A method of providing a communication service to a radio frequency identity (RFID) tag reader. The method comprises allocating network slice resources of a telecommunication network for the reader by a controller by sending a first message to a network slice selection function (NSSF) in the network, wherein the controller is an application that executes on a computer system in the network; providing a communication channel between the reader and an enterprise inventory control system via the allocated network slice resources; monitoring messages in the communication channel by the controller; analyzing the messages by the controller; determining by the controller a network slice resource need of the communication channel that differs from a current allocation of network slice resources based on the analyzing; and adapting the communication channel by the controller by sending messages to the NSSF to allocate different network slice resources associated with the communication channel.
H04W 48/18 - Sélection d'un réseau ou d'un service de télécommunications
H04W 4/80 - Services utilisant la communication de courte portée, p. ex. la communication en champ proche, l'identification par radiofréquence ou la communication à faible consommation d’énergie
Various embodiments comprise a wireless access node to group component carriers for carrier aggregation. In some examples, the wireless access node comprises node circuitry and radio circuitry. The node circuitry selects primary and secondary cell candidates based on carrier aggregation capability, transmit power, and radio frequency measurements for a wireless user device. The node circuitry filters the cell candidates based on the bandwidth, loading, and data buffer status for the cell candidates. The node circuitry selects a primary cell and at least one secondary cell from the filtered cell candidates based on an operator defined rule, interference, and cell Key Performance Indicators (KPIs) for the selected primary cell and the at least one selected secondary cell. The radio circuitry wirelessly indicates the selected primary cell and the selected secondary cell(s) to the wireless user device to use for carrier aggregation.
A quality of experience QoE server associated with a home wireless communication service network. The QoE server comprises a QoE application that, when executed by the QoE server, receives an indication of a location of a user equipment (UE), wherein the UE is subscribed to receive wireless communication service with the home network and that the UE is in a roaming operation mode, searches a geo-location database using the indication of the location of the UE, based on searching the geo-location database, determines that the home network or a preferred network is located proximate to the indication of the location of the UE, and sends a request to the UE to perform a refresh operation, wherein the UE initiates a scan of cell site frequencies, detects a cell site associated with the home network or the preferred network, and attaches wirelessly to the cell site.
H04W 36/30 - La resélection étant déclenchée par des paramètres spécifiques par des données de mesure ou d’estimation de la qualité des liaisons
H04W 36/32 - La resélection étant déclenchée par des paramètres spécifiques par des données de localisation ou de mobilité, p. ex. des données de vitesse
4.
Systems and Methods for Enabling Secured Communications Between Non-Quantum Equipped Devices and Quantum Equipped Devices
A quantum communication system for enabling secured communications between non-quantum equipped and quantum equipped devices comprises a non-quantum equipped network device configured to transmit a connection request, a quantum authentication server configured to verify a connection between the non-quantum equipped network device and a quantum network gateway, the quantum network gateway enabling communications between the non-quantum equipped network device and the quantum authentication server. The quantum network gateway includes at least one quantum processor, and a quantum application, which when executed by the quantum processor, cause the quantum application to receive, from the non-quantum equipped network device, a request to communicate with an application server, generate a quantum token, transmit the quantum token to the quantum authentication server for authentication of the communication request, and set up, a communication tunnel between the quantum network gateway and the application server for communicating on behalf of the non-quantum equipped network device.
In some examples, a method includes obtaining, by a file handling application, a file; automatically providing, by the file handling application, a notification of the upload of the file; automatically determining, by the file handling application, a rule set for applying to the file; handling, automatically by the file handling application and without human intervention, the file based on the rule set; interfacing, by the file handling application, with a project management application to automatically update a status of a project associated with the file based on actions taken by the file handling application; responsive to each interaction by the file handling application with the file, automatically logging, in a searchable database by the file handling application, each action taken by the file handling application with respect to the file to create an audit history for the file.
Systems and methods for dynamic utilization-based network slice allocation management for user equipment applications are provided. In some embodiments, a slice estimation engine may be implemented to evaluate the network traffic and other application activity data associated with an application running on the UE to determine an operating mode of the application. The slice estimation engine may trigger the UE to request an adjustment to its network slice allocation configurations based on the evaluation. To determine whether or not an application should be reconfigured for a new network slice, the slice estimation engine may evaluate processes that are running on the UE. The slice estimation engine may comprise one or more slice assessment algorithms that determine which slice from a set of available network slices would optimally serve the application based on the network traffic characteristics associated with the application's current mode of operation.
A wireless communication device. The wireless communication device comprises a radio transceiver; a first processor; a first non-transitory memory; and a subscriber identity module (SIM). The SIM comprises a second processor, a second non-transitory memory storing network keys that the radio transceiver uses to authenticate to a cell site, and an applet stored in the second non-transitory memory. When executed by the second processor, the applet sends a request to know where the wireless communication device is to the first processor, receives an answer from the first processor containing a cell global identifier (CGI) of a first cell site that the radio transceiver is attached to and containing a received signal strength of the first cell site, determines that the received signal strength of the first cell site is below a predefined threshold, and sends a refresh command to the first processor.
H04W 8/02 - Traitement de données de mobilité, p. ex. enregistrement d'informations dans un registre de localisation nominal [HLR Home Location Register] ou de visiteurs [VLR Visitor Location Register]Transfert de données de mobilité, p. ex. entre HLR, VLR ou réseaux externes
Systems and methods for dynamic utilization-based network slice allocation management for user equipment applications are provided. In some embodiments, a slice estimation engine may be implemented to evaluate the network traffic and other application activity data associated with an application running on the UE to determine an operating mode of the application. The slice estimation engine may trigger the UE to request an adjustment to its network slice allocation configurations based on the evaluation. To determine whether or not an application should be reconfigured for a new network slice, the slice estimation engine may evaluate processes that are running on the UE. The slice estimation engine may comprise one or more slice assessment algorithms that determine which slice from a set of available network slices would optimally serve the application based on the network traffic characteristics associated with the application's current mode of operation.
H04W 72/51 - Critères d’affectation ou de planification des ressources sans fil sur la base des propriétés du terminal ou du dispositif
H04W 72/512 - Critères d’affectation ou de planification des ressources sans fil sur la base des propriétés du terminal ou du dispositif lorsqu’un faible temps de latence est requis, p. ex. URLLC
9.
ANALYSIS AND OPTIMIZATION BASED ON INTER RADIO ACCESS TECHNOLOGY TRANSITION TRACKING
Systems, methods and devices are provided for improving network performance by performing optimizations to minimize inter-radio access technology (IRAT) transitions. A method includes tracking the IRAT transitions in conjunction with correlating variables, identifying excessive IRAT transitions meeting a threshold and performing an optimization based on the identification and the correlating variables.
An autonomous appliance configured to operate in a facility. The autonomous appliance includes a chassis including a motor configured to move the autonomous appliance within the facility and a radio frequency identification (RFID) tag reader configured to communicate with infrastructure RFID tags attached to fixed infrastructure and with product RFID tags attached to product containers. The RFID tag reader emits an RF signal that provides ambient RF power to the infrastructure RFID tags and the product RFID tags. The autonomous appliance includes at least one actuator configured to manipulate the product containers and a controller coupled to the RFID tag reader and configured to read information from the infrastructure RFID tags and the product RFID tags. The controller adapts the behavior of the autonomous appliance relative to a first product container based on the read information.
G06K 7/10 - Méthodes ou dispositions pour la lecture de supports d'enregistrement par radiation électromagnétique, p. ex. lecture optiqueMéthodes ou dispositions pour la lecture de supports d'enregistrement par radiation corpusculaire
G05D 1/244 - Dispositions pour déterminer la position ou l’orientation utilisant des aides à la navigation passive extérieures au véhicule, p. ex. marqueurs, réflecteurs ou moyens magnétiques
G05D 101/15 - Détails des architectures logicielles ou matérielles utilisées pour la commande de la position utilisant des techniques d’intelligence artificielle [IA] utilisant l’apprentissage automatique, p. ex. les réseaux neuronaux
G05D 107/70 - Sites industriels, p. ex. entrepôts ou usines
Systems, methods, and devices are provided for network slice prioritization for wireless devices during network overload conditions. Methods include receiving notification of network overload conditions and receiving notification of an attach request from a wireless device at unified data management (UDM). The UDM obtains a priority network slice for the wireless device from a unified data repository (UDR). The priority network slice for the wireless device is shared with one or more 5G core network functions, such as access and mobility function (AMF), session management function (SMF), short message service function (SMSF), and policy control function (PCF).
