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公开(公告)号:US10915854B2
公开(公告)日:2021-02-09
申请号:US15154119
申请日:2016-05-13
发明人: Ajay A. Deshpande , Saurabh Gupta , Arun Hampapur , Alan J. King , Ali Koc , Yingjie Li , Xuan Liu , Christopher S. Milite , Brian L. Quanz , Chek Keong Tan , Dahai Xing , Xiaobo Zheng
IPC分类号: G06Q10/08 , G06Q30/02 , G06N20/00 , G06F16/14 , G06F16/182 , G06F16/17 , G06F16/23 , G06N5/00 , G06F3/0482 , G06F3/0484 , G06Q30/06 , H04L12/26 , G06N5/04 , G06Q10/06
摘要: A method and system for considering customized capacity utilization cost in node order fulfillment. The method includes receiving by a customized capacity utilization cost module an electronic record of a current order. The method includes retrieving data of a plurality of nodes and calculating an actual capacity utilization. The method includes automatically converting the actual capacity utilization of each node of the plurality of nodes and a predetermined maximum amount of cost to balance capacity utilization across the plurality of nodes into a customized capacity utilization cost, and transmitting the customized capacity utilization cost to an order fulfillment engine. The method includes receiving by the order fulfillment engine the current order, the processing cost data, and the customized capacity utilization cost. The method includes automatically calculating a fulfillment cost and identifying a node-order assignment with the lowest fulfillment cost.
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公开(公告)号:US10699230B2
公开(公告)日:2020-06-30
申请号:US15827599
申请日:2017-11-30
发明人: Ajay A. Deshpande , Saurabh Gupta , Arun Hampapur , Ali Koc , Yingjie Li , Xuan Liu , Christopher Milite , Brian L. Quanz , Chek Keong Tan , Dahai Xing , Xiaobo Zheng
IPC分类号: G06Q10/06
摘要: A method for enhancing on-premise order management systems (OMS) designed for fulfillment transactions with analytic and optimization technologies and services hosted in a shared multi-tenant software-as-a-service (SaaS) environment, such as a hybrid cloud. The computer-implemented method improves an order management system by leveraging a “punch-out” approach based on user exits to integrate with and augment currently implemented order management processing and transaction flows. Using the hybrid cloud, an entity may retain data such as its accumulated business, sales, test and other data, and then run analytical queries, which can scale to support distributed computing tasks. A framework adaptor/connector is leveraged by the OMS to provide a web client for communicating with and integrating to the SaaS analytics runtime environment, encapsulating all necessary connection pooling, security, and data marshaling complexity away from the order management system to meet strict service response time windows.
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公开(公告)号:US20170330218A1
公开(公告)日:2017-11-16
申请号:US15153088
申请日:2016-05-12
发明人: Ajay A. Deshpande , Arun Hampapur , Ali Koc , Yingjie Li , Xuan Liu , Brian L. Quanz , Dahai Xing
CPC分类号: G06Q30/0233 , G06Q30/0635
摘要: A method is provided for selecting eligible nodes and item assignments to those nodes for fulfillment based on satisfaction of a reward constraint and fulfillment cost. This method includes several steps, including determining by a computer processor of the fulfillment engine whether each of the plurality of assignments to the plurality of nodes satisfies a reward constraint based on a first customer loyalty reward level of the plurality of customer loyalty reward levels, identifying by a computer processor of the fulfillment engine one or more satisfactory assignments to nodes by identifying which of the one or more assignments is both associated with an order fulfillment cost that is less than the maximum fulfillment cost and satisfies the reward constraint and automatically generating by a computer processor of the fulfillment engine a node order assignment assigning the current order to the one or more satisfactory nodes.
