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公开(公告)号:US20220161429A1
公开(公告)日:2022-05-26
申请号:US17104901
申请日:2020-11-25
Applicant: Cisco Technology, Inc.
Inventor: Joel Obstfeld , Pete Rai , Guillaume Sauvage De Saint Marc
IPC: B25J9/16
Abstract: According to one or more embodiments of the disclosure, a first autonomous mobile robot (AMR) encounters a second AMR, while navigating a location. The first AMR receives, from the second AMR, a task list of the second AMR. The first AMR determines an adjustment to the task list of the second AMR, based in part on a comparison between the task list of the second AMR and a task list maintained by the first AMR. The first AMR sends, to the second AMR, the adjustment to the task list of the second AMR.
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公开(公告)号:US20160241996A1
公开(公告)日:2016-08-18
申请号:US14625406
申请日:2015-02-18
Applicant: Cisco Technology, Inc.
Inventor: Daniel Bourque , Joel Obstfeld , Ed Kern , Anoosh Hosseini
CPC classification number: H04W4/021 , G06Q10/06 , H04L29/06 , H04L41/12 , H04L41/145 , H04L43/045 , H04L43/10 , H04L67/12 , H04L67/18 , H04L67/22 , H04L69/08 , H04W64/00
Abstract: In an embodiment, presenting computer datacenter information comprises a server computer system that is coupled to a plurality of internetworking devices. The plurality of internetworking devices is configured to emit device location information. The server computer system receives the device location information from one or more internetworking devices, where the device location information is based on a particular proximity to a mobile computing device. The server computer system determines a geo-location and proximity of the mobile computing device relative to the one or more internetworking devices. The server computer system then selects device related information for a particular internetworking device, of the one or more internetworking devices, that has closest proximity to the determined geo-location of the mobile computing device. The server computer system then modifies a level of detail of the device related information based upon proximity of the mobile computing device and the particular internetworking device. The server computer system presents the device related information for the particular internetworking device, to the mobile computing device. In other embodiments, the invention encompasses a computer-readable medium configured to carry out the foregoing steps.
Abstract translation: 在一个实施例中,呈现计算机数据中心信息包括耦合到多个互联网络设备的服务器计算机系统。 多个互联网络设备被配置为发射设备位置信息。 服务器计算机系统从一个或多个互联网络设备接收设备位置信息,其中设备位置信息基于与移动计算设备的特定接近度。 服务器计算机系统确定移动计算设备相对于一个或多个互联网络设备的地理位置和邻近度。 服务器计算机系统然后选择与所确定的移动计算设备的地理位置最接近的一个或多个互联网络设备的特定互联网络设备的设备相关信息。 服务器计算机系统然后基于移动计算设备和特定互联网络设备的接近度修改设备相关信息的细节级别。 服务器计算机系统向移动计算设备呈现用于特定互联网络设备的设备相关信息。 在其他实施例中,本发明包括被配置为执行前述步骤的计算机可读介质。
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公开(公告)号:US20150026667A1
公开(公告)日:2015-01-22
申请号:US13946257
申请日:2013-07-19
Applicant: Cisco Technology, Inc.
Inventor: Richard Pruss , John E. McDowall , David John Beazley , Marc Joseph Faggion , Joel Obstfeld
CPC classification number: H04L43/50 , G06F9/45558 , G06F11/3664 , G06F11/3668 , G06F2009/45591 , H04L41/0806 , H04L41/12
Abstract: Presented herein are techniques to receive configuration instructions for elements of a network topology to be simulated and tested. In response to receiving and in accordance with the configuration instructions, a plurality of software images (for a plurality of virtual network elements of the network topology) are configured via an Application Programming Interface (API). The plurality of software images run in a cloud host. In response to receiving and in accordance with the configuration instructions, data is configured via the API, which represents one or more connections between the virtual network elements. A plurality of software images for the plurality of virtual network elements is then executed in accordance with the data representing the connections, for development and testing of the network topology.
Abstract translation: 这里介绍的是接收要模拟和测试的网络拓扑的元素的配置指令的技术。 响应于接收并且根据配置指令,多个软件映像(用于网络拓扑的多个虚拟网络元件)经由应用编程接口(API)来配置。 多个软件映像在云主机中运行。 响应于接收并根据配置指令,通过API来配置数据,该API表示虚拟网络元件之间的一个或多个连接。 然后根据表示连接的数据执行多个虚拟网络元件的多个软件映像,以用于开发和测试网络拓扑。
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公开(公告)号:US11829127B2
公开(公告)日:2023-11-28
申请号:US17104901
申请日:2020-11-25
Applicant: Cisco Technology, Inc.
Inventor: Joel Obstfeld , Pete Rai , Guillaume Sauvage De Saint Marc
IPC: G05B19/418 , B25J9/16 , G06Q10/0631 , B65G1/04 , G06Q10/08
CPC classification number: G05B19/41895 , G05B19/41865 , B25J9/163 , B25J9/1661 , B25J9/1682 , B65G1/0492 , G05D2201/0216 , G06Q10/063116 , G06Q10/08
Abstract: According to one or more embodiments of the disclosure, a first autonomous mobile robot (AMR) encounters a second AMR, while navigating a location. The first AMR receives, from the second AMR, a task list of the second AMR. The first AMR determines an adjustment to the task list of the second AMR, based in part on a comparison between the task list of the second AMR and a task list maintained by the first AMR. The first AMR sends, to the second AMR, the adjustment to the task list of the second AMR.
