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    • 2. 发明授权
    • Techniques for density mapping
    • 密度映射技术
    • US08564596B2
    • 2013-10-22
    • US12686232
    • 2010-01-12
    • John Antonio CarrinoDaniel Patrick Cervelli
    • John Antonio CarrinoDaniel Patrick Cervelli
    • G06T15/10
    • G06F17/30241G06T17/05G09B29/007
    • Techniques in a data processor for drawing a density surface on a map in a manner that more accurately accounts for projection distortion in the map. According to one embodiment, data is maintained that represents a geotagged event. A map plane is divided into a plurality of cells and an origin cell corresponding to the geotagged event is identified. Density values are allocated to cells surrounding the origin cell based on geodetic distances between geographic coordinates corresponding to surrounding cells and the geographic coordinate of the geotagged event. A density surface based on the cell allocations is then displayed on a map. By allocating density values to cells based on geodetic distances, the resulting density surface displayed on the map more accurately accounts for projection distortions in the area of the map on which density surface is displayed.
    • 数据处理器中用于在地图上绘制密度表面的技术,以更准确地说明地图中的投影失真。 根据一个实施例,维护表示地理标记事件的数据。 映射平面被分成多个单元,并且识别与地理标记事件相对应的原点单元。 基于对应于周围小区的地理坐标与地理标记事件的地理坐标之间的测距距离,将密度值分配给原始小区周围的小区。 然后将基于单元分配的密度表面显示在地图上。 通过基于大地测量距离向单元格分配密度值,在地图上显示的最终密度表格更准确地说明了在其上显示密度表面的地图区域中的投影失真。
    • 4. 发明申请
    • TECHNIQUES FOR DENSITY MAPPING
    • 密度映射技术
    • US20110170799A1
    • 2011-07-14
    • US12686232
    • 2010-01-12
    • John Antonio CarrinoDaniel Patrick Cervelli
    • John Antonio CarrinoDaniel Patrick Cervelli
    • G06K9/36G01C21/00
    • G06F17/30241G06T17/05G09B29/007
    • Techniques in a data processor for drawing a density surface on a map in a manner that more accurately accounts for projection distortion in the map. According to one embodiment, data is maintained that represents a geotagged event. A map plane is divided into a plurality of cells and an origin cell corresponding to the geotagged event is identified. Density values are allocated to cells surrounding the origin cell based on geodetic distances between geographic coordinates corresponding to surrounding cells and the geographic coordinate of the geotagged event. A density surface based on the cell allocations is then displayed on a map. By allocating density values to cells based on geodetic distances, the resulting density surface displayed on the map more accurately accounts for projection distortions in the area of the map on which density surface is displayed.
    • 数据处理器中用于在地图上绘制密度表面的技术,以更准确地说明地图中的投影失真。 根据一个实施例,维护表示地理标记事件的数据。 映射平面被分成多个单元,并且识别与地理标记事件相对应的原点单元。 基于对应于周围小区的地理坐标与地理标记事件的地理坐标之间的测距距离,将密度值分配给原始小区周围的小区。 然后将基于单元分配的密度表面显示在地图上。 通过基于大地测量距离向单元格分配密度值,在地图上显示的最终密度表格更准确地说明了在其上显示密度表面的地图区域中的投影失真。
    • 5. 发明授权
    • Multi-row transactions
    • 多行交易
    • US08504542B2
    • 2013-08-06
    • US13224500
    • 2011-09-02
    • Allen ChangJohn Antonio Carrino
    • Allen ChangJohn Antonio Carrino
    • G06F7/00G06F17/00
    • G06F17/30353G06F17/30171G06F17/30359G06F17/30371G06F17/30377
    • Techniques are provided for more efficient multi-row atomic, consistent, isolated and durable (ACID)-compliant transactions with snapshot isolation semantics (or just “multi-row transactions” for short). In some embodiments, the techniques are implemented in a computing system that includes a client application, a lightweight in-memory lease-based lock service, a multi-row transaction orchestrator, and an underlying database system. The transaction orchestrator implements a read protocol and a write protocol that provides support to the client application for carrying out multi-row transactions against the underlying database system irrespective of whether the database system itself supports multi-row transactions. The transaction orchestrator explicitly maintains transaction-level locks obtained from the lease-based lock service as part of the transaction protocol. Further, the transaction orchestrator is tolerant to lock service failure and unavailability without compromising ACID-compliance and snapshot isolation guarantees to the client application.
