence.

    maxPolyfillSize

    int maxPolyfillSize(const GeoPolygon* geoPolygon, int res);
    

    maxPolyfillSize returns the number of hexagons to allocate space for when
    performing a polyfill on the given GeoJSON-like data structure.

    h3SetToLinkedGeo

    void h3SetToLinkedGeo(const H3Index* h3Set, const int numHexes, LinkedGeoPolygon* out);
    

    Create a LinkedGeoPolygon describing the outline(s) of a set of hexagons.
    It is the responsibility of the caller to call destroyLinkedPolygon on the
    populated linked geo structure, or the memory for that structure will
    not be freed.

    It is expected that all hexagons in the set will have the same resolution.
    Using different resolution hexagons is not recommended.

    At present, if the set of hexagons is not contiguous, this function
    will return a single polygon with multiple outer loops. The correct GeoJSON
    output should only have one outer loop per polygon. It appears that most
    GeoJSON consumers are fine with the first input format, but it’s less correct
    than the second format. The function may be updated to produce
    multiple polygons in the future.

    destroyLinkedPolygon

    void destroyLinkedPolygon(LinkedGeoPolygon* polygon);
    

    Free all allocated memory for a linked geo structure. The caller is
    responsible for freeing memory allocated to input polygon struct.

    #8、 Unidirectional edge functions

    h3IndexesAreNeighbors

    int h3IndexesAreNeighbors(H3Index origin, H3Index destination);
    

    Returns whether or not the provided H3Indexes are neighbors.

    Returns 1 if the indexes are neighbors, 0 otherwise.

    getH3UnidirectionalEdge

    H3Index getH3UnidirectionalEdge(H3Index origin, H3Index destination);
    

    Returns a unidirectional edge H3 index based on the provided origin and
    destination.

    Returns 0 on error.

    h3UnidirectionalEdgeIsValid

    int h3UnidirectionalEdgeIsValid(H3Index edge);
    

    Determines if the provided H3Index is a valid unidirectional edge index.

    Returns 1 if it is a unidirectional edge H3Index, otherwise 0.

    getOriginH3IndexFromUnidirectionalEdge

    H3Index getOriginH3IndexFromUnidirectionalEdge(H3Index edge);
    

    Returns the origin hexagon from the unidirectional edge H3Index.

    getDestinationH3IndexFromUnidirectionalEdge

    H3Index getDestinationH3IndexFromUnidirectionalEdge(H3Index edge);
    

    Returns the destination hexagon from the unidirectional edge H3Index.

    getH3IndexesFromUnidirectionalEdge

    void getH3IndexesFromUnidirectionalEdge(H3Index edge, H3Index* originDestination);
    

    Returns the origin, destination pair of hexagon IDs for the given edge ID, which are placed at originDestination[0] and
    originDestination[1] respectively.

    getH3UnidirectionalEdgesFromHexagon

    void getH3UnidirectionalEdgesFromHexagon(H3Index origin, H3Index* edges);
    

    Provides all of the unidirectional edges from the current H3Index. edges must be of length 6,
    and the number of undirectional edges placed in the array may be less than 6.

    getH3UnidirectionalEdgeBoundary

    void getH3UnidirectionalEdgeBoundary(H3Index edge, GeoBoundary* gb);
    

    Provides the coordinates defining the unidirectional edge.

    展开全文
  • 全志H3数据手册

    2018-04-01 07:55:48
    全志H3的数据手册,详细的描述了全志H3的寄存器等信息
  • 全志H3资料.zip

    2020-02-03 12:45:29
    资源包含:H3 SDK开发包说明文档,H3开发所用软件,H3硬件参考设计资料,H3数据手册与芯片信息,调试工具软件,硬件Checklist,DRAM参考PCB,器件支持列表,硬件设计指南,硬件调试指南,原理图。
  • H3CNE教材PDF高清扫描

    2018-06-05 10:23:09
    H3CNE教材H3CNE教材H3CNE教材H3CNE教材H3CNE教材H3CNE教材H3CNE教材
  • H3CSE全套培训PPT

    2019-05-07 19:51:05
    到目前为止,H3C认证培训体系包含了四个等级五大类认证,分别为H3CNA、H3CNE、H3CSE、H3CTE、H3CIE。其中,高端认证项目H3CSE包含◆ H3CSE-Routing & Switching(H3C Certified Senior Network Engineer for Routing...
  • H3VR-Mod-Installer-Database H3VR Mod安装程序的数据库! 要将mod添加到modinstaller,请克隆此存储库,然后发出拉取请求!
  • 全志H3参考设计

    2019-02-16 12:17:39
    全志H3参考设计,里面有原理图和PCB,用于硬件设计,希望大家可以好好利用
  • H3CNE官方PPT文件

    2018-06-13 22:02:21
    H3CnePPTH3Cne
  • H3C官方模拟器HCL(H3C Cloud Lab)

    万次阅读 2019-11-14 14:59:06
    HCL是H3C目前官方唯一出品的模拟器,整个产品的界面设计和性能比行业的其他H3C模拟器都要强大。华三云实验室(H3C Cloud Lab,简称HCL)是一款界面图形化的全真网络模拟软件,用户可以通过该软件实现H3C公司多个型号...

    HCL是H3C目前官方唯一出品的模拟器,整个产品的界面设计和性能比行业的其他H3C模拟器都要强大。华三云实验室(H3C Cloud Lab,简称HCL)是一款界面图形化的全真网络模拟软件,用户可以通过该软件实现H3C公司多个型号的虚拟设备的组网,是用户学习、测试基于H3C公司Comware V7平台的网络设备的必备工具。
    在这里插入图片描述

    展开全文
  • H3 BPM安装及教程.zip

    2020-07-16 12:04:32
    内含H3 BPM.exe,H3 BPM 安装手册.pdf,H3 BPM 快速使用手册.pdf,H3 BPM实施开发手册.pdf,H3 ReadMe.pdf,安装注意事项.txt共6个文件。
  • 全志H3开发资料包.zip

    2020-05-29 13:50:59
    文件中包含全志H3芯片的全套资料,文件清单:H3 Android SDK、H3 DataSheet、H3 SDK开发包说明文档、H3开发软件、H3硬件参考设计资料Hardware、调试工具软件、mjpg-streamer-code-182.tar
  • H3 BPM产品功能版本划分H3 BPM产品功能版本划分H3 BPM产品功能版本划分H3 BPM产品功能版本划分H3 BPM产品功能版本划分H3 BPM产品功能版本划分H3 BPM产品功能版本划分H3 BPM产品功能版本划分H3 BPM产品功能版本划分H3...
  • H3C《H3CTE 网络故障诊断与排除 v2.2》 官方认证教材,PPT版本和PDF版本
  • H3CNA学习资料

    2016-11-22 13:59:50
    H3C的 CCNA基础学习文档,

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