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公开(公告)号:US20170330211A1
公开(公告)日:2017-11-16
申请号:US15154285
申请日:2016-05-13
发明人: Ajay Deshpande , Saurabh Gupta , Arun Hampapur , Alan King , Ali Koc , Yingjie Li , Xuan Liu , Christopher Milite , Brian L. Quanz , Chek Keong Tan , Dahai Xing , Xiaobo Zheng
CPC分类号: G06Q30/0206 , G06Q10/087 , G06Q30/0201
摘要: A method and computer readable medium for selecting order fulfillment nodes within an order fulfillment system. The method determines one or more product-node pairs of an omni-channel order fulfillment system responsive to a received customer order. There is received for each determined product-node pair, a first input including an associated price and a price markdown rate (r) for the product. There is further received for each product-node pair, input representing a current amount of supply availability of the product (w) for a period of time in an inventory; and a first threshold value and a second threshold values defining a supply availability window of the product. The method computes an inventory performance value based on the current w, the defined supply availability window, and one or more the p and r values; and selects a node for customer order fulfillment based on the computed cost of inventory performance value.
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公开(公告)号:US09744978B2
公开(公告)日:2017-08-29
申请号:US13906883
申请日:2013-05-31
发明人: Debarun Bhattacharjya , Arun Hampapur , Qing He , Hongfei Li , Dhaivat P. Parikh
CPC分类号: B61K9/08 , B61L23/042 , B61L27/0055 , B61L27/0088 , G06F17/5009 , G06Q10/06 , G06Q10/0635
摘要: Geo-defect repair modeling is provided. A method includes logically dividing a railroad network according to spatial and temporal dimensions with respect to historical data collected. The spatial dimensions include line segments of a specified length and the temporal dimensions include inspection run data for inspections performed for each of the line segments over a period of time. The method also includes creating a track deterioration model from the historical data, identifying geo-defects occurring at each inspection run from the track deterioration model, calculating a track deterioration condition from the track deterioration model by analyzing quantified changes in the geo-defects measured at each inspection run, and calculating a derailment risk based on track conditions determined from the inspection run data and the track deterioration condition. The method further includes determining a repair decision for each of the geo-defects based on the derailment risk and costs associated with previous comparable repairs.
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公开(公告)号:US09729834B2
公开(公告)日:2017-08-08
申请号:US15242699
申请日:2016-08-22
发明人: Michael J. Desimone , Arun Hampapur , Zuoxuan Lu , Carl P. Mercier , Christopher S. Milite , Stephen R. Russo , Chiao-Fe Shu , Chek K. Tan
CPC分类号: H04N7/18 , G06F17/30061 , G06F17/30277 , G06F17/30802 , G06F17/30825 , G06K9/00335 , G06K9/00711 , G06K9/00771 , G06K9/48 , G06K2009/00738 , G06T7/97 , G06T2207/30232 , G06T2207/30241
摘要: An invention for identifying a spatial location of an event within video image data is provided. Disclosed are embodiments for detecting an object and obtaining trajectory data of a trajectory of the object within the video image data from a sensor device; converting the trajectory data into a contour-coded compressed image; generating, based on the trajectory data, a searchable code that contains a set of locations traversed by the trajectory of the object within the video image; associating the searchable code with the contour-coded compressed image in a database; and returning, in response to a query having a selected location that corresponds a location of the set of locations in the searchable code, an image of the trajectory data corresponding to the object based on the contour-coded compressed image in the database.
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公开(公告)号:US20170206589A1
公开(公告)日:2017-07-20
申请号:US15017860
申请日:2016-02-08
发明人: Ajay A. Deshpande , Saurabh Gupta , Arun Hampapur , Alan J. King , Ali Koc , Pradyumnha G. Kowlani , Yingjie Li , Ding Ding Lin , Xuan Liu , Christopher Milite , Brian L. Quanz , Chek Keong Tan , Dahai Xing , Xiao Bo Zheng
CPC分类号: G06Q10/08345 , G06F3/0482 , G06F3/04847 , G06F17/30106 , G06F17/30144 , G06F17/30203 , G06F17/30215 , G06F17/30371 , G06N5/04 , G06N5/045 , G06N99/005 , G06Q10/06315 , G06Q10/0633 , G06Q10/06375 , G06Q10/083 , G06Q10/0833 , G06Q10/0838 , G06Q10/087 , G06Q10/0875 , G06Q30/0201 , G06Q30/0206 , G06Q30/0283 , G06Q30/0284 , G06Q30/0635 , H04L43/0882 , H04L43/16
摘要: A method, system and computer program product for managing an order in an Omni-channel order fulfillment system is disclosed. A stock-keeping unit (SKU) node level cost is predicted for a plurality of SKUs. The order is received containing one or more SKUs. A candidate list of fulfillment nodes is determined for fulfilling each of the one or more SKUs in the order using the predicted SKU node level cost and a fulfillment node-destination shipping distance. One or more fulfillment nodes are selected from the candidate list, and the order is fulfilled using the selected one or more fulfillment nodes.
