Object tracking using sensors that harvest energy from radio frequency (RF) signals described. The sensor may harvest energy from signals absorbed by a metalized layer of a sensor. The energy may energize a microcontroller and facilitate the broadcast of another RF signal. Additionally, the capture and communication of broadcasted RF signals is described.
In various embodiments, machine learning-based custom content generation for video streaming content systems and applications is provided. One or more of the embodiments described herein, among other things, provide for a machine learning/generative artificial intelligence (GAI)-based custom video generator model that may be used to synthesize targeted video streaming content (e.g., in real-time), based at least in part on user profile data from a user profile associated with a target user, and content data comprising an indication of one or more video content objectives directed at the target user. In some embodiments, a custom video content generator as disclosed herein may produce one or more prompts based on a set of content data and the user profile data, and apply the prompts to the video generator model to generate targeted video data that may be streamed to user equipment for presentation to the target user.
H04N 21/80 - Génération ou traitement de contenu ou de données additionnelles par un créateur de contenu, indépendamment du processus de distributionContenu en soi
Systems and methods for machine learning-based contextual customization of on-demand video streaming content are provided. A video context adaption engine may adjust one or more elements of video content data based on selected context profiles. A context profile may represent a set of characteristics that defines circumstances and/or features that form the setting for events, scenes, dialogue, actions, and other plot devices appearing in a work of video content. The video content data may be input as a prompt to a generative artificial intelligence (AI) machine learning model that outputs customized video content data that comprises an update or modification to one or more elements of content within the video content data based on the selected context profile(s). The customized video content data may then be served to a client application for presentation on user equipment.
Systems and methods are provided for improved use of unstructured supplementary service data (USSD) by subscribers. A subscriber request via USSD is received. A verification message is sent to the subscriber. A subscriber response to the verification message is received. Whether the subscriber request is verified is determined based on the subscriber response. The subscriber request may be approved or terminated based on the determination. In verifying a subscriber USSD request by determining whether the subscriber response is verified prior to fulfillment of the subscriber request, a more secure network environment may result.
H04W 4/14 - Services d'envoi de messages courts, p. ex. SMS ou données peu structurées de services supplémentaires [USSD]
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
5.
VARIABLE CONFIGURATIONS FOR UTILIZING NON-CONTIGUOUS SPECTRUM
Embodiments of the present disclosure are directed to optimizing the use of non-contiguous spectrum by using variable radio configurations depending on the radio environment and UE capabilities. If the radio environment is favorable, such as when interference or near-far effect is low, then then a UE can utilize both blocks of non-contiguous spectrum with an intervening portion blanked. If the radio environment is unfavorable, such as when interference or near-far effect is negatively impacting a UE, and the UE is capable of intra-band carrier aggregation, then the UE can be separately allocated the non-contiguous blocks of spectrum for use with a carrier aggregation session; else, if the UE is not capable of intra-band carrier aggregation, then the UE will be allocated only one of the non-contiguous blocks of spectrum.
H04W 72/0453 - Ressources du domaine fréquentiel, p. ex. porteuses dans des AMDF [FDMA]
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]
H04W 72/51 - Critères d’affectation ou de planification des ressources sans fil sur la base des propriétés du terminal ou du dispositif
H04W 72/541 - Critères d’affectation ou de planification des ressources sans fil sur la base de critères de qualité en utilisant le niveau d’interférence
6.
SESSION BINDING CONTROL IN WIRELESS COMMUNICATION NETWORKS
Various embodiments include a wireless communication network that comprises network circuitry. The network circuitry executes a policy controller, session controller, and binding data store. The policy controller detects a session binding request failure to a binding data store and indicates a retry timer to the session controller that manages a session for a wireless user device. The policy controller provides network policies to the session controller for the session of the wireless user device. The policy controller receives a policy update request from the session controller in response to expiration of the retry timer. The policy controller transfers a session binding request to the binding data store. The binding data store receives the session binding request and stores a session binding that associates the policy controller and the wireless user device.