A method comprises obtaining signature data associated with a network element using a predictive model based on historical radio access data describing a prior incident at the network element in the radio access network, wherein the signature data indicates a pattern of the historical radio access data associated with the prior incident at the network element, inputting current radio access data into the predictive model to obtain a prediction output based on the signature data, wherein the prediction output indicates data regarding a predicted incident at the network element, a predefined time period in which the predicted incident is likely to occur, and a preventative resolution to the predicted incident, and generating a service report indicating at least one of the predicted incident at the network element, the predefined time period, or the preventative resolution.
Aspects herein provide for generating customized messaging to deliver accurate composite allocations for available telecommunication services of a user device. In aspects, middleware intelligently determines composite allocations for data, voice, and/or roaming, for example, by executing a summation instruction that combines corresponding parameter thresholds for a base service and one or more supplemental services. A message can be customized with the composite allocation and communicated to the user device with an accurate indication of available data, voice, and/or roaming services that are available. Subsequent messages can be similarly customized and communicated that include updated allocations and/or alerts, in aspects.
A video presentation device having an embedded cellular radio. The device comprises a processor, a non-transitory memory, a cellular radio antenna, a cellular radio transceiver, a display screen, and an application, stored in the non-transitory memory. When executed by the processor, the application sends a network attach request message via the cellular radio transceiver and the cellular radio antenna to a cell site to request a cellular radio communication link from the cell site, wherein the network attach request message comprises credentials from an electronic subscriber identity module (eSIM) stored in the non-transitory memory and wherein the eSIM is associated with a cellular communication service subscription account; after attaching to the cell site, sends a video content request to a video content source via the cellular radio transceiver and the cellular radio antenna; receives the requested video content; and presents the requested video content on the display screen.
H04W 4/50 - Fourniture de services ou reconfiguration de services
H04B 7/06 - Systèmes de diversitéSystèmes à plusieurs antennes, c.-à-d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
H04B 17/309 - Mesure ou estimation des paramètres de qualité d’un canal
H04W 8/18 - Traitement de données utilisateur ou abonné, p. ex. services faisant l'objet d'un abonnement, préférences utilisateur ou profils utilisateurTransfert de données utilisateur ou abonné
15.
NETWORK SLICE PRIORIZATION FOR IMS APPLICATION SERVERS
Systems, methods, and devices are provided for network slice prioritization for wireless devices during network overload conditions. Methods include receiving notification of network overload conditions and receiving notification of an attach request from a wireless device at home subscriber service (HSS). The HSS obtains a priority network slice for the wireless device from a unified data repository (UDR). The priority network slice for the wireless device is shared with one or more IMS application servers, such as interrogating call session control function (I-CSCF) serving call session control function (S-CSCF), and telephony application server (TAS).
H04L 65/80 - Dispositions, protocoles ou services dans les réseaux de communication de paquets de données pour prendre en charge les applications en temps réel en répondant à la qualité des services [QoS]
H04W 8/04 - Enregistrement dans un registre de localisation nominal ou un serveur d'abonnés locaux [HSS Home Subscriber Server]
16.
SYSTEMS AND METHODS FOR DYNAMICALLY MANAGING SERVICE LEVELS IN A WIRELESS NETWORK
Systems and methods are provided for dynamically managing service levels in a wireless network. Methods include receiving, by a UDM, from a UDR, existing service levels for one or more wireless devices. The methods further include receiving, by the UDM, from the UDR, UDSP rules for the one or more wireless devices. The methods further include applying the UDSP rules to the existing service levels to yield resultant service levels for the one or more wireless devices.
The technology described herein controls what a user hears while in a virtual reality environment. A user may be exposed to multiple audio sources while in the virtual reality environment. All of these competing audio sources need to be combined to produce the audio content output to the user. Further, various entities have an interest in the user hearing different audio content. The interest can be expressed through settings made available by the VR platform. The VR platform can provide user settings, landowner settings, and platform settings. The sound settings can change based on where the user's avatar is located in the VR environment. For example, when the user's avatar is located on virtual property owned by an entity other than the VR platform or user, then entities sound-preferences are considered along with the user's sound preferences, and VR platform's sound preferences.
Methods and systems for restricting communication services over a network. The method includes detecting a Session Initiation Protocol (SIP) register message originating from a specific network Public Land Mobile Network (PLMN) that is included in a restricted PLMN list identified by a P-Access-Network-Information header (P-ANI). The method further includes implementing a policy to remove RCS and presence capability feature tags from a subsequent SIP register message. The lack of feature tags to Serving Call Session Control Function (S-CSCF) will prohibit triggering of Third Party Registration to different application servers.
Systems and methods are provided for preventing user equipment from communicating with non-approved third-party sites, such as simulators or IMSI catchers. Using criteria to determine whether signals are associated with approved sources, such as a base station, or non-approved sources, such as bad actors, embodiments are able to identify bad actors and prohibit attempted connections. User equipment (UE) can use a blacklist, or graylist, of sites to avoid, which conserves time and resources. Because a UE avoids third-party sites, the UE communicates with approved network devices and is able to successfully access emergency services.
Systems and methods are provided for authenticating account modifications in a wireless network. Methods include detecting a request to modify an account of an account holder, at an authentication portal. The methods further include transmitting a request to generate a one-time password (OTP) to an identity provider, wherein the request to generate the OTP includes a confirmation flag indicating that confirmation by the account holder is required before generating the OTP. The methods further include transmitting an SMS message to the account holder identifying the request to modify the account and requesting a positive confirmation from the account holder to authorize the requested account modification. The methods further include transmitting the OTP via SMS to the account holder upon receiving the positive confirmation from the account holder.
The technology disclosed herein relates to beamforming muting. In embodiments, methods, systems, and computer storage media can transmit, via at least one antenna array using a listening mode for interference detection, a plurality of signals along a plurality of vectors of a coverage area. For example, the plurality of signals may be transmitted via an azimuth sweep from −90 to +90 degrees. Based on transmitting the plurality of signals, an interference above a predetermined threshold can be detected, the interference corresponding to a satellite earth station. Based on the interference, at least one beam of the antenna array can be identified for muting (e.g., based on a determined angle of arrival associated with the interference, based on the plurality of vectors used for the interference detection, based on an azimuth corresponding to the interference, etc.).
Systems and methods are provided for improving spectral efficiency in a wireless network. The methods include determining that one or more reduced capability devices are using a network slice. The methods further include determining that the spectral efficiency of the network slice has dropped below a spectral efficiency threshold. The methods further include reducing a radio resource partitioning ratio of the one or more reduced capability devices to non-reduced capability devices.
In a communication network, a User Equipment (UE) simultaneously executes a first user application and a second user application. In response to executing the first user application, the UE requests a first network slice using a first user identity, and the communication network authorizes the first network slice for the UE based on the first identity. In response to executing the second user application, the UE requests a second network slice using a second user identity, and the communication network authorizes the second network slice for the UE based on the second identity. The UE and the communication network exchange first user data for the first user application with the first network slice, and simultaneously, the UE and the communication network exchange second user data for the second user application with the second network slice.
H04W 8/20 - Transfert de données utilisateur ou abonné
H04W 36/00 - Dispositions pour le transfert ou la resélection
H04W 36/28 - La resélection étant déclenchée par des paramètres spécifiques par des paramètres de communication agréés ou négociés impliquant une pluralité de liaisons, p. ex. des liaisons multi-appels ou multi-porteuses
H04W 36/32 - La resélection étant déclenchée par des paramètres spécifiques par des données de localisation ou de mobilité, p. ex. des données de vitesse
H04W 48/18 - Sélection d'un réseau ou d'un service de télécommunications
Methods, systems, and a non-transitory computer-readable medium that provide methods, systems, and computer-readable media that dynamically allocating network resources to devices in a network are provided. The method begins with determining an allocation of network resources to a user device accessing a service. The determining may be based on an anticipated quality of service (QoS) for the service. The anticipated QoS may be based on a user using the full capabilities of the service. The method then continues with dynamically re-allocating the allocation of network resources based on an actual use of the network resources for the service. The dynamic re-allocation of network resources may be based on an uplink message from the UE, wherein the uplink message contains information about the network resources being used for the call.
Technology is disclosed herein for a negotiation framework by which a wireless network can negotiate with another network to dynamically offload data traffic corresponding to a network slice hosted by the wireless network. In an implementation, the wireless network determines that data traffic of a network slice is to be offloaded from the wireless network to another network. The wireless network identifies a visited network to host the data traffic and makes an offer to the visited network based on a negotiation framework which includes parameters for an agreement to offload the data traffic. When the visited network accepts the offer, the wireless network offloads the data traffic from the wireless network to the visited network.
Systems and methods are provided for managing handover for reduced capability devices. The methods include determining that one or more available access nodes support reduced capability devices for a handover operation for a reduced capability device. The methods further include measuring a signal strength of the one or more available access node that support reduced capability devices. The methods further include selecting a target access node based in part on the signal strength of the one or more available access nodes that support reduced capability devices. The methods further include moving the reduced capability device to the target access node.
