公开(公告)号：US12212457B2

公开(公告)日：2025-01-28

申请号：US18484843

申请日：2023-10-11

Applicant: Telefonaktiebolaget LM Ericsson (publ)

Inventor： Staffan Blau ,  Calin Curescu ,  Magnus Björkqvist ,  Arturo Martin de Nicolas

IPC: H04L41/0806 ,  H04L41/044 ,  H04L41/0895 ,  H04L41/122 ,  H04L41/40

Abstract: Embodiments relate to e.g. a method performed by an orchestration node for managing network interfaces. The orchestration node sends to a function manager, trunk-port specific information of a trunk port to enable the function manager to unambiguously orchestrate trunk ports.

公开(公告)号：US12120533B2

公开(公告)日：2024-10-15

申请号：US18349860

申请日：2023-07-10

Applicant: Oceus Networks, LLC

Inventor： Joseph L. Uelk ,  Chris Hill

IPC: H04W16/18 ,  H04L41/042 ,  H04L41/044 ,  H04L41/06 ,  H04L41/069 ,  H04L41/12 ,  H04L41/22 ,  H04L43/16 ,  H04W16/32 ,  H04W24/00 ,  H04W24/04 ,  H04W24/08 ,  H04W84/00 ,  H04W88/18

CPC classification number: H04W16/18 ,  H04L41/06 ,  H04L41/069 ,  H04L41/12 ,  H04L41/22 ,  H04L43/16 ,  H04W24/00 ,  H04L41/042 ,  H04L41/044 ,  H04W16/32 ,  H04W24/04 ,  H04W24/08 ,  H04W84/005 ,  H04W88/18

Abstract: Multiple mobile cellular network (MCN) communication systems can be networked together to form a network of MCN communication systems (NOM). Each MCN communication system within the NOM can operate as an independent cellular network to provide communications between user equipment within a covered area. The MCN can be managed by a network management control center (NMCC). The NMCC can be configured generate coverage maps of the NOM and NMC system coverage areas.

公开(公告)号：US12068923B2

公开(公告)日：2024-08-20

申请号：US17493945

申请日：2021-10-05

Applicant: Ciena Corporation

Inventor： Ankur Jain ,  Suvendu Kumar Barik ,  John Wade Cherrington

IPC: H04L41/12 ,  H04L41/042 ,  H04L41/044 ,  H04L41/0803

CPC classification number: H04L41/12 ,  H04L41/042 ,  H04L41/044 ,  H04L41/0803

Abstract: Systems and methods include creating a graph of a network having i) vertices representing ports, and ii) edges representing possible connections between vertices; receiving a request for one or more paths in the network; traversing the graph to determine the one or more paths; responsive to encountering a non-local constraint in the graph, adding a traversal state based thereon; and responsive to satisfying the non-local constraint in the graph, removing the traversal state based thereon.

公开(公告)号：US20240275678A1

公开(公告)日：2024-08-15

申请号：US18637929

申请日：2024-04-17

Applicant: Zenda, LLC

Inventor： Harold Hambrose ,  Scott Dombkowski ,  Max Stropkay

IPC: H04L41/0866 ,  H04L41/044 ,  H04L41/22

CPC classification number: H04L41/0866 ,  H04L41/044 ,  H04L41/22

Abstract: A network system that provides logic-based parameters for dynamic digital construction of hierarchical process flows. The hierarchical arrangement organizes a process flow into enterprise hierarchy structures. The system will automatically capture rules and objectives configured in a rules database and apply the rules and objectives across the process flows. When conflicts are detected based on the rules and the parameters of the process flows, the system provides a smart signal to notify a user of the nature of the conflict.

公开(公告)号：US12057990B2

公开(公告)日：2024-08-06

申请号：US18192846

申请日：2023-03-30

Applicant: HUAWEI TECHNOLOGIES CO., LTD.

Inventor： Jian Zhang ,  Xiaocheng Xing ,  Yulian Han

IPC: H04L41/044

CPC classification number: H04L41/044

Abstract: A network management method includes obtaining an analysis report of a first-hierarchy managed object from a management data analytics device, or a status report of at least one second-hierarchy managed object from a second-hierarchy network management device, and indicating, based on a performance indicator requirement of the first-hierarchy managed object and the analysis report or the status report, to the second-hierarchy network management device to manage the at least one second-hierarchy managed object. A first-hierarchy network management device is connected to the second-hierarchy network management device. The first-hierarchy network management device and the second-hierarchy network management device are configured to separately manage managed objects of different hierarchies. A managed object of the managed objects is a device, a network, or a service provided by the network. The first-hierarchy managed object includes the at least one second-hierarchy managed object or is associated with the at least one second-hierarchy managed object.