Various embodiments include a wireless communication network that comprises network circuitry. The network circuitry executes a policy controller, session controller, and binding data store. The policy controller detects a stale session condition for a wireless user device and transfers a policy update request to the session controller for a session associated with the user device. The policy controller receives a message from the session controller that indicates the session associated with the user device does not exist. The policy controller deletes session data for the user device in response to the message and directs the binding data store to delete session binding data associated with the user device. The binding data store receives the direction from the policy controller, deletes the session binding data, and transfers an indication that the session binding data is deleted to the policy controller. The policy controller receives the indication from the binding data store.
Aspects herein provide methods and systems for utilizing a Rydberg sensor radio system, implemented as either an active antenna radio system or a passive antenna radio system. In these aspects, receiver portions of the active or passive system are replaced with a Rydberg sensor, which detects a modulated signal corresponding to radio frequency (RF) carrier signals. A laser wavelength in the Rydberg sensor may be selected to correspond to an RF operating frequency, and its orientation can be adjusted to align with a polarization of an arriving electromagnetic field. The Rydberg sensor can extract an in-phase component and a quadrature-phase component of the modulated signal. In active antenna radio system implementations, duplexers and filters can be removed to enable dedicated transmitter and receiver paths, while in passive antenna radio system aspects, the detected modulated signal is provided to the base station via an optical fiber.
G01R 29/08 - Mesure des caractéristiques du champ électromagnétique
H03C 7/04 - Modulation d'ondes électromagnétiques dans des lignes de transmission, des guides d'ondes, des résonateurs à cavité ou des champs de radiation des antennes la polarisation des ondes transmises étant modulée
In various embodiments, machine learning-based customization for video stream content delivery systems and applications are provided. In some embodiments, a machine learning model-based content customization engine may modify in real-time how user-selected elements of content are presented at the user's equipment (UE). A request for video content from a UE may include user content selection data and user customization data. The user content selection data is used to initiate streaming of a selected title of video content from a content server, and the user customization data is used as the basis to modify selected elements of streaming video content prior to display by the UE. Video content data from the content server and user customization data may be input to a generative artificial intelligence (GAI) model that outputs customized video content data where one or more elements of content are modified based on the user customization data.
H04N 21/234 - Traitement de flux vidéo élémentaires, p. ex. raccordement de flux vidéo ou transformation de graphes de scènes du flux vidéo codé
H04N 21/222 - Serveurs secondaires, p. ex. serveur proxy ou tête de réseau de télévision par câble
H04N 21/239 - Interfaçage de la voie montante du réseau de transmission, p. ex. établissement de priorité des requêtes de clients
H04N 21/25 - Opérations de gestion réalisées par le serveur pour faciliter la distribution de contenu ou administrer des données liées aux utilisateurs finaux ou aux dispositifs clients, p. ex. authentification des utilisateurs finaux ou des dispositifs clients ou apprentissage des préférences des utilisateurs pour recommander des films
H04N 21/2668 - Création d'un canal pour un groupe dédié d'utilisateurs finaux, p. ex. en insérant des publicités ciblées dans un flux vidéo en fonction des profils des utilisateurs finaux
10.
DYNAMICALLY ADJUSTING AN APPLICATION DEMAND PROFILE DURING SLICE FALLBACK
Systems and methods for dynamically adjusting an application demand profile during slice fallback are provided. In some aspects, an attribute quality table for an application of a UE may be received. The attribute quality table determines a demand profile for the application on a 5G SA network. A network slice may be allocated based on the demand profile. When the UE falls back from the 5G SA network to a 5G NSA network or an LTE network, a negotiation utilizing the attribute quality table, current RF conditions, and the QoS capabilities of the 5G NSA network or the EPC of the LTE network determines an optimal combination of network resources that provides the highest quality user experience. In some aspects, the application adjusts, in real-time, the demand profile that best meets the available resources of the 5G NSA network or the EPC of the LTE network.