Systems and methods are provided to optimize antenna utilization for downlink signal transmission in wireless networks. The system includes a first antenna at a standard height for regular atmospheric conditions and a second antenna at a different elevation, activated in response to detected atmospheric ducting conditions. The method involves transmitting a downlink signal using the first antenna, monitoring for atmospheric conditions and signal degradation, and switching to the second antenna upon detecting ducting. A dynamic control unit oversees the transition between antennas, ensuring signal integrity and mitigating interference. This adaptive approach enhances network reliability and service quality by addressing the challenges posed by atmospheric variability, thereby improving the user experience in wireless communication networks.
H04B 7/06 - Systèmes de diversitéSystèmes à plusieurs antennes, c.-à-d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
H04B 7/026 - Diversité coopérative, p. ex. utilisant des stations fixes ou mobiles en tant que relais
H04W 28/02 - Gestion du trafic, p. ex. régulation de flux ou d'encombrement
Systems and methods are provided for managing network layers. Network providers often define their network with pre-defined network layer priorities depending on their spectrum holdings (e.g., bandwidth) and capability of devices. User device performance metrics are valuable data points that allow for intelligent traffic steering and network layer management based on device-specific performance related to specific network layers. Location session records (LSR) data provides detailed inputs for sessions for each user device in a network. This historical data can be utilized to identify performance issues on certain network layers for specific user devices and proactively steer the devices to other network layers to improve performance.
Systems and methods are provided for providing real-time virtual viewing content of a live event to a user equipment on a wireless communications network. Source information of the live event, which is processed on an edge computing device located within a threshold distance of the live event, is provided to a first user equipment. A second user equipment requesting to view the live event is identified, and the same source information that was provided to the first user equipment is provided to the second user equipment. Based on the same source information, the first user equipment is presented with a first virtual view at a first time that is different from a second virtual view presented to the second user equipment at the first time.
H04N 21/218 - Source du contenu audio ou vidéo, p. ex. réseaux de disques locaux
H04N 21/266 - Gestion de canal ou de contenu, p. ex. génération et gestion de clés et de messages de titres d'accès dans un système d'accès conditionnel, fusion d'un canal de monodiffusion de VOD dans un canal multidiffusion
H04N 21/442 - Surveillance de procédés ou de ressources, p. ex. détection de la défaillance d'un dispositif d'enregistrement, surveillance de la bande passante sur la voie descendante, du nombre de visualisations d'un film, de l'espace de stockage disponible dans le disque dur interne
H04N 21/472 - Interface pour utilisateurs finaux pour la requête de contenu, de données additionnelles ou de servicesInterface pour utilisateurs finaux pour l'interaction avec le contenu, p. ex. pour la réservation de contenu ou la mise en place de rappels, pour la requête de notification d'événement ou pour la transformation de contenus affichés
30.
Privilege Isolation in Managed Communication Service
A managed communication service system to restrict communication in a network based on a privilege associated to a context of the communication to provide privilege isolation. The managed communication service system comprises a processor; a memory; and an application stored in the memory that, when executed by the processor, is configured to monitor network traffic associated with the managed communication service system, determine a context of the managed communication service system based on monitoring the network traffic associated with the managed communication service system, restrict a first communication session provided by the managed communication service system based on the context to a first combination of communication privilege parameters, and restrict a second communication session provided by the managed communication service system based on the context to a second combination of communication privilege parameters.
H04L 41/5009 - Détermination des paramètres de rendement du niveau de service ou violations des contrats de niveau de service, p. ex. violations du temps de réponse convenu ou du temps moyen entre l’échec [MTBF]
Systems and methods are provided for automatic data channel switching on a failure for multi-SIM devices. Multi-SIM devices can include multiple SIM profiles associated with different telecommunications network carriers. When a data channel fails, features that require data are lost. Multi-SIM devices can include a first SIM profile that enables push-to-talk (PTT) functionality while a second SIM profile does not. Upon determining that the data channel associated with the first SIM profile fails, the second SIM profile can be utilized to attach to a different data channel associated with the second SIM profile such that data is provided to a device via the second SIM profile but the first SIM profile is still utilized to enable PTT functionality.
H04W 76/45 - Gestion de la connexion pour la distribution ou la diffusion sélective pour des services presser-pour-transmettre [PPT] ou presser-pour-transmettre sur cellulaire [PoC]
H04W 8/18 - Traitement de données utilisateur ou abonné, p. ex. services faisant l'objet d'un abonnement, préférences utilisateur ou profils utilisateurTransfert de données utilisateur ou abonné
H04W 88/06 - Dispositifs terminaux adapté au fonctionnement dans des réseaux multiples, p. ex. terminaux multi-mode
32.
SLICE-BASED SECURITY PROTOCOL SELECTION FOR INTERNET PROTOCOL MULTIMEDIA SUBSYSTEM (IMS)
Various embodiments comprise a wireless communication network to perform slice-based security protocol selection for Internet Protocol Multimedia Subsystem (IMS). In some examples, the wireless communication network comprises a Call Session Control Function (CSCF). The CSCF receives an IMS registration request transferred by a wireless user device, generates an authorization request that includes an Address Value Pair (AVP) requesting a slice Identifier (ID) for the wireless user device, and transfers the authorization request to a network data system. The CSCF receives an authorization response from the network data system that includes the slice ID for the wireless user device. The CSCF selects a security protocol for authenticating the wireless user device based on the slice ID. The CSCF transfers an authentication challenge for delivery to the wireless user device and establishes a secure communication channel with the wireless user device using the selected security protocol.
A method comprises receiving, by a first virtual service (VS) application in a load balancer of the communication system, client packets from a client, receiving, by a second VS application in the load balancer, test packets from a tester obtaining, by the first VS application and the second VS application, a parameter from a data store communicatively coupled to the load balancer, determining, by the first VS application, a selected pool in the load balancer toward which to forward the client packets based on a first rule programmed at the first VS application and the parameter, and determining, by the second VS application, a test pool in the load balancer toward which to forward the test packets based on a second rule programmed at the second VS application and the parameter.
Systems, methods, and computer-readable media herein modify the utilized communication protocol of one or more wireless base stations and/or UE devices based on signal quality information or data rate information associated with one or more UE devices. The signal quality information or data rate information of the UE devices can be analyzed by a base station and the base station can respond to changes in signal quality or data rate of the UE devices by modifying the configuration of one or more base stations and/or UE devices from a first communication protocol to a second communication protocol quality of transmissions between the UE devices and a base station.
Systems and methods are provided for dynamically optimizing on demand coverage at one or more coverage locations. The system includes a plurality of coverage locations, a centralized location comprising a plurality of basebands and at least one controller, a plurality of fiber cables that extend from the centralized location to the coverage locations, and one or more processors. The one or more processors are configured to receive data that identifies the number of users needing coverage at a first coverage location during a first event. Based on determining whether the number of users needing coverage at the first coverage location of the plurality of coverage locations exceeds a predetermined capacity threshold for the first coverage location for the first event is determined, the system assigns at least one additional baseband to provide additional coverage to the first location.
Systems and methods are provided for selecting an antenna amplitude taper to transmit wireless signals to a coverage area from a base station. A first interference level at a victim cell is determined when using a first amplitude taper. A second interference level at a victim cell is determined when using a second amplitude taper. Based on determining that the second interference level is less than the first interference level, the second amplitude taper is selected to transmit the wireless signals to the coverage area form the set of antenna elements at the base station.
H04W 72/044 - Affectation de ressources sans fil sur la base du type de ressources affectées
H04W 72/541 - Critères d’affectation ou de planification des ressources sans fil sur la base de critères de qualité en utilisant le niveau d’interférence
37.
CLUSTERING ALGORITHM DBSCAN AND AGGLOMERATIVE BASED ON MOBILE MEASURED DATA TO FIND POOR QUALITY AREAS TO INVEST FOR NEW
Aspects herein provide a system, media, and methods for/of an application that utilizes and leverages machine learning techniques, infrastructure information (e.g., existing and planned cell sites, lease agreement sites, fiber-optic networks, geographic landmarks), and collected telecommunication data, to accurately identify and determine specific solutions and specific locations for those solutions to be deployed in a geographic area. In embodiments, the application autonomously identifies an optimized specific solution type for various clusters of poor-service coverages areas within the geographic areas. The application also determines a precise location for deployment of each optimized specific solution type for each cluster.