公开(公告)号：US20240241761A1

公开(公告)日：2024-07-18

申请号：US18618901

申请日：2024-03-27

Applicant: Intel Corporation

Inventor： Mohan J. Kumar ,  Murugasamy K. Nachimuthu ,  Krishna Bhuyan

IPC: G06F9/50 ,  G06F3/06 ,  G06F7/06 ,  G06F8/65 ,  G06F8/654 ,  G06F8/656 ,  G06F8/658 ,  G06F9/38 ,  G06F9/4401 ,  G06F9/455 ,  G06F9/48 ,  G06F9/54 ,  G06F11/07 ,  G06F11/30 ,  G06F11/34 ,  G06F12/02 ,  G06F12/06 ,  G06F13/16 ,  G06F16/174 ,  G06F21/57 ,  G06F21/62 ,  G06F21/73 ,  G06F21/76 ,  G06T1/20 ,  G06T1/60 ,  G06T9/00 ,  H01R13/453 ,  H01R13/631 ,  H03K19/173 ,  H03M7/30 ,  H03M7/40 ,  H03M7/42 ,  H04L9/08 ,  H04L12/28 ,  H04L12/46 ,  H04L41/044 ,  H04L41/0816 ,  H04L41/0853 ,  H04L41/12 ,  H04L43/04 ,  H04L43/06 ,  H04L43/08 ,  H04L43/0894 ,  H04L47/20 ,  H04L47/2441 ,  H04L49/104 ,  H04L61/5007 ,  H04L67/10 ,  H04L67/1014 ,  H04L67/63 ,  H04L67/75 ,  H05K7/14 ,  G06F11/14 ,  G06F15/80 ,  G06F16/28 ,  H04L9/40 ,  H04L41/046 ,  H04L41/0896 ,  H04L41/142 ,  H04L47/78 ,  H04Q11/00

CPC classification number: G06F9/505 ,  G06F3/0604 ,  G06F3/0608 ,  G06F3/0611 ,  G06F3/0613 ,  G06F3/0617 ,  G06F3/0641 ,  G06F3/0647 ,  G06F3/065 ,  G06F3/0653 ,  G06F3/067 ,  G06F7/06 ,  G06F8/65 ,  G06F8/654 ,  G06F8/656 ,  G06F8/658 ,  G06F9/3851 ,  G06F9/3891 ,  G06F9/4401 ,  G06F9/45533 ,  G06F9/4843 ,  G06F9/4881 ,  G06F9/5005 ,  G06F9/5038 ,  G06F9/5044 ,  G06F9/5083 ,  G06F9/544 ,  G06F11/0709 ,  G06F11/0751 ,  G06F11/079 ,  G06F11/3006 ,  G06F11/3034 ,  G06F11/3055 ,  G06F11/3079 ,  G06F11/3409 ,  G06F12/0284 ,  G06F12/0692 ,  G06F13/1652 ,  G06F16/1744 ,  G06F21/57 ,  G06F21/6218 ,  G06F21/73 ,  G06F21/76 ,  G06T1/20 ,  G06T1/60 ,  G06T9/005 ,  H01R13/453 ,  H01R13/4536 ,  H01R13/4538 ,  H01R13/631 ,  H03K19/1731 ,  H03M7/3084 ,  H03M7/40 ,  H03M7/42 ,  H03M7/60 ,  H03M7/6011 ,  H03M7/6017 ,  H03M7/6029 ,  H04L9/0822 ,  H04L12/2881 ,  H04L12/4633 ,  H04L41/044 ,  H04L41/0816 ,  H04L41/0853 ,  H04L41/12 ,  H04L43/04 ,  H04L43/06 ,  H04L43/08 ,  H04L43/0894 ,  H04L47/20 ,  H04L47/2441 ,  H04L49/104 ,  H04L61/5007 ,  H04L67/10 ,  H04L67/1014 ,  H04L67/63 ,  H04L67/75 ,  H05K7/1452 ,  H05K7/1487 ,  H05K7/1491 ,  G06F11/1453 ,  G06F12/023 ,  G06F15/80 ,  G06F16/285 ,  G06F2212/401 ,  G06F2212/402 ,  G06F2221/2107 ,  H04L41/046 ,  H04L41/0896 ,  H04L41/142 ,  H04L47/78 ,  H04L63/1425 ,  H04Q11/0005 ,  H05K7/1447 ,  H05K7/1492

Abstract: Technologies for composing a managed node with multiple processors on multiple compute sleds to cooperatively execute a workload include a memory, one or more processors connected to the memory, and an accelerator. The accelerator further includes a coherence logic unit that is configured to receive a node configuration request to execute a workload. The node configuration request identifies the compute sled and a second compute sled to be included in a managed node. The coherence logic unit is further configured to modify a portion of local working data associated with the workload on the compute sled in the memory with the one or more processors of the compute sled, determine coherence data indicative of the modification made by the one or more processors of the compute sled to the local working data in the memory, and send the coherence data to the second compute sled of the managed node.