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公开(公告)号:US20170206478A1
公开(公告)日:2017-07-20
申请号:US15087609
申请日:2016-03-31
发明人: Ajay A. Deshpande , Saurabh Gupta , Arun Hampapur , Ali Koc , Yingjie Li , Xuan Liu , Christopher S. Milite , Brian L. Quanz , Chek Keong Tan , Dahai Xing
摘要: A method and system determining node order fulfillment performance considering cancelation costs. The method includes receiving a current order for fulfillment node assignment and calculating a cancelation ratio of a node of a plurality of nodes by dividing orders canceled due to back order from the node by orders scheduled from the node collected from a pre-assigned time period. The method also includes determining a cancelation cost of the node based on the cancelation ratio of said node. The method then includes automatically generating a node order assignment based on the determined cancelation cost for fulfillment of a current order.
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公开(公告)号:US09595017B2
公开(公告)日:2017-03-14
申请号:US13626050
申请日:2012-09-25
发明人: Norman Haas , Arun Hampapur , Ying Li , Sharathchandra Pankanti
CPC分类号: G06Q10/08
摘要: A system and computer program product for tracking and monitoring assets along a transport route. The system includes at least one receiver for receiving asset identifications transmitted from the assets, where each asset transmits its own asset identification. The receiver also receives physical location coordinates of each of the assets. A plurality of cameras is dispersed along the transport route for transmitting camera images of the assets. The system further includes a server coupled to the receiver and cameras. The server is configured to recognize the assets in the camera images, to correlate the asset identification from the receiver with recognized assets in the camera images, and to correlate the physical location coordinates of each of the assets with physical location coordinates of the cameras. The system monitors the visual appearance of the assets, and keeps track of whether or not they have sustained physical damage.
摘要翻译: 一种用于沿着运输路线跟踪和监测资产的系统和计算机程序产品。 该系统包括至少一个用于从资产接收资产标识的接收器,其中每个资产发送自己的资产标识。 接收器还接收每个资产的物理位置坐标。 多个照相机沿着传输路线分散以传送资产的照相机图像。 该系统还包括耦合到接收器和相机的服务器。 服务器被配置为识别摄像机图像中的资产,将来自接收者的资产标识与摄像机图像中的识别资产相关联,并将每个资产的物理位置坐标与摄像机的物理位置坐标相关联。 系统监控资产的视觉外观,并跟踪他们是否持续的物理损坏。
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公开(公告)号:US09569298B2
公开(公告)日:2017-02-14
申请号:US15043532
申请日:2016-02-13
发明人: Arun Hampapur , Hongfei Li , Zhiguo Li , Yada Zhu
CPC分类号: G06F11/079 , G06F11/0709 , G06F11/0751 , G06F11/0787 , G06N7/005 , G06N99/005
摘要: A hierarchical multi-stage model of asset failure risk for complex heterogeneously distributed physical assets is built. The hierarchical multi-stage model considers heterogeneity of failure patterns for the assets. At least one data stream is analyzed to determine whether the hierarchical multi-stage model needs to be updated due to a change in the failure patterns. If the analysis indicates that the hierarchical multi-stage model needs to be updated, the hierarchical multi-stage model is dynamically updated to obtain an updated hierarchical multi-stage model.
摘要翻译: 建立了复杂异质分布实物资产资产失效风险的分层多阶段模型。 分层多阶段模型考察资产失效模式的异质性。 分析至少一个数据流以确定由于故障模式的变化而需要更新分级多级模型。 如果分析表明需要更新分级多阶段模型,则动态更新分级多阶段模型以获得更新的分级多阶段模型。
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