Methods and systems for providing mobile broadband services to high speed rail are provided. The method begins with receiving, at an application programming interface (API) module on the network, a request from a user device. The request comprises a request payload that comprises a quality on demand (QoD) metric to be used in the NaaS operations. The QoD metric may be selected to provide for a desired level or service or operating quality that a developer wishes to provide. The request payload is then processed at the API module, wherein the processing determines if the network supports the QoD metric being requested. After processing, a response is transmitted from the API module to the user device, wherein the response comprises a response payload responsive to the QoD metric in the request payload.
A mobile communication device. The device comprises a processor, a non-transitory memory, a cellular radio transceiver, and an in-kind payment client application stored in the non-transitory memory. When executed by the processor, the client application initiates an in-kind payment from a first wireless communication service account that is associated with the mobile communication device to a second wireless communication service account associated with a second mobile communication device, sends a verification request message to the second mobile communication device, receives an in-kind payment verification response message from the second mobile communication device, where the response message comprises an indication of a location of the second mobile communication device and an indication of completion of an in-kind payment to the second wireless communication service account, and analyzes the indication of location of the second mobile communication device and the indication of completion of the in-kind payment.
G06Q 20/40 - Autorisation, p. ex. identification du payeur ou du bénéficiaire, vérification des références du client ou du magasinExamen et approbation des payeurs, p. ex. contrôle des lignes de crédit ou des listes négatives
G01S 5/00 - Localisation par coordination de plusieurs déterminations de direction ou de ligne de positionLocalisation par coordination de plusieurs déterminations de distance
G06Q 20/32 - Architectures, schémas ou protocoles de paiement caractérisés par l'emploi de dispositifs spécifiques utilisant des dispositifs sans fil
H04W 4/02 - Services utilisant des informations de localisation
H04W 24/10 - Planification des comptes-rendus de mesures
Embodiments of the present disclosure relate to an adaptive data management system and methods for telecommunications networks. The system includes a method for receiving data packets and intelligently assigning them to service flows based on content type and network conditions. Different compression protocols are applied to the data packets according to their service flow. The system features a dynamic control unit configured to monitor network conditions and adjust data packet handling in real-time. This includes decompressing and re-compressing data packets to suit the current network environment and user equipment capabilities.
Embodiments of the present disclosure are directed to systems and methods for enhanced provision of push notifications in a wireless telecommunication network. In response to a push notification server providing a push notification to an external push notification service, the push notification server is provided with an indication whether the notification was delivered to a target UE or not. Using the feedback, the push notification server may carry out one or more mitigating procedures, such as instructing the target UE to refresh its push token or re-attempt delivery, if the notification was not delivered to the UE.
A radio-frequency identification (RFID) system includes RFID tags arranged in a plurality of separate rows, a RFID reader, and a computer system including a processor, a non-transitory computer readable medium, and one or more applications stored in the non-transitory computer readable medium. The one or more applications, when executed by the processor, initiate by the RFID reader a row scan, and modulate, using a beamforming control module, a configuration of a radiation beam. In addition, the one or more applications, when executed by the processor, modulate by a power control module an emission power of the reader antenna during the performance of the row scan, and detect by the RFID reader one or more of the RFID tags positioned along a row.
G06K 7/10 - Méthodes ou dispositions pour la lecture de supports d'enregistrement par radiation électromagnétique, p. ex. lecture optiqueMéthodes ou dispositions pour la lecture de supports d'enregistrement par radiation corpusculaire
G06K 19/077 - Détails de structure, p. ex. montage de circuits dans le support
H01Q 1/22 - SupportsMoyens de montage par association structurale avec d'autres équipements ou objets
43.
FREQUENCY SELECTIVE SURFACE FOR AN ACCESS POINT ANTENNA
Methods, apparatus, and a non-transitory computer readable media provide an access point antenna with an antenna radome comprising frequency selective surface elements. At least one first antenna element mounted on a first location of an antenna support structure and at least one second antenna element mounted on a second location of the antenna support structure. The antenna radome covers the access point antenna and comprises frequency selective surface components on an interior surface. The frequency selective surfaces comprise first and second frequency selective surface components that are responsive to filter unwanted radio frequency (RF) emissions that affect the first and second antenna elements. The frequency selective surfaces comprising the antenna radome may be selected based on the location and frequencies of other antennas operating near the access point antenna.
H01Q 15/00 - Dispositifs pour la réflexion, la réfraction, la diffraction ou la polarisation des ondes rayonnées par une antenne, p. ex. dispositifs quasi optiques
H01Q 1/42 - Enveloppes non intimement mécaniquement associées avec les éléments rayonnants, p. ex. radome
H01Q 19/02 - Combinaisons d'éléments actifs primaires d'antennes avec des dispositifs secondaires, p. ex. avec des dispositifs quasi optiques, pour donner à une antenne une caractéristique directionnelle désirée Détails
44.
DYNAMIC PRIORITIZATION OF MESSAGES ON THE CORE NETWORK INTERFACE
Embodiments of the present disclosure are directed to systems and methods for improved prioritization of messages exchanged within the core network. By providing priority markings customized based on the type of message being sent and/or the interface the message is sent on, a network may work more optimally in the event of network failure or reduced performance of the network.
Aspects herein capture methods, media, devices, and systems for communicating distress notifications over wireless networks. A tracking device can generate a distress notification that encodes a current location and sensor data over a wireless network, such as a satellite network, for routing to a cloud-based platform that may initiate further actions responsive to the distress notification. The tracking device can intelligently determine a quantity, a periodicity, and/or sensor data to include within various distress notification(s) based on the type of wireless network that is in-range, the power to be used by the tracking device when communicating distress notification(s) over that type of wireless network, the amount of power available and/or remaining in an integrated and/or accessory power supply of the tracking device, or any combination thereof.
Aspect herein capture methods, media, device, and systems that leverage real-time sensor data to trigger events, location tracking, and notification events using customizable configurations of a tracking device with various sensor(s).
H04W 64/00 - Localisation d'utilisateurs ou de terminaux pour la gestion du réseau, p. ex. gestion de la mobilité
H04L 67/12 - Protocoles spécialement adaptés aux environnements propriétaires ou de mise en réseau pour un usage spécial, p. ex. les réseaux médicaux, les réseaux de capteurs, les réseaux dans les véhicules ou les réseaux de mesure à distance
Aspect herein capture methods, media, device, and systems that leverage real-time sensor data to trigger events, location tracking, and notification events using customizable configurations of a tracking device with various sensor(s).
Methods for mitigating the effects of an atmospheric-based interference event on the propagation of a radio frequency (RF) signal are provided. A wireless communication network may determine that tropospheric ducting is occurring, causing radio frequencies to travel much further than anticipated. In response to the determination of tropospheric ducting interference (TDI), a user equipment (UE) connected a victim base station using standalone time domain duplexing (TDD) may be instructed to at least partially shift communications to using frequency domain duplexing (FDD). When TDI is reduced, the UE is notified the victim base station has been enabled to communicate using standalone TDD.
H04L 5/14 - Fonctionnement à double voie utilisant le même type de signal, c.-à-d. duplex
H04B 17/336 - Rapport signal/interférence ou rapport porteuse/interférence
H04W 64/00 - Localisation d'utilisateurs ou de terminaux pour la gestion du réseau, p. ex. gestion de la mobilité
H04W 92/10 - Interfaces entre des dispositifs formant réseau hiérarchiquement différents entre un dispositif terminal et un point d'accès, c.-à-d. interface hertzienne sans fil
49.
INHIBITING EXCESSIVE DATA SYSTEM SIGNALING IN A WIRELESS COMMUNICATION NETWORK
Various embodiments comprise a wireless communication network to inhibit network data system signaling overload. In some examples, the wireless communication network comprises primary Unified Data Registry (UDR) and secondary UDRs. The primary UDR node detects a fault condition for a secondary UDR. The primary UDR node blacklists the secondary UDR node for inter-UDR communications based on the fault condition and updates a network topology graph to remove the secondary UDR node. The primary UDR node transfers a command to another secondary UDR to blacklist the secondary UDR node and to update the network topology graph to remove the secondary UDR node. The other secondary UDR node receives the command, blacklists the secondary UDR node for inter-UDR communications, and updates the network topology graph to remove the secondary UDR node.
H04L 41/0659 - Gestion des fautes, des événements, des alarmes ou des notifications en utilisant la reprise sur incident de réseau en isolant ou en reconfigurant les entités défectueuses
H04L 41/12 - Découverte ou gestion des topologies de réseau
Systems and methods are provided for serving cell planning. Wireless high-speed internet (HSI) is becoming more popular as an alternative to traditional options due to convenience of installation, among other reasons. However, wireless HSI has some propagation challenges such as requiring a line-of-sight (LOS) with the serving cell as well as significant indoor penetration loss for radio signals operating at higher frequencies. Customer Premises Equipment (CPE) devices are developing that mitigate indoor propagation losses but, in order to be effective, it must be determined whether each application can maintain LOS with a serving cell. An installation tool that evaluates various network factors to advise on viability and installation of CPE and indicate an orientation to face the best serving cell would be a valuable tool to maximize effectiveness of the CPE.