    • 提供技术用于具有快照隔离语义(或简称“多行事务”)的更有效的多行原子,一致,隔离和持久(ACID)事务。 在一些实施例中,这些技术在包括客户端应用程序,轻量级内存中基于租赁的锁定服务,多行事务管理器和底层数据库系统的计算系统中实现。 事务管理器实现读协议和写协议,为客户端应用程序提供支持,用于对底层数据库系统执行多行事务,而不管数据库系统本身是否支持多行事务。 交易协调器显式维护从基于租赁的锁定服务获取的事务级别锁作为事务协议的一部分。 此外,事务管理器容忍在不影响客户端应用程序的ACID兼容性和快照隔离保证的情况下锁定服务故障和不可用性。
    • 6. 发明授权
    • Geotagging structured data
    • 地理标记结构化数据
    • US09104695B1
    • 2015-08-11
    • US12840673
    • 2010-07-21
    • Daniel P. CervelliJohn Antonio Carrino
    • Daniel P. CervelliJohn Antonio Carrino
    • G06F7/00G06F17/30
    • G01C21/3664G06F17/30241G06F17/30244
    • A mapping system comprising processes for creating and displaying structured geotagged data using interactive digital geographic imagery is disclosed. In one embodiment, a mapping system comprises processes and logic for creating a geo tag for structured data. A user creates a geo tag for a property of an object by selecting a geographic location on an interactive digital map and selecting the property of the object from a dialog presented to the user in response to selecting the geographic location. In this way, the user can more quickly and easily create structured geotagged data than can be accomplished using typical approaches requiring the user to manually enter geographic coordinates to associate a geographic location with structured data.
    • 公开了一种包括使用交互式数字地理图像创建和显示结构化地理标记数据的过程的映射系统。 在一个实施例中,映射系统包括用于创建用于结构化数据的地理标签的过程和逻辑。 用户通过选择交互式数字地图上的地理位置并且响应于选择地理位置从呈现给用户的对话中选择对象的属性来为对象的属性创建地理标签。 以这种方式,用户可以更快速和容易地创建结构化地理标记数据,而不是使用需要用户手动输入地理坐标以将地理位置与结构化数据相关联的典型方法来实现。
    • 8. 发明申请
    • MULTI-ROW TRANSACTIONS
    • 多线交易
    • US20130060742A1
    • 2013-03-07
    • US13224500
    • 2011-09-02
    • Allen ChangJohn Antonio Carrino
    • Allen ChangJohn Antonio Carrino
    • G06F17/30
    • G06F17/30353G06F17/30171G06F17/30359G06F17/30371G06F17/30377
    • Techniques are provided for more efficient multi-row atomic, consistent, isolated and durable (ACID)-compliant transactions with snapshot isolation semantics (or just “multi-row transactions” for short). In some embodiments, the techniques are implemented in a computing system that includes a client application, a lightweight in-memory lease-based lock service, a multi-row transaction orchestrator, and an underlying database system. The transaction orchestrator implements a read protocol and a write protocol that provides support to the client application for carrying out multi-row transactions against the underlying database system irrespective of whether the database system itself supports multi-row transactions. The transaction orchestrator explicitly maintains transaction-level locks obtained from the lease-based lock service as part of the transaction protocol. Further, the transaction orchestrator is tolerant to lock service failure and unavailability without compromising ACID-compliance and snapshot isolation guarantees to the client application.
    • 提供技术用于具有快照隔离语义(或简称多行事务)的更高效多行原子,一致,隔离和持久(ACID)事务。 在一些实施例中,这些技术在包括客户端应用程序,轻量级内存中基于租赁的锁定服务,多行事务管理器和底层数据库系统的计算系统中实现。 事务管理器实现读协议和写协议,为客户端应用程序提供支持,用于对底层数据库系统执行多行事务,而不管数据库系统本身是否支持多行事务。 交易协调器显式维护从基于租赁的锁定服务获取的事务级别锁作为事务协议的一部分。 此外,事务管理器容忍在不影响客户端应用程序的ACID兼容性和快照隔离保证的情况下锁定服务故障和不可用性。
    • 9. 发明授权
    • Techniques for drawing geodetic polygons
    • 绘制大地测量多边形的技术
    • US08085268B2
    • 2011-12-27
    • US12582130
    • 2009-10-20
    • John Antonio CarrinoDaniel Patrick Cervelli
    • John Antonio CarrinoDaniel Patrick Cervelli
    • G06T15/10G06T15/00
    • G09B29/005
    • Techniques in a data processor for drawing on a map a geodetic polygon that straddles a splitting meridian include, in one embodiment, maintaining data that represents the geodetic polygon, the data comprising a set of geographic coordinates; transforming the set of geographic coordinates into a set of planar coordinates representing a planar polygon; splitting the planar polygon into a plurality of sub-figures; shifting at least one sub-figure of the plurality of sub-figures along a horizontal axis of two-dimensional plane to produce a shifted sub-figure; and causing the shifted sub-figure to be displayed on a map concurrently with at least one other sub-figure of the plurality of sub-figures that was not shifted.
    • 在一个实施例中,用于在地图上绘制跨越分割子午线的测地多边形的数据处理器中的技术包括维护表示大地测量多边形的数据,所述数据包括一组地理坐标; 将所述地理坐标集合变换为表示平面多边形的一组平面坐标; 将所述平面多边形分割成多个子图形; 沿着二维平面的水平轴移动所述多个子图中的至少一个子图,以产生偏移的子图; 并且使所移动的子图与地图上的多个子图中的至少另一个子图同时显示在地图上。