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    • 1. 发明申请
    • HIGH PRECISION INTERNET LOCAL SEARCH
    • 高精度互联网本地搜索
    • WO2007067760A2
    • 2007-06-14
    • PCT/US2006/047010
    • 2006-12-08
    • DECARTA, INC.HENDREY, GeoffreyPOPPEN, Richard
    • HENDREY, GeoffreyPOPPEN, Richard
    • G06F7/00
    • G06F17/3087G06F17/30241G06F17/30268H04L9/3247H04L2209/24H04L2209/72
    • High-precision local search is performed on the Internet. A map image-rendering software provider embeds spatial keys into maps, which are then provided to producers of Internet content such as map providers. For example, a homeowner may post a message on a web bulletin board advertising his house for sale, and including a map showing the location of the house. When a search engine's web crawler encounters a page having a spatial key embedded in an image, the spatial key is indexed with the other content on the page. Because the spatial key identifies a small geographic area, indexing the content with the spatial key allows search queries to be limited by area and still provide useful results. Thus, a user of a search engine searching for "house for sale" in a specific area will be directed to web pages that meet the geographic and content search terms.
    • 在互联网上执行高精度本地搜索。 地图图像呈现软件提供者将空间密钥嵌入到地图中,然后将其提供给诸如地图提供者之类的因特网内容的制作者。 例如,房主可以在宣传他的房子的网络公告牌上发布消息,并且包括显示房屋位置的地图。 当搜索引擎的网页抓取工具遇到具有嵌入在图像中的空间密钥的页面时,空间密钥与页面上的其他内容一起索引。 由于空间密钥识别小的地理区域,所以使用空间密钥对内容进行索引可以使搜索查询受到区域的限制,并仍然提供有用的结果。 因此,在特定区域中搜索“出售房屋”的搜索引擎的用户将被引导到满足地理和内容搜索条件的网页。
    • 2. 发明申请
    • RETRIEVAL OF VEHICULAR TRAFFIC INFORMATION OPTIMIZED FOR WIRELESS MOBILE ENVIRONMENTS
    • 无线移动环境下优化的车辆流量信息的检索
    • WO2009124138A2
    • 2009-10-08
    • PCT/US2009/039189
    • 2009-04-01
    • DECARTA INC.HENDREY, Geoffrey
    • HENDREY, Geoffrey
    • G01C21/34
    • G01C21/3415G01C21/3492G08G1/096822G08G1/096844
    • Two-way communication between a mobile device and a server is used to provide increased relevance of traffic information at lower bandwidth. The complexity, amount of storage and processing power required of the mobile navigation device are minimized, since the server performs much of the required computing. A transactional billing model can be used to bill the driver based on usage or consumption of traffic information. A driver selects a destination and routing preferences on a mobile device, and the local system generates a routing. The mobile device sends the planned route and preferences to a server. The server uses real-time traffic flow and incident information to determine an estimated driving time for the planned route. The server may also generate alternative routes, with an estimated time for each alternative route. The traffic and time information for the planned and alternative routes are then transmitted back to the mobile device.
    • 移动设备和服务器之间的双向通信用于在较低的带宽下提供增加的交通信息相关性。 移动导航设备所需的存储和处理能力的复杂性,数量被最小化,因为服务器执行大部分所需的计算。 交易计费模型可用于基于交通信息的使用或消耗对驾驶员进行计费。 驱动程序在移动设备上选择目标和路由首选项,并且本地系统生成路由。 移动设备将计划的路线和偏好发送给服务器。 服务器使用实时交通流量和事故信息来确定计划路线的预计驾驶时间。 服务器也可以生成替代路线,并为每条替代路线估计时间。 然后将计划路线和替代路线的交通和时间信息传回给移动设备。
    • 3. 发明申请
    • DRAGGABLE MAPS
    • 可拖动的MAPS
    • WO2007095184A2
    • 2007-08-23
    • PCT/US2007/003695
    • 2007-02-13
    • DECARTA, INC.HENDREY, GeoffreyHAMBY, Brent
    • HENDREY, GeoffreyHAMBY, Brent
    • G06T11/20G06F3/0481G06F17/30061G06F17/30241G06F17/3087G06T7/60G06T7/70G06T7/90G06T11/40G06T11/60G06T17/05G06T2200/32G06T2207/20021G06T2207/30181G09B29/106G09G2310/04G09G2360/122
    • A web server receives a request from a client specifying a location and a bounding area. A mapping engine creates a tile grid centered at the specified location. A seed tile is created, including or adjacent to the center location. The web server creates a resource identifier for each tile in the tile grid, and returns the tile grid including the resource identifiers to the client. The resource identifier for each tile includes the location of the seed tile and a position offset for the tile relative to the seed tile, in one embodiment specified in units of northward and eastward movement. The client requests tiles from the system using the resource identifiers previously provided by the system. Upon receiving the request, the mapping engine dynamically renders each requested tile using map data from the map database, and the web server returns the dynamically-generated tiles to the requesting client.
