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    • 5. 发明申请
    • Method for resource management in a supply chain
    • 供应链资源管理方法
    • US20070174148A1
    • 2007-07-26
    • US11323516
    • 2005-12-30
    • Francesca SchulerThomas S. BabinJulius S. GyorfiSwee M. MokAndreas SchallerMansour Toloo
    • Francesca SchulerThomas S. BabinJulius S. GyorfiSwee M. MokAndreas SchallerMansour Toloo
    • G06Q10/00
    • G06Q10/087
    • A method for resource management in a supply chain is provided. The method is used by a pallet device (106) that can be associated with a pallet (104) in the supply chain. The pallet is associated with one or more resources. Further, the supply chain includes a decentralized control system (100) that has at least one system server, a plurality of pallets, a plurality of pallet devices, and a plurality of resources. The method includes detecting (302) an event and acquiring (304) status information of at least one of the plurality of pallets in response to the event. Further, the method includes determining (306) a reporting condition of at least one of the plurality of resources, based on the status information. The method includes reporting (308) the status information to one of at least one system server and at least one of the plurality of pallet devices, based on a positive reporting condition.
    • 提供了供应链中资源管理的方法。 该方法由可与供应链中的托盘(104)相关联的托盘装置(106)使用。 托盘与一个或多个资源相关联。 此外,供应链包括具有至少一个系统服务器,多个托盘,多个托盘装置和多个资源的分散式控制系统(100)。 该方法包括响应于事件检测(302)事件并获取(304)至少一个托盘的状态信息。 此外,该方法包括基于状态信息确定(306)多个资源中的至少一个的报告条件。 该方法包括基于正的报告条件将状态信息报告(308)到至少一个系统服务器中的一个和多个托盘装置中的至少一个。
    • 6. 发明申请
    • MAPPING LOCATIONS BASED ON RECEIVED SIGNAL STRENGTHS
    • 基于接收信号强度的映射位置
    • US20110260922A1
    • 2011-10-27
    • US12764476
    • 2010-04-21
    • Chuntao ZhangThomas S. BabinTimothy J. CollinsJulius S. GyorfiTom MathewSwee M. Mok
    • Chuntao ZhangThomas S. BabinTimothy J. CollinsJulius S. GyorfiTom MathewSwee M. Mok
    • G01S3/02
    • G01S5/0252G01S11/06H04W64/00
    • Disclosed is a system for updating an RSSI-based map. A scanning devices notes which tags are seen during a scan and measures a “proxy distance” from the scanning device to each tag. When the scan is initiated, the scanning device measures the RSSIs from the local WAPs. The current location of the scanning device is determined by triangulating from the proxy distances of the scanned tags. That location is then correlated with the contemporaneously measured RSSIs. The correlation is used to update the RSSI-based map. In some embodiments, it is not the scanning device that measures the RSSIs. Instead, the WAPs measure the RSSIs from the scanning device whenever the scanning device transmits the results of a scan. In some embodiments, the operator of the mapped environment places scannable tags at fixed locations. Scans of these fixed-location tags are especially useful when determining the current location of the scanning device.
    • 公开了一种用于更新基于RSSI的地图的系统。 扫描设备注意到扫描期间看到哪些标签,并测量从扫描设备到每个标签的“代理距离”。 当扫描开始时,扫描设备测量来自本地WAP的RSSI。 扫描装置的当前位置通过从扫描标签的代理距离三角测量来确定。 然后该位置与同时测量的RSSI相关。 相关性用于更新基于RSSI的地图。 在一些实施例中,不是测量RSSI的扫描设备。 相反,每当扫描设备发送扫描结果时,WAP就会从扫描设备测量RSSI。 在一些实施例中,映射环境的操作者将可扫描标签放置在固定位置。 当确定扫描设备的当前位置时,这些固定位置标签的扫描特别有用。