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公开(公告)号:US20220156682A1
公开(公告)日:2022-05-19
申请号:US16951132
申请日:2020-11-18
Applicant: Cisco Technology, Inc.
Inventor: Pete Rai , Joel Obstfeld
Abstract: According to one or more embodiments of the disclosure, a device obtains container data regarding a plurality of items to be shipped together in a container. The device generates, based on the container data, a damage prediction model that models physical relationships between the plurality of items within the container. The device receives sensor data associated with the container. The device predicts, using the damage prediction model, which of the plurality of items were damaged during transport of the container, based on the sensor data associated with the container.
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公开(公告)号:US09838294B2
公开(公告)日:2017-12-05
申请号:US14863761
申请日:2015-09-24
Applicant: Cisco Technology, Inc.
Inventor: Richard Pruss , John E. McDowall , David John Beazley , Marc Joseph Faggion , Joel Obstfeld
CPC classification number: H04L43/50 , G06F9/45558 , G06F11/3664 , G06F11/3668 , G06F2009/45591 , H04L41/0806 , H04L41/12
Abstract: Presented herein are techniques to receive configuration instructions for elements of a network topology to be simulated and tested. In response to receiving and in accordance with the configuration instructions, a plurality of software images (for a plurality of virtual network elements of the network topology) are configured via an Application Programming Interface (API). The plurality of software images run in a cloud host. In response to receiving and in accordance with the configuration instructions, data is configured via the API, which represents one or more connections between the virtual network elements. A plurality of software images for the plurality of virtual network elements is then executed in accordance with the data representing the connections, for development and testing of the network topology.
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公开(公告)号:US20160014012A1
公开(公告)日:2016-01-14
申请号:US14863761
申请日:2015-09-24
Applicant: Cisco Technology, Inc.
Inventor: Richard Pruss , John E. McDowall , David John Beazley , Marc Joseph Faggion , Joel Obstfeld
CPC classification number: H04L43/50 , G06F9/45558 , G06F11/3664 , G06F11/3668 , G06F2009/45591 , H04L41/0806 , H04L41/12
Abstract: Presented herein are techniques to receive configuration instructions for elements of a network topology to be simulated and tested. In response to receiving and in accordance with the configuration instructions, a plurality of software images (for a plurality of virtual network elements of the network topology) are configured via an Application Programming Interface (API). The plurality of software images run in a cloud host. In response to receiving and in accordance with the configuration instructions, data is configured via the API, which represents one or more connections between the virtual network elements. A plurality of software images for the plurality of virtual network elements is then executed in accordance with the data representing the connections, for development and testing of the network topology.
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公开(公告)号:US09918190B2
公开(公告)日:2018-03-13
申请号:US14625406
申请日:2015-02-18
Applicant: Cisco Technology, Inc.
Inventor: Daniel Bourque , Joel Obstfeld , Ed Kern , Anoosh Hosseini
CPC classification number: H04W4/021 , G06Q10/06 , H04L29/06 , H04L41/12 , H04L41/145 , H04L43/045 , H04L43/10 , H04L67/12 , H04L67/18 , H04L67/22 , H04L69/08 , H04W64/00
Abstract: In an embodiment, presenting computer datacenter information comprises a server computer system that is coupled to a plurality of internetworking devices. The plurality of internetworking devices is configured to emit device location information. The server computer system receives the device location information from one or more internetworking devices, where the device location information is based on a particular proximity to a mobile computing device. The server computer system determines a geo-location and proximity of the mobile computing device relative to the one or more internetworking devices. The server computer system then selects device related information for a particular internetworking device, of the one or more internetworking devices, that has closest proximity to the determined geo-location of the mobile computing device. The server computer system then modifies a level of detail of the device related information based upon proximity of the mobile computing device and the particular internetworking device. The server computer system presents the device related information for the particular internetworking device, to the mobile computing device. In other embodiments, the invention encompasses a computer-readable medium configured to carry out the foregoing steps.
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公开(公告)号:US09183121B2
公开(公告)日:2015-11-10
申请号:US13946257
申请日:2013-07-19
Applicant: Cisco Technology, Inc.
Inventor: Richard Pruss , John E. McDowall , David John Beazley , Marc Joseph Faggion , Joel Obstfeld
CPC classification number: H04L43/50 , G06F9/45558 , G06F11/3664 , G06F11/3668 , G06F2009/45591 , H04L41/0806 , H04L41/12
Abstract: Presented herein are techniques to receive configuration instructions for elements of a network topology to be simulated and tested. In response to receiving and in accordance with the configuration instructions, a plurality of software images (for a plurality of virtual network elements of the network topology) are configured via an Application Programming Interface (API). The plurality of software images run in a cloud host. In response to receiving and in accordance with the configuration instructions, data is configured via the API, which represents one or more connections between the virtual network elements. A plurality of software images for the plurality of virtual network elements is then executed in accordance with the data representing the connections, for development and testing of the network topology.
Abstract translation: 这里介绍的是接收要模拟和测试的网络拓扑的元素的配置指令的技术。 响应于接收并且根据配置指令,多个软件映像(用于网络拓扑的多个虚拟网络元件)经由应用编程接口(API)来配置。 多个软件映像在云主机中运行。 响应于接收并根据配置指令,通过API来配置数据,该API表示虚拟网络元件之间的一个或多个连接。 然后根据表示连接的数据执行用于多个虚拟网络元件的多个软件映像,以用于网络拓扑的开发和测试。
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