Systems and methods are provided for authenticating applications in a wireless network. Methods include determining that an application uses IP authentication. The methods further include querying a policy server for information on an IP address of a client running the application, wherein the information includes a device type indicator for the IP address. The methods further include determining that the device type indicator indicates the IP address is assigned to a cellular home internet gateway. The methods further include transmitting a notification to the client running the application upon determining that the IP address is assigned to the cellular home internet gateway.
Systems and methods are provided for determining routes between geographic locations and estimating lengths thereof. When a set of geographic locations is too large to be accepted as input into drive-routing software, it is broken into smaller clusters using affinity propagation. When affinity propagation fails to yield desired results, the geographic locations are clustered using a combination of density-based and k-means clustering algorithms. The resulting clusters are provided as inputs to the drive-routing software. The routes between the clustered geographic locations are used to, for example, estimate a length of a utility needed to reach each of the geographic locations.
G01C 21/34 - Recherche d'itinéraireGuidage en matière d'itinéraire
G06F 18/23213 - Techniques non hiérarchiques en utilisant les statistiques ou l'optimisation des fonctions, p. ex. modélisation des fonctions de densité de probabilité avec un nombre fixe de partitions, p. ex. K-moyennes
Systems and methods are provided for selecting and dynamically adjusting beamforming techniques offered to and applied to one or more devices based on a type of the device. Specifically, a device that is determined to be stationary can utilize a different beamforming technique than a device that is determined to be mobile (i.e., not stationary). Based on the determinations of whether a device is stationary or mobile, a specific beamforming technique can be offered to that device. Further, devices that are located in a same location in the service area (e.g., both devices are located at cell edge, both are near cell, etc.) can utilize different beamforming techniques such that multiple beamforming techniques are employed in the same location.
H04B 7/06 - Systèmes de diversitéSystèmes à plusieurs antennes, c.-à-d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
54.
DYNAMIC PRIORITIZATION OF MESSAGES ON THE CORE NETWORK INTERFACE
Embodiments of the present disclosure are directed to systems and methods for improved prioritization of messages exchanged within the core network. By providing priority markings customized based on the type of message being sent and/or the interface the message is sent on, a network may work more optimally in the event of network failure or reduced performance of the network.
H04L 47/24 - Trafic caractérisé par des attributs spécifiques, p. ex. la priorité ou QoS
H04L 43/08 - Surveillance ou test en fonction de métriques spécifiques, p. ex. la qualité du service [QoS], la consommation d’énergie ou les paramètres environnementaux
Aspects herein capture methods, media, devices, and systems for communicating distress notifications over wireless networks. A tracking device can generate a distress notification that encodes a current location and sensor data over a wireless network, such as a satellite network, for routing to a cloud-based platform that may initiate further actions responsive to the distress notification. The tracking device can intelligently determine a quantity, a periodicity, and/or sensor data to include within various distress notification(s) based on the type of wireless network that is in-range, the power to be used by the tracking device when communicating distress notification(s) over that type of wireless network, the amount of power available and/or remaining in an integrated and/or accessory power supply of the tracking device, or any combination thereof.
H04W 4/029 - Services de gestion ou de suivi basés sur la localisation
H04W 4/90 - Services pour gérer les situations d’urgence ou dangereuses, p. ex. systèmes d’alerte aux séismes et aux tsunamis
H04W 64/00 - Localisation d'utilisateurs ou de terminaux pour la gestion du réseau, p. ex. gestion de la mobilité
H04M 1/72436 - Interfaces utilisateur spécialement adaptées aux téléphones sans fil ou mobiles avec des moyens de soutien local des applications accroissant la fonctionnalité avec des moyens interactifs de gestion interne des messages pour la messagerie textuelle, p. ex. services de messagerie courte [SMS] ou courriels
H04M 1/72421 - Interfaces utilisateur spécialement adaptées aux téléphones sans fil ou mobiles avec des moyens de soutien local des applications accroissant la fonctionnalité pour donner accès à des services d’urgence les fonctions de service d’urgence étant activées automatiquement, p. ex. par détection d’une condition d’alarme
56.
REMOTE ELECTRICAL TILT CHANGES IN A WIRELESS NETWORK
Validating RET changes in a wireless network includes receiving information associated with a RET change for use by at least one access node from a antennas in a geographic area, the RET change having at least one RET change not previously implemented in the wireless network, performing a configuration operation, in an audit mode, on the antennas to use the RET change based on a set of existing profiles for the antennas, determining if the configuration operation in the audit mode resulted in a validation error for one of the access nodes from the antennas, and performing a configuration operation, in a real time mode, on the antennas to use the RET change if it is determined that configuration operation in the audit mode did not result in a validation error.
H01Q 3/00 - Dispositifs pour changer ou faire varier l'orientation ou la forme du diagramme de directivité des ondes rayonnées par une antenne ou un système d'antenne
H01Q 21/06 - Réseaux d'unités d'antennes, de même polarisation, excitées individuellement et espacées entre elles
A method for uplink layer selection includes determining a location of a multi-antenna wireless device and identifying a zone for the multi-antenna wireless device based on the location. The method further includes selecting an uplink transmission mode for each of the multiple antennas based on the identified zone
The technology disclosed herein relates to enhancing connectivity in remote locations. In embodiments, methods, systems, and computer storage media can map each of a plurality of backhauls (e.g., associated with multiple radio frequency front ends) to at least one network slice, wherein each network slice has a different link performance parameter. As one example, this mapping can provide for Time Division Duplex and Frequency Division Duplex multi-frequency, multi-layer carrier aggregation across various frequency bands (e.g., in the uplink direction). For example, various multiple link mapping (e.g., Internet Protocol layer mapping) and software functionality for transmitting particular data packets via the particular network slice based on the mapping are described herein.
H04W 16/28 - Structures des cellules utilisant l'orientation du faisceau
H04B 7/04 - Systèmes de diversitéSystèmes à plusieurs antennes, c.-à-d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées
H04W 76/15 - Établissement de connexions à liens multiples sans fil
59.
PREVENTING, IDENTIFYING, AND RESOLVING CONFLICTING SESSION INFORMATION
Embodiments of the present disclosure are directed to systems and methods for improved identification and resolution of conflicting session information, such as when multiple session information entries are associated with a single session identifier. By communicating timestamps with the session information deposited in the NF component, the NF component may determine which session information is relevant to the request or which session information is stale and should be removed from its dataset.
H04L 67/146 - Marqueurs pour l'identification sans ambiguïté d'une session particulière, p. ex. mouchard de session ou encodage d'URL
H04L 61/4535 - Répertoires de réseauCorrespondance nom-adresse en utilisant une plate-forme d'échange d'adresses qui établit une session entre deux nœuds, p. ex. des serveurs de rendez-vous, des gardes-barrières de protocoles d'initiation de session [SIP] ou contrôleurs d’accès H.323
H04L 101/659 - Adresses IPv6 du protocole Internet version 6
60.
MOBILITY BASED SOUNDING REFERENCE SIGNAL PERIODICITY SELECTION
Methods provided herein include grouping wireless devices connected to an access node in a network into one of a mobile group and a stationary group when at least some of the wireless devices in the network utilize time division duplexing (TDD) and frequency division duplexing (FDD) carrier aggregation (CA) and further utilize sounding reference signal (SRS) antenna switching to send SRS to the access node from receiving antennas of the wireless devices. The method further includes adjusting a periodicity for receiving the SRS from the wireless devices belonging to the stationary group, causing the wireless devices in the stationary group to send the SRS to the access node less frequently than the wireless devices in the mobile group.
Systems and methods are provided for managing bandwidth while conserving battery in a wireless network. The methods include manipulating BWPs for the PCell and the one or more SCells based on the remaining battery life of the wireless device. With high remaining battery life, BWP sizes do not need to be restricted. With lower remaining battery life, the BWP sizes are restricted in an incremental way depending on the remaining battery life.
Systems and methods are provided for authenticating wireless devices in a wireless network. Methods include maintaining, by an authentication server, one or more mapping tables, wherein the one or more mapping tables map the one or more wireless devices to data management segments. The methods further include communicating, by the authentication server, directly with the data management segments indicated in the mapping tables corresponding to the one or more wireless devices to authenticate the one or more wireless devices.
Methods, systems, and a non-transitory computer-readable medium for context aware digital vision are provided. Often, digital capture of information is tedious and prone to errors. This is sometimes the result of an image capture device blindly scanning an image without any context to what the image is or how it will be used. Aspects herein provide utilizing contextual data provided from telecommunications network data to refine digital capture of information.