At a high level, the technology disclosed herein relates to dynamic Radio Resource Partitioning (RRP). In embodiments, radio frequency (RF) coverage data for one or more Fixed Wireless Access (FWA) devices (or other devices) may be received. The RF coverage data may correspond to one or more of reported channel state information feedback (e.g., Channel Quality Indicator (CQI)) from Enhanced Mobile Broadband (eMBB) user devices, particular identifiers (e.g., Service Profile Identifier (SPID)), slicing data, etc., or one or more combinations thereof. A threshold for the FWA device may be determined based on historical eMBB resource data for a particular access point. If particular RF coverage data is below the threshold, the FWA device may be blocked from RRP. If the RF coverage data is above the threshold, the FWA device may be included for RRP.
A method of testing software executing on computer systems. The method comprises executing a plurality of test instructions associated with a test job by a testing application on the computer system on which the software executes; capturing information about a container associated with the software by the testing application, wherein the information comprises a memory allocation associated with the container, a memory consumed by the container, a central processing unit (CPU) utilization allocation, a CPU allocation consumed, an internet protocol (IP) addresses assigned to the container; determining a score by a test validation application based on the information about the container, on test results, and on a scoring policy defined by a test case suite, wherein the scoring policy defines scoring based in part on a type of the container; based on the scores, and taking action by the action engine in the computer system on which the software executes.
A method comprises receiving a first call from a user device operated by an emergency personnel, receiving a personal identification number associated with the emergency personnel from the user device, validating the personal identification number by verifying that the personal identification number is stored at a data store in association with an active account, wherein the active account is associated with the emergency personnel, transmitting a first prompt for voice verification registration to the user device, receiving a response from the user device to perform the voice verification registration in response to the first prompt, and either performing voice verification with the user using the user device or transmitting a prompt for a requested destination to the user device based on the response.
H04M 11/04 - Systèmes de communication téléphonique spécialement adaptés pour être combinés avec d'autres systèmes électriques avec systèmes d’alarme, p. ex. systèmes d’alarme d'incendie, de police ou systèmes antivol
14.
MESSAGE DELIVERY TO WIRELESS USER DEVICES USING LEARNED RETRANSMISSION TIME IN WIRELESS COMMUNICATION NETWORKS
Various embodiments include a wireless communication network that comprises a control plane. The control plane receives a power saving mode entry message from a wireless user device. The control plane indicates a current power saving mode timer to the wireless user device. The control plane determines an adjustment time based on an amount of time elapsed between an initial power saving mode timer and a power saving mode exit message associated with the wireless user device. The control plane receives a message forwarding request for the wireless user device from a messaging server before the current power saving mode timer has expired. The control plane determines a retransmission time based on an amount of time remaining on the current power saving mode timer and the adjustment time. The control plane directs the messaging server to retransmit the message forwarding request at the retransmission time.
H04L 1/1867 - Dispositions spécialement adaptées au point d’émission
H04W 4/14 - Services d'envoi de messages courts, p. ex. SMS ou données peu structurées de services supplémentaires [USSD]
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
15.
Methods and Systems to Provide Emergency Telecommunications Services to Emergency Personnel Using Artificial Intelligence Based Authentication
A method comprising obtaining, using an artificial intelligence model, a trust parameter and a confidence score based on the device identifier of a user device and an access history of a user, wherein the trust parameter comprises a predicted value indicating a level of trust associated with the user device, and wherein the confidence score indicates a confidence level of the trust parameter, an authentication parameter indicating a permitted dynamic authentication for the user device based on an authentication rule, wherein the authentication rule comprises one or more conditions based on a comparison of at least one of the trust parameter or confidence score with a preset threshold, determining an authentication parameter indicating a permitted dynamic authentication for the user device based on an authentication rule, and transmitting an authentication prompt to the user device to provide the abbreviated verification credential to authenticate with the emergency telecommunications service system.