    • Web服务器从客户端接收指定位置和边界区域的请求。 映射引擎创建以指定位置为中心的瓦片网格。 创建种子瓦片,包括或邻近中心位置。 Web服务器为瓦片网格中的每个瓦片创建资源标识符,并将包含资源标识符的瓦片网格返回给客户端。 在以向北和向东移动为单位指定的一个实施例中,每个瓦片的资源标识符包括种子瓦片的位置和瓦片相对于种子瓦片的位置偏移。 客户端使用系统先前提供的资源标识符从系统请求瓦片。 在接收到请求之后,映射引擎使用来自地图数据库的地图数据来动态呈现每个请求的片段,并且web服务器将动态生成的片段返回给请求的客户端。
    • 4. 发明申请
    • DRAGGABLE MAPS
    • 可拖动的MAPS
    • WO2007095184A3
    • 2009-04-09
    • PCT/US2007003695
    • 2007-02-13
    • DECARTA INCHENDREY GEOFFREYHAMBY BRENT
    • HENDREY GEOFFREYHAMBY BRENT
    • G06F7/00
    • G06T11/20G06F3/0481G06F17/30061G06F17/30241G06F17/3087G06T7/60G06T7/70G06T7/90G06T11/40G06T11/60G06T17/05G06T2200/32G06T2207/20021G06T2207/30181G09B29/106G09G2310/04G09G2360/122
    • A web server receives a request from a client specifying a location and a bounding area. A mapping engine creates a tile grid centered at the specified location. A seed tile is created, including or adjacent to the center location. The web server creates a resource identifier for each tile in the tile grid, and returns the tile grid including the resource identifiers to the client. The resource identifier for each tile includes the location of the seed tile and a position offset for the tile relative to the seed tile, in one embodiment specified in units of northward and eastward movement. The client requests tiles from the system using the resource identifiers previously provided by the system. Upon receiving the request, the mapping engine dynamically renders each requested tile using map data from the map database, and the web server returns the dynamically-generated tiles to the requesting client.
    • Web服务器从客户端接收指定位置和边界区域的请求。 映射引擎创建以指定位置为中心的瓦片网格。 创建种子瓦片,包括或邻近中心位置。 Web服务器为瓦片网格中的每个瓦片创建资源标识符,并将包含资源标识符的瓦片网格返回给客户端。 在以向北和向东移动为单位指定的一个实施例中,每个瓦片的资源标识符包括种子瓦片的位置和瓦片相对于种子瓦片的位置偏移。 客户端使用系统先前提供的资源标识符从系统请求瓦片。 在接收到请求之后,映射引擎使用来自地图数据库的地图数据来动态呈现每个请求的片段,并且web服务器将动态生成的片段返回给请求的客户端。
    • 5. 发明申请
    • HIGH PRECISION INTERNET LOCAL SEARCH
    • 高精度互联网本地搜索
    • WO2007067760A3
    • 2008-04-24
    • PCT/US2006047010
    • 2006-12-08
    • DECARTA INCHENDREY GEOFFREYPOPPEN RICHARD
    • HENDREY GEOFFREYPOPPEN RICHARD
    • G06F7/00
    • G06F17/3087G06F17/30241G06F17/30268H04L9/3247H04L2209/24H04L2209/72
    • High-precision local search is performed on the Internet. A map image-rendering software provider embeds spatial keys into maps, which are then provided to producers of Internet content such as map providers. For example, a homeowner may post a message on a web bulletin board advertising his house for sale, and including a map showing the location of the house. When a search engine's web crawler encounters a page having a spatial key embedded in an image, the spatial key is indexed with the other content on the page. Because the spatial key identifies a small geographic area, indexing the content with the spatial key allows search queries to be limited by area and still provide useful results. Thus, a user of a search engine searching for "house for sale" in a specific area will be directed to web pages that meet the geographic and content search terms.
    • 在互联网上执行高精度本地搜索。 地图图像呈现软件提供者将空间密钥嵌入到地图中,然后将其提供给诸如地图提供者之类的因特网内容的制作者。 例如,房主可以在宣传他的房子的网络公告牌上发布消息,并且包括显示房屋位置的地图。 当搜索引擎的网页抓取工具遇到具有嵌入在图像中的空间密钥的页面时,空间密钥与页面上的其他内容一起索引。 由于空间密钥识别小的地理区域,所以使用空间密钥对内容进行索引可以使搜索查询受到区域的限制,并仍然提供有用的结果。 因此,在特定区域中搜索“出售房屋”的搜索引擎的用户将被引导到满足地理和内容搜索条件的网页。
    • 7. 发明申请
    • HIERARCHICAL ORDERING OF STRINGS
    • 行的分级排序
    • WO2014047214A1
    • 2014-03-27
    • PCT/US2013/060466
    • 2013-09-18
    • HENDREY, Geoffrey R.