Systems and methods provide an active mechanism that compares performance of Wi-Fi connectivity provided by a fixed wireless access point to cellular connectivity to determine the best option for a particular UE, based on a particular usage, at a particular point in time. Initially, an indication is received from a fixed wireless access point that is experiencing congestion that a UE has connected to the fixed wireless access point. If congestion metrics of the fixed wireless access point are determined to be above a threshold, collocated cells or neighboring cells that are not experiencing congestion are detected. Next, instructions are provided for the UE to: disconnect from the fixed wireless access point and connect to an alternate cell of the collocated cells or neighboring cells; or deprioritize Wi-Fi for a given amount of time.
A method for coverage opportunity enhancement includes identifying a wireless device within a selected network coverage area for a cellular network based on information contained in a registration request from the wireless device. The method additionally includes accessing a database to correlate the information contained in the registration request with a mobile station international subscriber director number (MSISDN). The method additionally includes sending a push notification to the MSISDN of the wireless device, the push notification indicating coverage availability of the cellular network in the selected network coverage area.
H04W 60/04 - Rattachement à un réseau, p. ex. enregistrementSuppression du rattachement à un réseau, p. ex. annulation de l'enregistrement utilisant des événements déclenchés
A method of authorizing an IMS call in a foreign country for a wireless communication device that has a wireless communication subscription service with a US wireless communication service provider. The method comprises receiving a request to originate an IMS call by a HSS located in the US, wherein the request is received from a first wireless communication device located outside of the US and the request identifies a first country; determining by the HSS that international IMS roaming service is allowed by the wireless communication service provider in the first country; determining by the HSS that a first wireless communication subscription service associated with the first wireless communication device allows international IMS roaming service; and sending an authorization to originate the IMS call by the HSS to the first wireless communication device, whereby the first wireless communication device is enabled to originate the IMS call in the first country.
Systems and methods for modifying quality of service (QoS) flow for devices having particular device types based on cell congestion are provided. It is determined that a congestion level of a cell associated with a node exceeds a predetermined threshold, where the cell is providing communication to at least a first device having a first device type and a second device having a second device type. Prior to transmitting a packet to a component of a wireless communications network, a header associated with the packet is modified to include an indication that the congestion level of the cell exceeds the predetermined threshold. Based on the indication that the congestion level of the cell exceeds the predetermined threshold, a QoS flow is modified for devices having the first device type but not for devices having the second device type.
Methods for mitigating the effects of an atmospheric-based interference event on the propagation of a radio frequency (RF) signal are provided. A wireless communication network may determine that tropospheric ducting is occurring, causing radio frequencies to travel much further than anticipated. In response to the determination of tropospheric ducting interference (TDI), the idle mode cell re-selection priority is adjusted to give frequency domain duplexing (FDD) priority for affected cells. When TDI is reduced, the idle mode cell re-selection priority is switched back to time domain duplexing (TDD).
Systems and methods are provided for managing bandwidth in a wireless network. The methods include monitoring a capacity usage of an uplink control channel. The methods further include lowering a bandwidth part (BWP) in one or more secondary carriers for users if the capacity usage is still above the threshold, and then downgrading a carrier aggregation level for the users if the usage capacity is still above the threshold. This process may be performed on roaming and high bandwidth users first before proceeding to regular home network users if the usage capacity of the uplink control channel is still above the threshold.
H04W 28/02 - Gestion du trafic, p. ex. régulation de flux ou d'encombrement
H04W 72/21 - Canaux de commande ou signalisation pour la gestion des ressources dans le sens ascendant de la liaison sans fil, c.-à-d. en direction du réseau
H04W 72/52 - Critères d’affectation ou de planification des ressources sans fil sur la base des charges
Embodiments of the present disclosure are directed to systems and methods for polarization division multiple access. A polarized antenna system having a plurality of differently-polarized antennas is envisioned for wirelessly communicating with a plurality of user devices in a wireless network environment. Each polarized pair of antenna elements, using a particular frequency, will transmit signals using a polarization-frequency pair and a base station will instruct user devices which polarization-frequency pair they should tune to for processing the appropriate downlink signal. Using OFDMA with a polarized antenna system increases capacity without the need for deploying additional base stations.
H01Q 21/24 - Combinaisons d'unités d'antennes polarisées dans des directions différentes pour émettre ou recevoir des ondes polarisées circulairement ou elliptiquement ou des ondes polarisées linéairement dans n'importe quelle direction
71.
pMAX CONTROL FOR 5G MULTICARRIER, MULTIBAND SYSTEM
Methods and systems are provided for controlling the maximum transmit power of a user equipment (UE) in a multi-band environment using dedicated signaling. In one embodiment, the system receives an indication of a frequency band in which a UE is transmitting, along with corresponding uplink signal data. Based on the received data, an adjusted power level for the UE is determined, where the adjustment is based on at least one criterion selected from an interference threshold, a regulatory transmission limit, or a maximum allowable path loss for the frequency band. Following the determination, dedicated signaling is communicated to the UE, instructing it to adjust its uplink transmission power accordingly.
H04W 52/36 - Commande de puissance d'émission [TPC Transmission power control] utilisant les limitations de la quantité totale de puissance d'émission disponible avec une plage ou un ensemble discrets de valeurs, p. ex. incrément, variation graduelle ou décalages
H04W 52/24 - Commande de puissance d'émission [TPC Transmission power control] le TPC étant effectué selon des paramètres spécifiques utilisant le rapport signal sur parasite [SIR Signal to Interference Ratio] ou d'autres paramètres de trajet sans fil
72.
Dynamic Content Management Systems for Managing and Deploying Digital Content
A method for managing and deploying digital content using a dynamic content management system executing on a computer system. The method includes receiving or forming digital content created by an author. The method additionally includes storing the one or more view partials in a datastore, and performing a one-time mapping of the one or more view partials to a uniform resource locator (URL) of a webpage using a template associated with the webpage and that identifies one or more components of a tech stack supporting the webpage that facilitate the deploying the template as the webpage. The method further includes embedding the one or more view partials into the template whereby the template structures a presentation of the one or more view partials, and serving in the form of the webpage the embedded template to user equipment of an end user.
A system comprises a first user equipment (UE), a second UE, an application server, and a strategic performance measurement server. The first UE is configured to generate an initiative in an enterprise tool of an application server; transmit a request for a strategic dashboard scorecard to a strategic performance measurement server; and receive the strategic dashboard scorecard. The second UE is configured to receive a request for creating configuration information for the initiative from the enterprise tool; create the configuration information for the initiative in response to receiving the request; and transmit the configuration information to the strategic performance measurement server. The application server is configured to receive the initiative from the first GUI; and transmit project progress data to a strategic performance measurement server. The strategic performance measurement server configured to assign a scoring value to the initiative; obtain the strategic dashboard scorecard; and transmit the strategic dashboard scorecard.
G06Q 10/0639 - Analyse des performances des employésAnalyse des performances des opérations d’une entreprise ou d’une organisation
G06Q 10/0631 - Planification, affectation, distribution ou ordonnancement de ressources d’entreprises ou d’organisations
G06Q 10/0637 - Gestion ou analyse stratégiques, p. ex. définition d’un objectif ou d’une cible pour une organisationPlanification des actions en fonction des objectifsAnalyse ou évaluation de l’efficacité des objectifs
A radio-frequency identification (RFID) system for identifying objects associated with RFID tags and facilitating maintenance of digital processing backends, where the RFID system includes a plurality of distributed RFID readers, and where each distributed RFID reader is defined by a radio frequency (RF) front-end and a digital processing backend that is physically isolated from each RF front-end. The RFID system further includes a controller operatively connected to the plurality of distributed RFID readers, where the controller is configured to update each distributed RFID reader without updating each RF front-end of each distributed RFID reader.
G06K 7/10 - Méthodes ou dispositions pour la lecture de supports d'enregistrement par radiation électromagnétique, p. ex. lecture optiqueMéthodes ou dispositions pour la lecture de supports d'enregistrement par radiation corpusculaire
75.
AUTOMATED DISCOVERY SCHEDULES FOR TELECOMMUNICATION SERVICE NETWORKS
Methods, media, and systems are provided for automated delivery schedules for telecommunication networks associated with a particular provider. The methods, media, and systems identify telecommunication networks corresponding to the provider. Additionally, location data for each of the telecommunication networks is received. The location data may be associated with one or more IP addresses for each telecommunication network. Servers or server clusters are identified along with associated location data for the servers or server clusters. The servers or server clusters are also associated with the provider. The location data for each of the telecommunication networks and the location data for each of the servers or server clusters are mapped. A distance between at least one of the telecommunication networks and at least one of the servers or server clusters is determined. Based on the distance determined, a telecommunication network is assigned a delivery schedule.