H04W 4/90 - Services pour gérer les situations d’urgence ou dangereuses, p. ex. systèmes d’alerte aux séismes et aux tsunamis
G10L 17/24 - Procédures interactivesInterfaces homme-machine l’utilisateur étant incité à prononcer un mot de passe ou une phrase prédéfinie
H04M 11/04 - Systèmes de communication téléphonique spécialement adaptés pour être combinés avec d'autres systèmes électriques avec systèmes d’alarme, p. ex. systèmes d’alarme d'incendie, de police ou systèmes antivol
16.
EXTENDED REALITY AS A SERVICE UTILIZING A WIRELESS TELECOMMUNICATION NETWORK
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. An extended reality (XR) device displays virtual viewing content of a live event based on spatial data received over a wireless communications network. The XR device determines a virtual position within a virtual environment represented by the spatial data and displays a virtual view of the live event based on that position. The source information received by the XR device enables presentation of one of multiple available virtual views. The virtual position may be determined using local sensor input, and the virtual view may be updated in real time based on device movement or user interaction.
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
17.
SHORT MESSAGE SERVICE (SMS) OVER NON-ACCESS STATUM (NAS) FALLBACK IN WIRELESS COMMUNICATION NETWORK
Various embodiments include a wireless communication network that comprises a control plane and a user plane. The user plane supports a multimedia bearer for a wireless user device. In response to multimedia bearer failure for the user device, the control plane registers the wireless user device for control plane messaging. The control plane exchanges text messages with the user device over a signaling link of the control plane. In response to establishment of the multimedia bearer for the wireless user device, the control plane deregisters the wireless user device for control plane messaging. The control plane directs the wireless user device to register with a multimedia system for service over the multimedia bearer.
At a high level, the technology disclosed herein relates to multi-non-terrestrial device coordination for enhanced antenna array(s). In embodiments, an anchor non-terrestrial device (e.g., a satellite), capable of communicating with a user device, may identify a second non-terrestrial device. Based on identifying the second non-terrestrial device, the anchor non-terrestrial device may establish a link (e.g., a high speed laser link) with the second non-terrestrial device for receiving time and frequency data from the second non-terrestrial device, the time and frequency data being associated with the second non-terrestrial device and the user device. The anchor non-terrestrial device may perform decoding operations on the time and frequency data for the generation of a synchronized antenna array uplink for the user device. In embodiments, a data packet received from the user device via the synchronized antenna array uplink may be transmitted.
At a high level, the technology disclosed herein relates to network node anomaly detection using one or more network node anomaly detection machine learning models. In embodiments, Key Performance Indicator associated with voice call establishment (e.g., for Voice over New Radio, Evolved Packet System Fallback, etc.) may be received. Key Performance Indicator of particular network node data associated with the voice call establishment may be provided to the one or more network node anomaly detection machine learning models (e.g., a density function machine learning model) for anomaly detection. In embodiments, the particular network node data may correspond to control plane nodes, such as an Access and Mobility Management Function (AMF), User Plane Function (UPF), Policy Control Function (PCF), Session Management Function (SMF), etc. An indication of the control plane node identified based on time and location correlation via the anomaly detection may be provided.
H04W 24/02 - Dispositions pour optimiser l'état de fonctionnement
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]
H04L 65/1045 - Mandataires, p. ex. pour le protocole d'initiation de session [SIP]
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
20.
DEVICE CANDIDATE IDENTIFICATION FOR CONTROL SIGNAL BEAMFORMING
Systems and methods are provided for selecting user equipment (UE) candidates for control signaling using beamformed signals. A spectral efficiency is determined for a first set of signals between a first UE and a base station in a telecommunications network. It is then determined that the spectral efficiency of the first set of signals is above a threshold. Based on the spectral efficiency of the first set of signals being above the threshold, beamforming is utilized for a set of control signals between the first UE and the base station.
