Self-optimizing networks
    81.
    发明授权

    公开(公告)号:US12009974B1

    公开(公告)日:2024-06-11

    申请号:US18144024

    申请日:2023-05-05

    CPC classification number: H04L41/0816 H04L41/0895 H04L41/16 H04L47/83

    Abstract: Methods, systems, and apparatus, including computer programs encoded on computer-storage media, for self-optimizing networks. In some implementations, a method for self-optimizing networks includes obtaining information indicating performance metrics of a first set of computing resources of a distributed system; generating information representing usage of a wireless network at a first point in time; providing the information to a machine learning model trained to predict network events at a time subsequent to the first point in time; determining that at least one particular network event predicted in the output is addressable by using a second set of computing resources of the distributed system; transmitting a signal configured to adjust the distributed computing system to deploy the second set of computing resources.

    MANAGING INTERFERENCE FOR WIRELESS DEVICES IN A NON-TERRESTRIAL NETWORK ENVIRONMENT

    公开(公告)号:US20240172261A1

    公开(公告)日:2024-05-23

    申请号:US17992706

    申请日:2022-11-22

    CPC classification number: H04W72/54

    Abstract: An example system and method may manage interference for wireless devices in a non-terrestrial network environment. An example system may determine spectrum blanking ranges for a wireless client device, where the spectrum blanking range restricts wireless frequencies in the spectrum blanking range from being assigned to wireless client devices by ground node. The system may determine a signal quality indicator value for a wireless client device, determine an assignable spectrum range for the wireless client device based on the signal quality indicator value and the spectrum blanking range(s), and assign a channel to the wireless client device using the assignable spectrum range.

    SYSTEMS AND METHODS FOR ZERO-TOUCH INTERWORKING OF NETWORK ORCHESTRATION WITH DATA PLATFORM AND ANALYTICS IN VIRTUALIZED 5G DEPLOYMENT

    公开(公告)号:US20240172048A1

    公开(公告)日:2024-05-23

    申请号:US18430314

    申请日:2024-02-01

    CPC classification number: H04W28/0958 H04W28/20 H04W48/10 H04W72/0453 H04W8/18

    Abstract: Systems, methods, and non-transitory, machine-readable media for zero-touch interworking of network control with data platform and analytics in virtualized deployment are disclosed. Responsive to a network service request for service location identifiers, data from data sources may be processed, and indicia of data characteristics may be analyzed to create or develop a data model. Configuration specifications may be created to instantiate a network slice and network services as a function of the data characteristics, conforming to quality of service parameters and service location identifiers. A log mapped to the request may be created and included in a template specifying a data observability framework and resources for the network slice and network services. The slice and services may be instantiated with the configuration specifications, with data services provided to user equipment of the external entity, and with the cellular network consequently providing data services to user equipment.

    INTELLIGENT SPECTRUM MANAGEMENT SYSTEM FOR PRIVATE NETWORKS

    公开(公告)号:US20240147309A1

    公开(公告)日:2024-05-02

    申请号:US17975330

    申请日:2022-10-27

    Abstract: A method of operating a communication system includes: obtaining location information indicating a location of a private network and initial performance requirement information indicating initial performance requirements of the private network; obtaining, based on the location information and the initial performance requirement information, initial spectrum information indicating one or more initial licensed frequency bands and one or more initial unlicensed frequency bands; transmitting the initial spectrum information to an external device; obtaining updated performance requirement information indicating updated performance requirements of the private network; obtaining, based on the updated performance requirement information, updated spectrum information indicating one or more updated licensed frequency bands and one or more updated unlicensed frequency bands; and transmitting the updated spectrum information to the external device. An access point device of the private network transmits messages to client devices using frequency bands indicated by the initial spectrum information and the updated spectrum information.

    ATOMIC DETERMINISTIC NEXT ACTION
    86.
    发明公开

    公开(公告)号:US20240143384A1

    公开(公告)日:2024-05-02

    申请号:US18341632

    申请日:2023-06-26

    CPC classification number: G06F9/463

    Abstract: Methods and apparatuses for providing a dynamically scalable ADNA Manager with decentralized atomic decision making are described. The decentralized atomic decision making may be performed using atomic deterministic next action (ADNA) task blocks that execute one or more workflow rules and then invoke one or more ADNAs within a pool of ADNAs. The ADNA Manager may identify a first ADNA task block, determine a set of input parameters for the first ADNA task block, detect that a first input parameter of the set of input parameters does not satisfy a qualification rule for the first ADNA task block, identify an exception ADNA task block in response to detection that the first input parameter does not satisfy the qualification rule, store breadcrumb information for the first ADNA task block within a persistence layer prior to the exception ADNA task block being invoked, and invoke the exception ADNA task block.

    AUTOMATIC TESTING OF EMERGENCY CALL LOCATION DETERMINATION

    公开(公告)号:US20240114478A1

    公开(公告)日:2024-04-04

    申请号:US18529661

    申请日:2023-12-05

    CPC classification number: H04W64/00 B64C39/024 G01S19/17 H04W4/90 B64U2101/00

    Abstract: A facility for testing location determination for emergency calls is described. Software on a mobile device collects a GPS location from the mobile device, and places an emergency call that encloses information usable by the emergency call processing system to calculate mobile device location. After the system performs this calculation, the call is detected to be a testing call and routed to a computer rather than an emergency dispatcher. The computer sends an SMS or other non-telephony message to the mobile device containing the calculated location. The mobile device stores the collected GPS location and the calculated location received in the non-telephony message together for comparison.

    ADAPTIVE RESOURCE ALLOCATION FOR A WIRELESS TELECOMMUNICATION NETWORK FRONTHAUL LINK

    公开(公告)号:US20240113820A1

    公开(公告)日:2024-04-04

    申请号:US18094277

    申请日:2023-01-06

    CPC classification number: H04L5/0044 H04W72/0453 H04W88/085

    Abstract: In response to detection that a capacity of the fronthaul link has been or will be exceeded, a software intelligence layer operating on a transport layer router that aggregates network traffic from the one or more radio units (RUs) causes a change in how in-phase and quadrature (IQ) data packets sent on the fronthaul link are handled to reduce use of the capacity of the fronthaul link. In another example embodiment, a software intelligence layer operating at an application layer of the wireless telecommunication network may perform one or more actions utilizing access to scheduler level information for the distributed units (DUs) to avoid the fronthaul link exceeding the capacity limit based on incoming IQ samples to a router that aggregates network traffic from one or more corresponding RUs.

    Controlling deployment of IoT devices over wireless networks with an adaptive gateway

    公开(公告)号:US11950213B2

    公开(公告)日:2024-04-02

    申请号:US17180361

    申请日:2021-02-19

    CPC classification number: H04W72/0446 H04W84/18 H04W88/16

    Abstract: Systems, machine-readable media, and methods to control deployment of IoT devices over wireless networks with an adaptive gateway are provided. A gateway device may broadcast on different channels in a first time slot of a time interval. The gateway device may receive a response from a sensor device in a second time slot of the time interval. The gateway device may further communicate to the sensor device in a third time slot of the time interval. The gateway device may receive transmissions from the sensor device in one or more subsequent instances of the fourth time slot of the time interval. Based at least in part on the one or more transmissions from the sensor device, the gateway device may transmit data to one or more computer systems via one or more networks.

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