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    • 2. 发明授权
    • System for associating inventory with handling equipment in shipping container yard inventory transactions
    • 将库存与货物装卸货物库存交易中的处理设备联系起来的系统
    • US08949046B2
    • 2015-02-03
    • US12500478
    • 2009-07-09
    • Han-Shue TanJihua HuangKe-Ren ChuangFanping BuGregory Keith Warf
    • Han-Shue TanJihua HuangKe-Ren ChuangFanping BuGregory Keith Warf
    • G01F17/00G06Q10/08G06Q50/28G06F11/30
    • G06Q10/087B66C13/46G06Q10/08G06Q50/28
    • A system is provided to associate containers with handling equipment (HE) in a container storage facility. In the system an operation detector, such as a twistlock sensor that indicates when a container is picked up or dropped off, is installed on a first HE which is a piece of container handling equipment (CHE) that can lift the container. An event detector, such as a vibration sensor or distance measuring radar, is further installed on a second HE that is a tractor with an attached chassis for receiving and transporting a container. The event detector indicates when a container-operation-related event, such as a container pick up or drop off, occurred on the tractor chassis. The two detectors (operation and event) are used by a processor to associate the container with either the CHE or the tractor. The operation and event detectors can further be used in conjunction with position sensors such as a GPS sensor to accurately determine the position of the tractor and the CHE in a container yard. When the position sensors degrade in performance, an additional motion detector such as a speed sensor can be used to determine the tractor's distance from the CHE to locate an appropriate tractor involved in the operation.
    • 提供一种将容器与容器储存设备中的处理设备(HE)相关联的系统。 在系统中,操作检测器(例如指示容器被拾取或脱落的扭锁传感器)被安装在第一HE上,第一HE是可提起容器的一个容器处理设备(CHE)。 诸如振动传感器或距离测量雷达的事件检测器还被安装在第二HE上,第二HE是具有用于接收和运输容器的附接底盘的拖拉机。 事件检测器指示在牵引车底盘上发生容器操作相关事件(例如容器拾起或掉落)的时间。 处理器使用两个检测器(操作和事件)将容器与CHE或拖拉机相关联。 操作和事件检测器可以进一步与诸如GPS传感器的位置传感器一起使用,以准确地确定拖拉机和CHE在集装箱堆场中的位置。 当位置传感器性能下降时,可以使用诸如速度传感器的附加运动检测器来确定拖拉机与CHE的距离,以定位涉及操作的适当的牵引车。
    • 3. 发明授权
    • Automatic error detection for inventory tracking and management systems used at a shipping container yard
    • 用于货运集装箱堆场的库存跟踪和管理系统的自动检错
    • US08630443B2
    • 2014-01-14
    • US12552109
    • 2009-09-01
    • Han-Shue TanKe-Ren ChuangJihua HuangGregory Keith Warf
    • Han-Shue TanKe-Ren ChuangJihua HuangGregory Keith Warf
    • G06K9/00
    • G06Q10/08G06Q50/28
    • A method automatically detects errors in a container inventory database associated with a container inventory tracking system of a container storage facility. A processor in the inventory tracking system performs a method that: obtains a first data record, identifies an event (e.g., pickup, drop-off, or movement) associated with the first record, provides a list of error types based on the identified event, and determines whether a data error has occurred through a checking process. In each of the checking steps, the processor selects an error type from the list of error types, determines a search criterion based on the selected error type and the first data record, queries the database using the search criterion, compares query results with the first data record to detect data conflicts between them, and upon the detection of the data conflicts, reports that a data error of the selected error type has been detected.
    • 一种方法自动检测与容器存储设施的容器库存跟踪系统相关联的容器库存数据库中的错误。 库存跟踪系统中的处理器执行以下方法:获得第一数据记录,识别与第一记录相关联的事件(例如,拾取,丢弃或移动),基于所识别的事件提供错误类型的列表 ,并通过检查处理确定是否发生了数据错误。 在每个检查步骤中,处理器从错误类型列表中选择错误类型,基于所选择的错误类型和第一数据记录确定搜索条件,使用搜索条件查询数据库,将查询结果与第一个 数据记录以检测它们之间的数据冲突,并且在检测到数据冲突时,报告已经检测到所选错误类型的数据错误。
    • 4. 发明申请
    • AUTOMATIC ERROR DETECTION FOR INVENTORY TRACKING AND MANAGEMENT SYSTEMS USED AT A SHIPPING CONTAINER YARD
    • 在运输集装箱堆场使用的库存跟踪和管理系统的自动检错
    • US20110052001A1
    • 2011-03-03
    • US12552109
    • 2009-09-01
    • Han-Shue TanKe-Ren ChuangJihua HuangGregory Keith Warf
    • Han-Shue TanKe-Ren ChuangJihua HuangGregory Keith Warf
    • G06K9/00G06F11/00G06F19/00G06F17/30G06F3/048G06F17/00G06F7/00
    • G06Q10/08G06Q50/28
    • A method automatically detects errors in a container inventory database associated with a container inventory tracking system of a container storage facility. A processor in the inventory tracking system performs a method that: obtains a first data record, identifies an event (e.g., pickup, drop-off, or movement) associated with the first record, provides a list of error types based on the identified event, and determines whether a data error has occurred through a checking process. In each of the checking steps, the processor selects an error type from the list of error types, determines a search criterion based on the selected error type and the first data record, queries the database using the search criterion, compares query results with the first data record to detect data conflicts between them, and upon the detection of the data conflicts, reports that a data error of the selected error type has been detected.