In some examples, a wireless communication system comprises a user device and network elements. The user device generates user data. The user device wirelessly receives a satellite signal from a satellite. The user device determines satellite signal metrics for the satellite signal. The user device wirelessly transfers the user data and the satellite signal metrics to the network elements. The network elements determine known satellite metrics for the satellite. The network elements compare the satellite signal metrics to the known satellite metrics. The network elements to attest to the user data based on the comparison.
H04W 8/18 - Traitement de données utilisateur ou abonné, p. ex. services faisant l'objet d'un abonnement, préférences utilisateur ou profils utilisateurTransfert de données utilisateur ou abonné
G01S 19/23 - Test, contrôle, correction ou étalonnage d'un élément récepteur
H04W 4/029 - Services de gestion ou de suivi basés sur la localisation
H04W 4/50 - Fourniture de services ou reconfiguration de services
H04W 24/04 - Configurations pour maintenir l'état de fonctionnement
Embodiments of the present disclosure are directed to systems and methods for remote deauthentication of electronic devices. A virtual authentication session manager or an electronic device maintains authentication across multiple electronic devices. The virtual authentication session manager receives authentication requests from electronic devices and generates a unique ID and a readable name for each device. A user can remotely deauthenticate any of the electronic devices that have previously been authenticated.
In some examples, a wireless communication network selects a network slice for a User Equipment (UE). The wireless communication network pre-emptively schedules radio resources for the UE based on the network slice. The wireless communication network wirelessly receives user data from the UE in response to the pre-emptive scheduling.
Automated holography using WiFi radiation may be triggered by an event such as a shooting, weather event, fire, or mass casualty. A method begins with sensors detecting a triggering event. The sensors may be mounted on access points, buildings, or other nearby structures. The sensors may be of different types, including aural sensors for detecting noises, such as gunshots, visual sensors, vibration sensors, and the like. The sensors then contact nodes within a predetermined distance of the triggering event using a network router. Additional nodes may include other access nodes within the predetermined distance, relays, repeaters, other network routers, and user devices. After contacting the applicable nodes, automatic mapping of an interior of the location of the triggering event is performed using WiFi radiation. The interior mapping of the location of the triggering event is then transmitted to at least one emergency service.
H04W 4/33 - Services spécialement adaptés à des environnements, à des situations ou à des fins spécifiques pour les environnements intérieurs, p. ex. les bâtiments
G08B 13/00 - Alarmes contre les cambrioleurs, les voleurs ou tous intrus
H04W 4/021 - Services concernant des domaines particuliers, p. ex. services de points d’intérêt, services sur place ou géorepères
G08B 21/02 - Alarmes pour assurer la sécurité des personnes
G08B 17/00 - Alarmes d'incendieAlarmes réagissant à une explosion
Embodiments of the present disclosure are directed to systems and methods for dynamically mobilizing context from a first edge server to a second edge server to reduce latency for a user equipment (UE) utilizing edge services. The systems and methods use historical location and duration data of the UE to predict which of a plurality of adjacent edge servers to a first edge server the UE will travel to next. The systems and methods may also gather additional information such as the topography and transportation infrastructure to refine the priority list. The systems and methods may also determine the type of the UE to interpret the additional information and further refine the priority list.
H04L 67/61 - Ordonnancement ou organisation du service des demandes d'application, p. ex. demandes de transmission de données d'application en utilisant l'analyse et l'optimisation des ressources réseau requises en tenant compte de la qualité de service [QoS] ou des exigences de priorité
H04L 67/568 - Stockage temporaire des données à un stade intermédiaire, p. ex. par mise en antémémoire
H04W 64/00 - Localisation d'utilisateurs ou de terminaux pour la gestion du réseau, p. ex. gestion de la mobilité
81.
ENHANCED SELECTIVE ATTESTATION OF WIRELESS COMMUNICATIONS
Methods, media, and systems are provided for verifying destination identification data in wireless communications. The methods, media, and systems are configured to receive, from a wireless communication network, a request to establish a communication session with a computing device. The request is associated with destination identification data. Additionally, a determination is made as to whether the destination identification data corresponds to a geographic area other than the geographic area associated with the wireless communication network. Based on the determination, the destination identification data is verified using a set of permissible destination identification data or a set of permissible Service Provider IDs. The request is then processed based on the verification result, wherein processing comprises allowing or restricting the communication session based on whether the destination identification data matches the set of permissible destination identification data or the set of permissible Service Provider IDs.
H04W 48/04 - Restriction d'accès effectuée dans des conditions spécifiques sur la base des données de localisation ou de mobilité de l'utilisateur ou du terminal, p. ex. du sens ou de la vitesse de déplacement
82.
Call setup simplification for internet clients to establish media sessions with a serving IMS network
Call setup and management for internet clients is simplified by splitting negotiation of media characteristics for the call into separate negotiations with an originating device and a destination device. Based on an initiation of a call from an originating device (e.g., an originating internet client) to a destination device (e.g., a destination internet client), a first media stream may be negotiated and opened between the originating device and an access node in communication with an internet protocol multimedia system (“IMS”) or other communications network. A second media stream may be negotiated and opened between the access node and the destination device through the IMS, and this negotiation may be masked from the originating device. The access node may connect the call by connecting the first media stream and the second media stream.
G06F 15/16 - Associations de plusieurs calculateurs numériques comportant chacun au moins une unité arithmétique, une unité programme et un registre, p. ex. pour le traitement simultané de plusieurs programmes
H04L 65/1069 - Établissement ou terminaison d'une session
H04M 3/428 - Dispositions pour placer des appels entrants en attente
H04M 3/58 - Dispositions pour transférer les appels reçus d'un abonné à un autreDispositions pour permettre des conversations intérimaires entre le demandeur ou le demandé et une tierce personne
Systems and methods enable a framework that manages multiple discovery servers and different device activations and provisioning. Initially, a request for a service corresponding to a user equipment (UE) is received at a discovery management server. The discovery management server determines a discovery server corresponding to the UE. A push notification or a pull request is communicated by the discovery management server to the discovery server. Information corresponding to the service in association with the UE is stored at a database of the discovery management server.
Systems and methods are provided for providing network notifications of triggering events. Triggering events can be any event identified by one or more sensors that meets predetermined triggering event criteria such that a notification should be communicated via a telecommunications network. The present disclosure describes aspects where triggering events (e.g., natural disasters, mass casualty events, etc.) are detected and all user devices within a predetermined area of the triggering event are notified via the telecommunications network, leveraging network data of user device locations.
H04W 4/90 - Services pour gérer les situations d’urgence ou dangereuses, p. ex. systèmes d’alerte aux séismes et aux tsunamis
H04W 68/06 - Avertissement aux utilisateurs, p. ex. alerte ou messagerie, sur l'arrivée d'une communication, un changement de service ou similaires utilisant un avertissement en plusieurs étapes en modifiant la zone d'avertissement
85.
AUTOMATED HOLOGRAPHY USING WIFI RADIATION FOR INTERIOR MAPPING
Automated holography using WiFi radiation may be triggered by an event such as a shooting, weather event, fire, or mass casualty. A method begins with sensors detecting a triggering event. The sensors may be mounted on access points, buildings, or other nearby structures. The sensors may be of different types, including aural sensors for detecting noises, such as gunshots, visual sensors, vibration sensors, and the like. The sensors then contact nodes within a predetermined distance of the triggering event using a network router. Additional nodes may include other access nodes within the predetermined distance, relays, repeaters, other network routers, and user devices. After contacting the applicable nodes, automatic mapping of an interior of the location of the triggering event is performed using WiFi radiation. The interior mapping of the location of the triggering event is then transmitted to at least one emergency service.
G08B 25/00 - Systèmes d'alarme dans lesquels l'emplacement du lieu où existe la condition déclenchant l'alarme est signalé à une station centrale, p. ex. systèmes télégraphiques d'incendie ou de police
G01S 7/00 - Détails des systèmes correspondant aux groupes , ,
G01S 13/00 - Systèmes utilisant la réflexion ou la reradiation d'ondes radio, p. ex. systèmes radarSystèmes analogues utilisant la réflexion ou la reradiation d'ondes dont la nature ou la longueur d'onde sont sans importance ou non spécifiées
G01S 13/89 - Radar ou systèmes analogues, spécialement adaptés pour des applications spécifiques pour la cartographie ou la représentation
G03H 5/00 - Procédés ou appareils holographiques utilisant des particules ou des ondes autres que celles couvertes par les groupes ou pour obtenir des hologrammesProcédés ou appareils pour en obtenir une image optique
86.