H04W 72/23 - Canaux de commande ou signalisation pour la gestion des ressources dans le sens descendant de la liaison sans fil, c.-à-d. en direction du terminal
H04B 7/0452 - Systèmes MIMO à plusieurs utilisateurs
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
H04W 72/121 - Planification du trafic sans fil pour les groupes de terminaux ou d’utilisateurs
Aspects provided herein provide methods and systems for utilizing a Rydberg sensor active antenna radio system. Initially, receiver portions of the active antenna radio system are replaced with a Rydberg sensor. The Rydberg sensor can be utilized to detect a modulated signal corresponding to radio frequency (RF) carrier signals. A wavelength of a laser in the Rydberg sensor may be selected to correspond to an RF operating frequency. Moreover, an orientation of the Rydberg sensor can be adjusted to correspond to a polarization of an arriving electromagnetic field. An in-phase component and a quadrature-phase component of the modulated signal can be extracted by the Rydberg sensor. In some implementations, duplexers and filters can be removed from the active antenna radio system for dedicated transmitter and receiver paths.
Aspects provided herein provide methods and systems for utilizing a Rydberg sensor passive antenna radio system. Initially, receiver portions of a passive antenna are replaced with a Rydberg sensor. Radio frequency (RF) carrier signals are received at the Rydberg sensor. A modulated signal corresponding to the RF carrier signals is provided from the Rydberg sensor to the base station via an optical fiber.
Programmable network devices configured to perform various packet processing functions are further configured to use IPsec to secure control and data packets associated with data sessions traversing the UPF. Field-programmable gate arrays (FPGAs) and/or graphics processing units (GPUs) coupled with network interfaces are configured to perform user plane functions and secure data packet within a compact and modular hardware unit to minimize excessive communication while maintaining control and user plane separation (CUPS).
Systems and methods for roaming user equipment (UE) management services for wireless communications networks are provided. In some embodiments, a roaming UE may be triggered to initiate a PLMN search based on leveraging geolocation based technology that determines when a roaming UE presently attached to a base station has entered a geographical area where coverage from a terrestrial base station may be available. The base station may track the location of the roaming UE, and correlate the location of the roaming UE to a coverage bin of the terrestrial coverage heat map. If the roaming UE is located within a coverage bin that is flagged as having terrestrial coverage available, the base station may perform one or more operations to trigger the UE to proceed to initiate a PLMN search, and perform an attach procedure to a base station having an identified higher priority PLMN.
Methods for landing encrypted data in a column, requesting access to decrypted data, and storing multiple data sets in a single column with different encryption schemes based on utilizing cryptographic key and algorithm identifiers in ciphertext headers. The methods comprise an application of a storage system receiving an access request to encrypt data to or decrypt data from (respectively) a database of the storage system. Next, the application determines whether the external source is permitted to encrypt to or decrypt from the database based on external source identifiers and permissions specified in an active directory of the storage system. When the external source is authenticated (i.e., permitted), performing the appropriate steps to write encrypted data by adding to ciphertext headers cryptographic key and algorithm identifiers or read decrypted data by obtaining cryptographic key and algorithm identifiers from ciphertext headers.
H04L 9/06 - Dispositions pour les communications secrètes ou protégéesProtocoles réseaux de sécurité l'appareil de chiffrement utilisant des registres à décalage ou des mémoires pour le codage par blocs, p. ex. système DES
G06F 21/62 - Protection de l’accès à des données via une plate-forme, p. ex. par clés ou règles de contrôle de l’accès
Systems and methods are provided for integrating P-CSCF with ENUM for enhanced network functionality. An example method may include receiving, at a proxy server, a request to make a connection from a wireless device to a destination device. The method may further include querying, directly by the proxy server, a database for a URI of the destination device, wherein the database comprises mappings of phone numbers to URIs.
Systems and methods are provided for dynamically activating and deactivating hybrid automatic repeat request (HARQ). The system includes a base station, user equipment (UE), and a processor. The method provides for determining a first signal quality measurement for the signal quality between the base station and the UE. The first signal quality measurement is then compared with a predetermined signal quality threshold. If the first signal quality measurement is below the predetermined signal quality threshold the UE is directed to activate HARQ. If the first signal quality measurement is above the predetermined signal quality threshold the UE is directed to deactivate HARQ if HARQ is currently active.