    • HENDREY, Geoffrey R.
    • G06F17/00G06F17/30
    • G06F17/30495G06F17/30985
    • A computer-implemented method of comparing strings is presented. The method entails mapping a first string and a second string in a multi-dimensional space where each axis represents a character in the first and/or second strings. The mapped positions of the first and second strings in the multi-dimensional space are used to generate first and second one-dimensional representations of the first and second strings, respectively. The degree of similarity between the first string and the second string is determined based on a difference between the first and second one-dimensional representations. The mapping of the strings in a multi-dimensional space may entail dividing an axis into a first region and a second region, assigning the string to the first or second region depending on the presence or absence of a character, and further subdividing the regions to represent different positions of the character in the string.
    • 提出了一种计算机实现的比较字符串的方法。 该方法需要在多维空间中映射第一字符串和第二字符串,其中每个轴表示第一和/或第二字符串中的字符。 多维空间中的第一和第二串的映射位置分别用于产生第一和第二串的第一和第二一维表示。 基于第一和第二一维表示之间的差来确定第一串和第二串之间的相似度。 在多维空间中的字符串的映射可能需要将轴分成第一区域和第二区域,根据字符的存在或不存在将字符串分配给第一或第二区域,并且进一步将区域划分为 表示字符串中字符的不同位置。
    • 8. 发明申请
    • RETRIEVAL OF VEHICULAR TRAFFIC INFORMATION OPTIMIZED FOR WIRELESS MOBILE ENVIRONMENTS
    • 检索无线移动环境优化的车辆交通信息
    • WO2009124138A3
    • 2009-12-30
    • PCT/US2009039189
    • 2009-04-01
    • DECARTA INCHENDREY GEOFFREY
    • HENDREY GEOFFREY
    • G01C21/30
    • G01C21/3415G01C21/3492G08G1/096822G08G1/096844
    • Two-way communication between a mobile device and a server is used to provide increased relevance of traffic information at lower bandwidth. The complexity, amount of storage and processing power required of the mobile navigation device are minimized, since the server performs much of the required computing. A transactional billing model can be used to bill the driver based on usage or consumption of traffic information. A driver selects a destination and routing preferences on a mobile device, and the local system generates a routing. The mobile device sends the planned route and preferences to a server. The server uses real-time traffic flow and incident information to determine an estimated driving time for the planned route. The server may also generate alternative routes, with an estimated time for each alternative route. The traffic and time information for the planned and alternative routes are then transmitted back to the mobile device.
    • 使用移动设备和服务器之间的双向通信来提供较低带宽上的交通信息的增加的相关性。 由于服务器执行大部分所需的计算,移动导航设备所需的复杂性,存储量和处理能力被最小化。 可以使用事务计费模型来基于交通信息的使用或消耗来对驾驶员收费。 驱动程序在移动设备上选择目的地和路由选择,本地系统生成路由。 移动设备将计划的路由和首选项发送到服务器。 服务器使用实时交通流量和事件信息来确定计划路线的预计驾驶时间。 服务器还可以生成备用路由,每个替代路由的估计时间。 然后将计划和替代路线的业务和时间信息传送回移动设备。
    • 9. 发明申请
    • DYNAMICALLY CONFIGURED RENDERING OF DIGITAL MAPS
    • 动态配置数字图像渲染
    • WO2008042877A2
    • 2008-04-10
    • PCT/US2007080129
    • 2007-10-01
    • DECARTA INCHENDREY GEOFFREY R
    • HENDREY GEOFFREY R
    • G06F7/00
    • G06F17/30241
    • Digital map rendering using dynamically updatable map configuration files is enabled. A map designer creates a map configuration file that specifies customizable attributes of a rendered map and stores the configuration file in a data store, either on the same local network as the map server that will be rendering the map, or at a remote location. The map configuration file can be included on a web page, wiki page, blog, etc. When a client requests a rendered map from the map server, the request specifies the location of the map configuration file to be used in the rendering. The map server retrieves the map configuration file and renders the map in accordance with the settings in the configuration file. The map server returns the rendered map to the client. In such a manner, the developer can modify the map configuration file and immediately effect subsequently rendered maps.
    • 使用动态可更新地图配置文件的数字地图渲染功能被启用。 地图设计器创建一个地图配置文件,该文件指定渲染地图的可定制属性,并将配置文件存储在数据存储中,与数据存储区域在同一个本地网络上,与将呈现地图的地图服务器相对应,或位于远程位置。 地图配置文件可以包含在网页,wiki页面,博客等中。当客户端从地图服务器请求渲染的地图时,请求指定要在渲染中使用的地图配置文件的位置。 地图服务器检索地图配置文件,并根据配置文件中的设置呈现地图。 地图服务器将渲染的地图返回给客户机。 以这种方式,开发人员可以修改地图配置文件,并立即执行随后渲染的地图。