    • 一种方法自动检测与容器存储设施的容器库存跟踪系统相关联的容器库存数据库中的错误。 库存跟踪系统中的处理器执行以下方法:获得第一数据记录,识别与第一记录相关联的事件(例如,拾取,丢弃或移动),基于所识别的事件提供错误类型的列表 ,并通过检查处理确定是否发生了数据错误。 在每个检查步骤中,处理器从错误类型列表中选择错误类型,基于所选择的错误类型和第一数据记录确定搜索条件,使用搜索条件查询数据库,将查询结果与第一个 数据记录以检测它们之间的数据冲突,并且在检测到数据冲突时,报告已经检测到所选错误类型的数据错误。
    • 6. 发明授权
    • Automated asset positioning for location and inventory tracking using multiple positioning techniques
    • 使用多种定位技术进行位置和库存跟踪的自动资产定位
    • US07646336B2
    • 2010-01-12
    • US11691383
    • 2007-03-26
    • Han-Shue TanGregory Keith WarfLarry Henry
    • Han-Shue TanGregory Keith WarfLarry Henry
    • G01S5/14G01S3/02
    • G01S19/49G06Q10/08G06Q10/087
    • A system and method is provided for tracking and maintaining a highly accurate inventory of shipping containers that are stored within container storage facilities. The invention includes using multiple complementary real-time and post-processing positioning techniques associated with various positioning sensors that are associated with inventory pieces or equipment. Examples of such positioning techniques are DGPS, GPS with RTK, DGPS loosely-coupled with INS, DGPS tightly-coupled with INS, and DGPS deeply-coupled with INS. Data correction and fusion techniques are applied to these positioning stages to re-compute a calibrated position with an improved accuracy. An additional trajectory can be iteratively determined using the fusing technique until the position data becomes statistically trustworthy. Further, combinations of multiple real-time positioning techniques combined with past position error correction algorithms provide a high accuracy needed for inventory tracking.
    • 提供了一种系统和方法,用于跟踪和维护存储在集装箱存储设施内的运输集装箱的高度准确的库存。 本发明包括使用与与库存件或设备相关联的各种定位传感器相关联的多个互补的实时和后处理定位技术。 这种定位技术的例子有DGPS,带RTK的GPS,与INS松耦合的DGPS,与INS紧密耦合的DGPS,以及与INS紧密耦合的DGPS。 将数据校正和融合技术应用于这些定位阶段,以提高准确度来重新计算校准位置。 可以使用融合技术迭代地确定附加轨迹,直到位置数据变得统计可信。 此外,与过去的位置误差校正算法组合的多个实时定位技术的组合提供了库存跟踪所需的高精度。
    • 7. 发明申请
    • AUTOMATED ASSET POSITIONING FOR LOCATION AND INVENTORY TRACKING USING MULTIPLE POSITIONING TECHNIQUES
    • 使用多种定位技术的位置和库存跟踪的自动资产定位
    • US20070222674A1
    • 2007-09-27
    • US11691383
    • 2007-03-26
    • Han-Shue TanGregory Keith WarfLarry Henry
    • Han-Shue TanGregory Keith WarfLarry Henry
    • G01S5/14G01S3/02
    • G01S19/49G06Q10/08G06Q10/087
    • A system and method is provided for tracking and maintaining a highly accurate inventory of shipping containers that are stored within container storage facilities. The invention includes using multiple complementary real-time and post-processing positioning techniques associated with various positioning sensors that are associated with inventory pieces or equipment. Examples of such positioning techniques are DGPS, GPS with RTK, DGPS loosely-coupled with INS, DGPS tightly-coupled with INS, and DGPS deeply-coupled with INS. Data correction and fusion techniques are applied to these positioning stages to re-compute a calibrated position with an improved accuracy. An additional trajectory can be iteratively determined using the fusing technique until the position data becomes statistically trustworthy. Further, combinations of multiple real-time positioning techniques combined with past position error correction algorithms provide a high accuracy needed for inventory tracking.