MAXIMUM AGGREGATED BANDWIDTH REPORTING FOR CARRIER AGGREGATION
Embodiments of the present disclosure are directed to systems and methods for reporting user equipment (UE) capabilities for carrier aggregation sessions. Instead of, or in addition to, reporting maximum bandwidth processing capabilities, the present disclosure utilizes an information element reported by the UE that includes the maximum number of resource blocks or subcarriers that can be processed by the baseband processor of the UE.
A method comprises storing, in an over-the-air (OTA) system of the core network, an update to an electronic subscriber identity model (eSIM) profile, transmitting, by the OTA system, the update to the eSIM profile to a remote subscriber identity module provisioning (RSP) system of the core network, updating, by an update application of the RSP system, the eSIM profile based on the update to the eSIM profile received from the OTA system by adding the one or more files to the eSIM profile, modifying the one or more files in the eSIM profile, or updating the file in the eSIM profile to include the additional or modified data, and downloading, by the download application of the UE, the eSIM profile to the UE.
A method comprises generating, by a storage application in a data store implemented as an interplanetary file system (IPFS), a slice data structure dedicated for the network slice in response to receiving the parameters from the slice application, in which the slice data structure comprises the parameters of the network slice, monitoring, by the slice application, usage of the one or more NEs in the network slice by the client, storing, by the storage application in the slice data structure, usage data describing the usage of the one or more NEs in the network slice, and updating, by the storage application, the slice data structure to indicate update data describing an update to one or more parameters of the network slice in response to receiving update data from the slice application.
According to aspects herein, methods and systems for capacity management of virtual spaces are provided. The method begins with estimating a capacity size need of a virtual space in a metaverse. A first quantity of avatars is monitored as avatars enter, leave, and occupy the virtual space. The first quantity of avatars in the virtual space is compared with a predetermined fill threshold. Based on the comparing, a duplicate virtual space may be created if the first quantity of avatars in the virtual space exceeds the predetermined fill threshold. A user may transmit a request to join a virtual space in a metaverse to a network. The request to join the virtual space contains at least one avatar identification and may be a request for a group to join. The user or group receives a sequential identifier of the virtual space and then joins the virtual space.
A data communication system delivers quantum capabilities over network slices. The data communication system receives a user application characteristic from a user communication device for a user application in the user communication device. The data communication system selects one of the quantum capabilities based on the user application characteristic. The data communication system connects the user communication device to the selected one of the quantum capabilities over one of the network slices.
The technology disclosed herein relates to a modular antenna (a single multi-band antenna system) having various sets of antenna elements for transmitting a plurality of frequency bands. In some embodiments, the sets of antenna elements can be configured vertically in a column based on the frequency band (e.g., a first vertical column for low-band frequencies, a second vertical column for high-band frequencies, and third vertical column for millimeter wave frequencies). In other embodiments, the antenna elements that transmit longer wavelengths can be positioned around the antenna elements that transmit shorter wavelengths. Each portion of the modular antenna that includes a particular set of antenna elements corresponding to a particular frequency range can each have an individual dedicated reflector and separate printed circuit board. Further, each of the antenna elements of the modular antenna can have the same gain.
H04B 1/00 - Détails des systèmes de transmission, non couverts par l'un des groupes Détails des systèmes de transmission non caractérisés par le milieu utilisé pour la transmission
H01Q 1/24 - SupportsMoyens de montage par association structurale avec d'autres équipements ou objets avec appareil récepteur
In some examples, a method of managing communication includes receiving, at an access point, communication from multiple user devices, aggregating the communication from the multiple user devices to form a first aggregated communication, transmitting the first aggregated communication to a mobile core network, aggregating, at the first mobile network core, the first aggregated communication with communication from a second access point to form a second aggregated communication, and transmitting the second aggregated communication to a macro core network.
In some examples, a data management method in a transportation vehicle includes receiving, at an access point, data from a plurality of sensor devices, aggregating the sensor data, transmitting the aggregated sensor data to a mobile core network located in the transportation vehicle, and caching, at the mobile core network, the aggregated sensor data.
H04W 4/40 - Services spécialement adaptés à des environnements, à des situations ou à des fins spécifiques pour les véhicules, p. ex. communication véhicule-piétons
H04W 4/38 - Services spécialement adaptés à des environnements, à des situations ou à des fins spécifiques pour la collecte d’informations de capteurs
In some examples, a method of communication management includes receiving, at a user device programmed to communicate with a macro core network via a baseband processing unit of the user device according to a first subscriber identity module (SIM), a traveling SIM (tSIM), receiving, at the user device, an instruction to initiate the tSIM, responsive to the instruction, programming, on the user device, a second SIM based on the tSIM, the second SIM including multiple profiles programmed according to the programming, wherein the multiple profiles control communication of the user device via the baseband processing unit, and communicating with a mobile core network via the baseband processing unit according to the second SIM.
H04W 8/18 - Traitement de données utilisateur ou abonné, p. ex. services faisant l'objet d'un abonnement, préférences utilisateur ou profils utilisateurTransfert de données utilisateur ou abonné
H04W 8/20 - Transfert de données utilisateur ou abonné
H04W 48/02 - Restriction d'accès effectuée dans des conditions spécifiques
A first wireless network slice executes a first slice input and generates a first slice output. The first slice transfers the first slice output to a second wireless network slice. The second slice receives and authorizes the first slice output and transfers a first acknowledgement to the first slice. The first slice receives the first acknowledgement and responsively uses the first slice output to deliver a data communication service. The second slice executes a second slice input and generates a second slice output. The second slice transfers the second slice output to the first slice. The first slice receives and authorizes the second slice output and transfers a second acknowledgement to the second slice. The second slice receives the second acknowledgement and responsively uses the second slice output to deliver the data communication service.
H04L 41/5041 - Gestion des services réseau, p. ex. en assurant une bonne réalisation du service conformément aux accords caractérisée par la relation temporelle entre la création et le déploiement d’un service
H04L 5/00 - Dispositions destinées à permettre l'usage multiple de la voie de transmission
H04L 41/40 - Dispositions pour la maintenance, l’administration ou la gestion des réseaux de commutation de données, p. ex. des réseaux de commutation de paquets en utilisant la virtualisation des fonctions réseau ou ressources, p. ex. entités SDN ou NFV
In some examples, a mobile core network is implemented in a movable platform. The mobile core network includes a user plane function (UPF), a mobility management function (AMF), and a session management function (SMF). The mobile core network is configured to authenticate a user device located on the movable platform into first or second states, the first state providing local access on the movable platform, and the second state providing local access on the movable platform and access to a macro core network via the mobile core network.
The technology disclosed herein relates to providing sector management utilizing a multi-band antenna system. The disclosed multi-band antenna system can combine multiple sets of antenna elements for transmitting on a plurality of different frequency bands. A location or a utilization corresponding to one or more UEs attached to a cell provided by a first set of antenna elements of the multi-band antenna system is initially detected. Based on the detecting, an action is performed. The action comprises one or more of: implementing carrier aggregation for a UE of the one or more UEs; dynamically adjusting power provided to the first set of antenna elements; or providing, by a non-multi-band antenna system collocated with the multi-band antenna system, multiple individual cells to the one or more UEs.
H04B 1/00 - Détails des systèmes de transmission, non couverts par l'un des groupes Détails des systèmes de transmission non caractérisés par le milieu utilisé pour la transmission
H01Q 1/24 - SupportsMoyens de montage par association structurale avec d'autres équipements ou objets avec appareil récepteur
A wireless communication network selects a relay slice and a network slice for a user communication device. The wireless communication network transfers network signaling for the user communication device to the relay slice and to the network slice. The relay slice exchanges user data for the user communication device with the network slice in response to the network signaling. The network slice exchanges the user data for the user communication device with the relay slice in response to the network signaling.
A system and method for enabling fine-grained access to enterprise applications in an enterprise network. The method includes receiving, via a discovery application running on a computing device, user input from a user, where the user input identifies at least one of an application name, a server name, or an Internet Protocol (IP) address associated with a computing resource for accessing an enterprise application; comparing, via the discovery application, the user input to application information stored in a database accessible by the discovery application; sending, via the discovery application, a message to the user in response to determining a match between the user input and the application information, where the message identifies a membership group containing the computing resource for accessing the enterprise application; and enabling the user to access the membership group using the computing resource when the user is a member of the membership group.
Systems, methods, and devices are provided for adjusting the IMS APN/P-GW for a roaming wireless device. Methods include receiving an attach request for data services from a roaming wireless device at an IMS APN/P-GW of a visited network. Methods further include obtaining the home IMS APN/P-GW for the home network for the roaming wireless device and adjusting the IMS APN/P-GW for the roaming mobile to the IMS APN/P-GW of the visited network.
H04W 80/10 - Protocoles de couche supérieure adaptés à la gestion de sessions, p. ex. protocole d'initiation de session [SIP Session Initiation Protocol]