The technologies discussed herein relate to a biometrics system comprising one or more processors, computer storage memory having computer-executable instructions, surgically implantable devices, and wearables (e.g., an apparel item configured for an upper torso, an apparel item configured for a lower torso, a sock, a headband, other types of wearables, or one or more combinations thereof) having one or more biometric sensors (e.g., a heart rate sensor, a sweat sensor, a glucose sensor, other types of biometric sensors, or one or more combinations thereof) and one or more sensation devices (e.g., a plurality of visible light sources, a haptic feedback device, other types of sensation devices, or one or more combinations thereof). The wearables may also include one or more environmental sensors. The wearables emulate, transmogrify, or enhance one or more human senses using the one or more sensation devices based on biometric data or environmental data received.
Embodiments of the present disclosure are directed to systems and methods for enhancing connections between user equipment (UE) and a base station. Particularly in order to mitigate the poor angular spread of higher frequency signaling, a second set of signals may be transmitted to a UE using a different polarization than a first set of signals. Depending on one or UE-specific parameters, the second set of signals may comprise a different data stream than a first set of signals to facilitate spatial multiplexing, or the second set of signals may comprise the same data stream as the first set of signals to facilitate spatial diversity.
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
Methods for mitigating the effects of an atmospheric-based interference event on the propagation of a radio frequency signal are provided. A wireless communication network can determine that tropospheric ducting interference is occurring, causing radio frequencies to travel much further than anticipated. In response to the determination of tropospheric ducting interference, the system dynamically adjusts the special subframe configurations within a victim base station. The system switches from a high downlink/uplink capacity special subframe configuration to a special subframe configuration designed to limit the tropospheric ducting interference. This switch increases the guard period between transmissions, thereby reducing signal overlap and mitigating interference from tropospheric ducting.
H04L 5/00 - Dispositions destinées à permettre l'usage multiple de la voie de transmission
H04W 72/542 - Critères d’affectation ou de planification des ressources sans fil sur la base de critères de qualité en utilisant la qualité mesurée ou perçue
31.
COORDINATED FREQUENCY SHARING BETWEEN SATELLITE AND TERRESTRIAL RADIO ACCESS NETWORKS
Embodiments of the present disclosure are directed to systems and methods for avoiding or mitigating co-channel interference between terrestrial and satellite radio access networks (RANs). The systems and methods comprise one or more terrestrial base stations and one or more satellite base stations, each configured to transmit signals across overlapping frequency bands. The system further comprises applying an orthogonal spread spectrum code to the signals transmitted by the satellite base station, while the terrestrial base station transmits without such coding.
Systems, methods, and computer-readable media are provided for facilitating dynamic spectrum allocation in wireless communication networks. Signal-related information is received from one or more user devices, and based on this information, a configuration for allocating wireless resources is determined. The allocation may involve adjusting communication parameters such as subcarrier spacing or resource block assignments in response to varying network or device conditions. Updated allocation information is communicated to the user devices through control signaling.
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for transferring files securely data are disclosed. In one aspect, a method includes the actions of receiving, by a content management application, a file and a request to provide the file to the second computing device. The actions further include providing, by the content management application and to the first computing device, the link to the file and the password to access the link. The actions further include providing, to the first computing device via the MSRP tunnel, the link to the file and the password to access the link. The actions further include receiving, by the content management application, a request for the file, the link to the file, and the password to access the link. The actions further include providing, to the second computing device, the file.
Methods for optimizing wireless backhaul resources are provided. The wired backhaul connection from a RAN node to the core wireless communication network may be damaged or otherwise unavailable during an emergency or disaster relief scenario. In such scenarios, a wireless backhaul with limited bandwidth may be used to connect the RAN node to the core wireless communication network. In response to a wired backhaul failure in an emergency or disaster relief scenario, wireless backhaul resources are optimized to ensure crucial voice data is transferred from the base station to the core network by adjusting codec types to those with a lower bitrate, such that more users can be accommodated simultaneously.