    • 提供了一种系统和方法,用于跟踪和维护存储在集装箱存储设施内的运输集装箱的高度准确的库存。 本发明包括使用与与库存件或设备相关联的各种定位传感器相关联的多个互补的实时和后处理定位技术。 这种定位技术的例子有DGPS,带有RTK的GPS,与INS松耦合的DGPS,与INS紧密耦合的DGPS,以及与INS紧密耦合的DGPS。 将数据校正和融合技术应用于这些定位阶段,以提高准确度来重新计算校准位置。 可以使用融合技术迭代地确定附加轨迹,直到位置数据变得统计可信。 此外,与过去的位置误差校正算法组合的多个实时定位技术的组合提供了库存跟踪所需的高精度。
    • 8. 发明申请
    • AUTOMATIC ERROR CORRECTION FOR INVENTORY TRACKING AND MANAGEMENT SYSTEMS USED AT A SHIPPING CONTAINER YARD
    • 用于运输集装箱仓库的库存跟踪和管理系统的自动错误校正
    • US20110055172A1
    • 2011-03-03
    • US12649149
    • 2009-12-29
    • Han-Shue TanKe-Ren ChuangJihua HuangGregory Keith Warf
    • Han-Shue TanKe-Ren ChuangJihua HuangGregory Keith Warf
    • G06F17/30
    • G06Q10/08G06F16/24568G06F16/29
    • A method automatically detects and corrects errors in a container inventory database associated with a container inventory tracking system of a container storage facility. A processor in the inventory tracking system performs a method to detect errors; this method of error detection obtains a first data record, identifies an event (e.g., pickup or drop-off of a container, or movement of handing equipment) associated with the first record, provides a list of error types based on the identified event, and determines whether a data error has occurred through a checking process. To correct the errors, this method further sets search criteria based on the error detection results, queries the inventory tracking database using the set criteria, determines error candidates based on the query results, evaluates the error candidates to identify a match or matches among the error candidates, and corrects the error(s) by modifying the error detection results together with the identified match or matches.
    • 一种方法会自动检测和纠正与容器存储设施的容器库存跟踪系统相关联的容器库存数据库中的错误。 库存跟踪系统中的处理器执行检测错误的方法; 这种错误检测方法获得第一数据记录,识别与第一记录相关联的事件(例如,容器的拾取或丢弃或移动设备的移动),基于所识别的事件提供错误类型的列表, 并通过检查处理确定是否发生了数据错误。 为了纠正错误,该方法进一步根据错误检测结果设置搜索条件,使用设置标准查询库存跟踪数据库,根据查询结果确定错误候选,评估错误候选以识别匹配或匹配错误 候选人,并通过修改错误检测结果以及识别的匹配或匹配来更正错误。
    • 9. 发明申请
    • SYSTEM FOR ASSOCIATING INVENTORY WITH HANDLING EQUIPMENT IN SHIPPING CONTAINER YARD INVENTORY TRANSACTIONS
    • 运输集装箱仓库交易中与处理设备相关的库存系统
    • US20110010005A1
    • 2011-01-13
    • US12500478
    • 2009-07-09
    • Han-Shue TanJihua HuangKe-Ren ChuangFanping BuGregory Keith Warf
    • Han-Shue TanJihua HuangKe-Ren ChuangFanping BuGregory Keith Warf
    • G05B19/00G06F7/00G06F19/00G06F15/00
    • G06Q10/087B66C13/46G06Q10/08G06Q50/28
    • A system is provided to associate containers with handling equipment (HE) in a container storage facility. In the system an operation detector, such as a twistlock sensor that indicates when a container is picked up or dropped off, is installed on a first HE which is a piece of container handling equipment (CHE) that can lift the container. An event detector, such as a vibration sensor or distance measuring radar, is further installed on a second HE that is a tractor with an attached chassis for receiving and transporting a container. The event detector indicates when a container-operation-related event, such as a container pick up or drop off, occurred on the tractor chassis. The two detectors (operation and event) are used by a processor to associate the container with either the CHE or the tractor. The operation and event detectors can further be used in conjunction with position sensors such as a GPS sensor to accurately determine the position of the tractor and the CHE in a container yard. When the position sensors degrade in performance, an additional motion detector such as a speed sensor can be used to determine the tractor's distance from the CHE to locate an appropriate tractor involved in the operation.
    • 提供一种将容器与容器储存设备中的处理设备(HE)相关联的系统。 在系统中,操作检测器(例如指示容器被拾取或脱落的扭锁传感器)被安装在第一HE上,第一HE是可提起容器的一个容器处理设备(CHE)。 诸如振动传感器或距离测量雷达的事件检测器还被安装在第二HE上,第二HE是具有用于接收和运输容器的附接底盘的拖拉机。 事件检测器指示在牵引车底盘上发生容器操作相关事件(例如容器拾起或掉落)的时间。 处理器使用两个检测器(操作和事件)将容器与CHE或拖拉机相关联。 操作和事件检测器可以进一步与诸如GPS传感器的位置传感器一起使用,以准确地确定拖拉机和CHE在集装箱堆场中的位置。 当位置传感器性能下降时,可以使用诸如速度传感器的附加运动检测器来确定拖拉机与CHE的距离,以定位涉及操作的适当的牵引车。