公开(公告)号：US11977923B2

公开(公告)日：2024-05-07

申请号：US18103739

申请日：2023-01-31

Applicant: Intel Corporation

Inventor： Mohan J. Kumar ,  Murugasamy K. Nachimuthu ,  Krishna Bhuyan

IPC: G06F9/50 ,  G06F3/06 ,  G06F7/06 ,  G06F8/65 ,  G06F8/654 ,  G06F8/656 ,  G06F8/658 ,  G06F9/38 ,  G06F9/4401 ,  G06F9/455 ,  G06F9/48 ,  G06F9/54 ,  G06F11/07 ,  G06F11/30 ,  G06F11/34 ,  G06F12/02 ,  G06F12/06 ,  G06F13/16 ,  G06F16/174 ,  G06F21/57 ,  G06F21/62 ,  G06F21/73 ,  G06F21/76 ,  G06T1/20 ,  G06T1/60 ,  G06T9/00 ,  H01R13/453 ,  H01R13/631 ,  H03K19/173 ,  H03M7/30 ,  H03M7/40 ,  H03M7/42 ,  H04L9/08 ,  H04L12/28 ,  H04L12/46 ,  H04L41/044 ,  H04L41/0816 ,  H04L41/0853 ,  H04L41/12 ,  H04L43/04 ,  H04L43/06 ,  H04L43/08 ,  H04L43/0894 ,  H04L47/20 ,  H04L47/2441 ,  H04L49/104 ,  H04L61/5007 ,  H04L67/10 ,  H04L67/1014 ,  H04L67/63 ,  H04L67/75 ,  H05K7/14 ,  G06F11/14 ,  G06F15/80 ,  G06F16/28 ,  H04L9/40 ,  H04L41/046 ,  H04L41/0896 ,  H04L41/142 ,  H04L47/78 ,  H04Q11/00

CPC classification number: G06F9/505 ,  G06F3/0604 ,  G06F3/0608 ,  G06F3/0611 ,  G06F3/0613 ,  G06F3/0617 ,  G06F3/0641 ,  G06F3/0647 ,  G06F3/065 ,  G06F3/0653 ,  G06F3/067 ,  G06F7/06 ,  G06F8/65 ,  G06F8/654 ,  G06F8/656 ,  G06F8/658 ,  G06F9/3851 ,  G06F9/3891 ,  G06F9/4401 ,  G06F9/45533 ,  G06F9/4843 ,  G06F9/4881 ,  G06F9/5005 ,  G06F9/5038 ,  G06F9/5044 ,  G06F9/5083 ,  G06F9/544 ,  G06F11/0709 ,  G06F11/0751 ,  G06F11/079 ,  G06F11/3006 ,  G06F11/3034 ,  G06F11/3055 ,  G06F11/3079 ,  G06F11/3409 ,  G06F12/0284 ,  G06F12/0692 ,  G06F13/1652 ,  G06F16/1744 ,  G06F21/57 ,  G06F21/6218 ,  G06F21/73 ,  G06F21/76 ,  G06T1/20 ,  G06T1/60 ,  G06T9/005 ,  H01R13/453 ,  H01R13/4536 ,  H01R13/4538 ,  H01R13/631 ,  H03K19/1731 ,  H03M7/3084 ,  H03M7/40 ,  H03M7/42 ,  H03M7/60 ,  H03M7/6011 ,  H03M7/6017 ,  H03M7/6029 ,  H04L9/0822 ,  H04L12/2881 ,  H04L12/4633 ,  H04L41/044 ,  H04L41/0816 ,  H04L41/0853 ,  H04L41/12 ,  H04L43/04 ,  H04L43/06 ,  H04L43/08 ,  H04L43/0894 ,  H04L47/20 ,  H04L47/2441 ,  H04L49/104 ,  H04L61/5007 ,  H04L67/10 ,  H04L67/1014 ,  H04L67/63 ,  H04L67/75 ,  H05K7/1452 ,  H05K7/1487 ,  H05K7/1491 ,  G06F11/1453 ,  G06F12/023 ,  G06F15/80 ,  G06F16/285 ,  G06F2212/401 ,  G06F2212/402 ,  G06F2221/2107 ,  H04L41/046 ,  H04L41/0896 ,  H04L41/142 ,  H04L47/78 ,  H04L63/1425 ,  H04Q11/0005 ,  H05K7/1447 ,  H05K7/1492

