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公开(公告)号:US11151885B2
公开(公告)日:2021-10-19
申请号:US16427180
申请日:2019-05-30
发明人: Jeanette L. Blomberg , Eric K. Butler , Anca A. Chandra , Pawan R. Chowdhary , Thomas D. Griffin , Divyesh Jadav , Robert J. Moore , Hovey R. Strong, Jr.
IPC分类号: G08G5/00
摘要: One embodiment provides a method comprising maintaining a multi-dimensional data structure partitioned into cells utilizing a tree data structure (“tree”) comprising intervals for each dimension of a multi-dimensional space. To partition an interval for a node of the tree into multiple subintervals, multiple leaf nodes (“leaves”) are generated, each leaf descending from the node. To merge multiple intervals for multiple nodes of the tree, a parent node (“parent”) and multiple leaves descending from the parent are generated, the parent and the leaves are time constrained, and the leaves are scheduled for a merger. When transient data in cells included in a list that corresponds to a leaf scheduled for merger expires, each cell in the list is converted into a cell for inclusion in a different list corresponding to a parent of the leaf, each leaf of the parent removed, and the parent turned into a leaf.
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公开(公告)号:US10798527B2
公开(公告)日:2020-10-06
申请号:US16137316
申请日:2018-09-20
IPC分类号: H04W4/029 , H04W4/33 , H04L29/08 , H04B17/318
摘要: Cognitive, progressive methods, systems, and computer program products for guiding users throughout a deployment process involving deploying location sensors throughout an indoor environment based on real-time detection of signals from deployed location sensors and/or distances between location sensors are disclosed, according to various embodiments. The inventive concepts allow real-time sensing and adjustment to the nature of the environment, such as geometry, signal interference, etc. based on sensor readings detected by a user using a sensing device. Additional embodiments include generating a map of the environment based on training data including location sensor signal measurements, identifying information, and location information and static data regarding location sensors deployed throughout the environment. Connections are established between the static and training data, and region types within the environment determined and labeled based on the density of different types of connections and/or connection crossings. The labeled regions are output as a map.
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公开(公告)号:US20180354621A1
公开(公告)日:2018-12-13
申请号:US16048076
申请日:2018-07-27
发明人: Jeanette L. Blomberg , Eric K. Butler , Anca A. Chandra , Pawan R. Chowdhary , Thomas D. Griffin , Divyesh Jadav , Sunhwan Lee , Robert J. Moore , Hovey R. Strong, Jr.
CPC分类号: B64C39/024 , B64C2201/128 , B64C2201/201 , B64C2201/205 , B64C2201/206 , B64C2201/208 , B64F1/007 , B64F1/222 , B64F1/32 , B64F1/36 , B64F1/368
摘要: Embodiments of the present invention provide an apparatus comprising a body including a cavity for storing one or more packages, and a conveyor belt disposed above a top surface of the body. The belt is shaped to receive one or more packages, and the belt is controllable to rotate a package placed on the belt either from the top surface to the cavity for storage or from the cavity to the top surface for dispatch. A package comprises at least one of a drone and a payload transported by the drone. The apparatus further comprises a landing mechanism for stabilizing a drone landing on the apparatus.
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公开(公告)号:US20180178912A1
公开(公告)日:2018-06-28
申请号:US15905572
申请日:2018-02-26
发明人: Jeanette L. Blomberg , Eric K. Butler , Anca A. Chandra , Pawan R. Chowdhary , Thomas D. Griffin , Divyesh Jadav , Sunhwan Lee , Robert J. Moore , Hovey R. Strong, Jr.
CPC分类号: B64C39/024 , B64C2201/128 , B64C2201/201 , B64C2201/205 , B64C2201/206 , B64C2201/208 , B64F1/007 , B64F1/222 , B64F1/32 , B64F1/36 , B64F1/368
摘要: Embodiments of the present invention provide an apparatus comprising a body including a cavity for storing one or more packages, and a conveyor belt disposed above a top surface of the body. The belt is shaped to receive one or more packages, and the belt is controllable to rotate a package placed on the belt either from the top surface to the cavity for storage or from the cavity to the top surface for dispatch. A package comprises at least one of a drone and a payload transported by the drone. The apparatus further comprises a landing mechanism for stabilizing a drone landing on the apparatus.
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公开(公告)号:US20170259940A1
公开(公告)日:2017-09-14
申请号:US15064557
申请日:2016-03-08
发明人: Jeanette L. Blomberg , Eric K. Butler , Anca A. Chandra , Pawan R. Chowdhary , Thomas D. Griffin , Divyesh Jadav , Sunhwan Lee , Robert J. Moore , Hovey R. Strong, JR.
CPC分类号: B64C39/024 , B64C2201/128 , B64C2201/201 , B64C2201/205 , B64C2201/206 , B64C2201/208 , B64F1/007 , B64F1/222 , B64F1/32 , B64F1/36 , B64F1/368
摘要: Embodiments of the present invention provide an apparatus comprising a body including a cavity for storing one or more packages, and a conveyor belt disposed above a top surface of the body. The belt is shaped to receive one or more packages, and the belt is controllable to rotate a package placed on the belt either from the top surface to the cavity for storage or from the cavity to the top surface for dispatch. A package comprises at least one of a drone and a payload transported by the drone. The apparatus further comprises a landing mechanism for stabilizing a drone landing on the apparatus.