Abstract: Technologies for composing a managed node with multiple processors on multiple compute sleds to cooperatively execute a workload include a memory, one or more processors connected to the memory, and an accelerator. The accelerator further includes a coherence logic unit that is configured to receive a node configuration request to execute a workload. The node configuration request identifies the compute sled and a second compute sled to be included in a managed node. The coherence logic unit is further configured to modify a portion of local working data associated with the workload on the compute sled in the memory with the one or more processors of the compute sled, determine coherence data indicative of the modification made by the one or more processors of the compute sled to the local working data in the memory, and send the coherence data to the second compute sled of the managed node.

公开(公告)号：US11777811B2

公开(公告)日：2023-10-03

申请号：US17168511

申请日：2021-02-05

Applicant: Ciena Corporation

Inventor： Robert Kevin Tomkins ,  Shelley A. Bhalla ,  Emil Janulewicz

IPC: H04L41/06 ,  H04L41/0631 ,  H04L43/062 ,  H04L43/16 ,  H04L43/04 ,  H04L41/044 ,  H04L41/0659 ,  H04L41/16

CPC classification number: H04L41/16 ,  H04L41/044 ,  H04L41/065 ,  H04L41/0631 ,  H04L41/0661 ,  H04L43/04 ,  H04L43/062 ,  H04L43/16

Abstract: Systems and methods include obtaining overlay telemetry data from a plurality of overlays, wherein each overlay is an application and there is a corresponding telemetry adaptor for each overlay; obtaining underlay telemetry data from one or more underlays, wherein each underlay includes physical infrastructure for supporting one or more of network, compute, and store functions for the plurality of overlays; analyzing the overlay telemetry data and the underlay telemetry data via a Key Performance Factor (KPF) model that correlates one or more of the plurality of overlays and the one or more underlays together; responsive to an anomaly or a threshold crossing based on the KPF model, performing a Root Cause Analysis (RCA) to identify a root cause of the anomaly or the threshold crossing; and mapping one or more actions with associated priorities to the root cause utilizing one or more remediation modules each associated with an overlay.

公开(公告)号：US11743740B2

公开(公告)日：2023-08-29

申请号：US17589412

申请日：2022-01-31

Applicant: Oceus Networks, LLC

Inventor： Joseph L. Uelk ,  Chris Hill

IPC: H04W16/18 ,  H04L41/22 ,  H04L41/06 ,  H04L41/12 ,  H04W24/00 ,  H04L41/069 ,  H04L43/16 ,  H04L41/042 ,  H04L41/044 ,  H04W16/32 ,  H04W24/04 ,  H04W24/08 ,  H04W88/18 ,  H04W84/00

CPC classification number: H04W16/18 ,  H04L41/06 ,  H04L41/069 ,  H04L41/12 ,  H04L41/22 ,  H04L43/16 ,  H04W24/00 ,  H04L41/042 ,  H04L41/044 ,  H04W16/32 ,  H04W24/04 ,  H04W24/08 ,  H04W84/005 ,  H04W88/18

Abstract: Multiple mobile cellular network (MCN) communication systems can be networked together to form a network of MCN communication systems (NOM). Each MCN communication system within the NOM can operate as an independent cellular network to provide communications between user equipment within a covered area. The MCN can be managed by a network management control center (NMCC). The NMCC can be configured generate coverage maps of the NOM and NMC system coverage areas.

公开(公告)号：US11736370B2

公开(公告)日：2023-08-22

申请号：US17630704

申请日：2019-08-01

Applicant: Siemens Aktiengesellschaft

Inventor： Li Wang ,  Hai Tao Zhang ,  Wen Jing Zhou ,  He Yu ,  Wei Sun

IPC: H04L43/02 ,  H04L67/10 ,  H04L41/044 ,  H04L67/12 ,  H04L67/104

CPC classification number: H04L43/02 ,  H04L41/044 ,  H04L67/10 ,  H04L67/1051 ,  H04L67/12

Abstract: A field data transmission method comprises: a cloud platform determining at least one first device operation index be obtained via data analysis. For each first device operation index, the cloud platform generates control information for the first device operation index. The control information is used to determine a primary edge controller from among at least one edge controller, wherein the primary edge controller is used to send first field data to the cloud platform, the first field data is used for data analysis by the cloud platform to obtain the first device operation index, and the first field data is obtained by the primary edge controller preprocessing second field data. The cloud platform sends each piece of control information to each edge controller, respectively. The cloud platform receives first field data from each primary edge controller, respectively.