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公开(公告)号:US20150242302A1
公开(公告)日:2015-08-27
申请号:US14708753
申请日:2015-05-11
CPC分类号: G06F11/3616 , G06F11/008 , G06F11/1415 , G06F11/3003 , G06F11/3006 , G06F11/302 , G06F11/3051 , G06F11/3409 , G06F11/3414 , G06F11/3452 , G06F2201/81 , G06F2201/865 , G06F2201/88 , G06Q10/0635
摘要: An incompatible software level of an information technology infrastructure component is determined by comparing collected inventory information to a minimum recommended software level. If a knowledge base search finds that the incompatible software level is associated with a prior infrastructure outage event, an outage count score is determined for the incompatible software level by applying an outage rule to a historic count of outages caused by a similar incompatible software level, and combined with an average outage severity score assigned to the incompatible software level based on a level of severity of an actual historic failure of the component within a context of the infrastructure to generate a normalized historical affinity risk score. The normalized historical affinity risk score is provided for prioritizing the correction of the incompatible software level in the context of other normalized historical risk level scores of other determined incompatible software levels.
摘要翻译: 通过将收集的库存信息与最低推荐的软件级别进行比较来确定信息技术基础架构组件的不兼容的软件级别。 如果知识库搜索发现不兼容的软件级别与先前的基础设施中断事件相关联,则通过将中断规则应用于由类似的不兼容软件级引起的历史计数的中断来确定不兼容软件级别的中断计数分数, 并且基于分配给不兼容软件级别的平均中断严重性得分,基于在基础设施的上下文内的组件的实际历史性故障的严重性级别,以产生归一化的历史亲和度风险评分。 提供归一化的历史亲和度风险分数,用于在其他确定的不兼容软件级别的其他归一化历史风险级别分数的上下文中对不兼容软件级别的校正进行优先级排序。
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公开(公告)号:US20210341563A1
公开(公告)日:2021-11-04
申请号:US17305900
申请日:2021-07-16
摘要: According to one embodiment, a computer-implemented method for dynamic, cognitive hybrid positioning within an indoor environment includes: receiving fingerprinting training data corresponding to the indoor environment, trilateration data corresponding to the indoor environment, triangulation data corresponding to the indoor environment, or a combination of the fingerprinting training data, the trilateration data, and/or the triangulation data; estimating a layout of the indoor environment based at least in part on the fingerprinting training data; classifying at least some areas of the estimated layout according to one of a plurality of predetermined area types; and determining an optimum positioning technique to utilize for each area of the estimated layout, wherein the optimum positioning technique is determined based at least in part on the area type. Corresponding system and computer program product embodiments are also disclosed, as well as hybrid techniques for determining user position within an environment.
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公开(公告)号:US11150322B2
公开(公告)日:2021-10-19
申请号:US16137349
申请日:2018-09-20
摘要: According to one embodiment, a computer-implemented method for dynamic, cognitive hybrid positioning within an indoor environment includes: receiving fingerprinting training data corresponding to the indoor environment, trilateration data corresponding to the indoor environment, triangulation data corresponding to the indoor environment, or a combination of the fingerprinting training data, the trilateration data, and/or the triangulation data; estimating a layout of the indoor environment based at least in part on the fingerprinting training data; classifying at least some areas of the estimated layout according to one of a plurality of predetermined area types; and determining an optimum positioning technique to utilize for each area of the estimated layout, wherein the optimum positioning technique is determined based at least in part on the area type. Corresponding system and computer program product embodiments are also disclosed, as well as hybrid techniques for determining user position within an environment.
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公开(公告)号:US10540900B2
公开(公告)日:2020-01-21
申请号:US15799826
申请日:2017-10-31
发明人: Eric K. Butler , Anca A. Chandra , Pawan R. Chowdhary , Susanne M. Glissmann-Hochstein , Thomas D. Griffin , Divyesh Jadav , Sunhwan Lee , Hovey R. Strong, Jr.
IPC分类号: G08G5/00
摘要: One embodiment provides a method comprising receiving a flight plan request for a drone. The flight plan request comprises a drone identity, departure information, and arrival information. The method further comprises constructing a modified flight plan for the drone based on the flight plan request, wherein the modified flight plan represents an approved, congestion reducing, and executable flight plan for the drone, and the modified flight plan comprises a sequence of four-dimensional (4D) cells representing a planned flight path for the drone. For each 4D cell of the modified flight plan, the method further comprises attempting to place an exclusive lock on behalf of the drone on the 4D cell, and in response to a failure to place the exclusive lock on behalf of the drone on the 4D cell, rerouting the modified flight plan around the 4D cell to a random neighboring 4D cell.
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公开(公告)号:US20180301042A1
公开(公告)日:2018-10-18
申请号:US16012677
申请日:2018-06-19
发明人: Jeanette L. Blomberg , Eric K. Butler , Anca A. Chandra , Pawan R. Chowdhary , Thomas D. Griffin , Divyesh Jadav , Shun Jiang , Sunhwan Lee , Robert J. Moore , Hovey R. Strong, Jr. , Chung-hao Tan
摘要: One embodiment provides a method comprising maintaining a weather model based on predicted weather conditions for an air traffic control zone. A hash table comprising multiple hash entries is maintained. Each hash entry comprises a timestamped predicted weather condition for a cell in the zone. A flight plan request for a drone is received. The request comprises a planned flight path for the drone. For at least one cell on the planned flight path, same latitude or same longitude cells, whichever is most closely orthogonal to a direction of the planned flight path, are heuristically probed. Weather conditions for the at least one cell are estimated based on predicted weather conditions for the same latitude or same longitude cells. An executable flight plan is generated if the planned flight path is feasible based on the estimated weather conditions; otherwise, a report including an explanation of infeasibility is generated instead.
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