H04W 24/04 - Configurations pour maintenir l'état de fonctionnement
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]
A communication system for inventory management via wireless monitoring comprises radio frequency identification (RFID) tags configured to operate in a frequency band that is unlicensed in a first geographic region and is licensed in a second geographic region. The communication system also comprises a RFID reader designed according to operational parameters of the first geographic region. The RFID reader is configured to read, in the second geographic region, data from the RFID tags via radio frequency (RF) signal transmissions in the frequency band at a power level that exceeds the operational parameters of the first geographic region. The RFID reader comprises a RF circuit, an antenna, and a controller. The controller is configured to program the RF circuit with second operational parameters, which cause the RFID reader to operate outside of requirements for operation in the unlicensed frequency spectrum in the first geographic region as defined by the operational parameters.
Aspects herein provide systems, devices, methods, and media for disrupting malicious traffic within a telecommunication network. In aspects, various mechanisms are deployed by a resolver server to identity malicious traffic and thwart malicious traffic.
Methods and systems are provided for modifying a downlink configuration of a user device in a cell to mitigate interference. The methods and systems assign, via a first cell site, a first bandwidth to the user device within a serviceable area of the first cell site. The first bandwidth is blanked such that the user device receives data on a second bandwidth that is a smaller bandwidth than the first bandwidth. In addition, the methods and systems determine that the first bandwidth has at least one interference measurement above a threshold. Upon determining that the at least one interference measurement is above the threshold, the methods and systems modify the downlink configuration of the user device to a third bandwidth. The third bandwidth is a smaller bandwidth than the second bandwidth.
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
H04W 24/10 - Planification des comptes-rendus de mesures
H04W 72/0453 - Ressources du domaine fréquentiel, p. ex. porteuses dans des AMDF [FDMA]
H04W 72/23 - Canaux de commande ou signalisation pour la gestion des ressources dans le sens descendant de la liaison sans fil, c.-à-d. en direction du terminal
38.
Methods and Systems for Delivering Secure Services or Content to Non-Subscriber Identity Module (SIM)-Based Endpoint Clients
A method comprising receiving incoming data destined to a line associated with a user, determining a security parameter associated with the incoming data based on at least one of a source of the incoming data or a content of the incoming data, in which the security parameter indicates a security level of the incoming data, storing, in a second data store accessible to the data application, the incoming data in association with the security parameter, receiving a sync request for the incoming data comprising an access token indicating an authentication type associated with a second factor of authentication used to authenticate the client with an authorization server, transmitting the incoming data to the client when the client is permitted to retrieve the incoming data from a data store.
Systems, methods, and devices are disclosed herein for sub-segmenting UDR segments in a 4G or 5G core network. Sub-segmentation of the UDR supports faster call flows, resource distribution flexibility, and regional promotion deployment. A wireless communication network in accordance with the present disclosure includes a UDR made up of two or more database segments, a lookup database that stores information indicating where each subscriber profile is stored, and at least one routing function. Each database segment of the UDR is further segmented into two or more subsegments. The at least one routing function is configured to receive requests for subscriber information, obtain the subscriber information from the UDR segment and subsegment identified by the lookup database, and respond to the request with the subscriber information.
A haptic healthcare patient garment. The garment comprises a cloth an inflatable bladder, a radio transceiver, a plurality of sensors, a display, a processor communicatively coupled to the inflatable bladder, to the radio transceiver, to the sensors, and to the display, a memory communicatively coupled to the processor, and an application stored in the non-transitory memory that, when executed by the processor receives vital signs indications from the sensors, presents a plurality of vital signs values on the display, receives a command via the radio transceiver to provide a hug to a patient wearing the haptic healthcare patient garment, in response to receiving the command to provide a hug, causes the inflatable bladder to inflate, and causes the inflatable bladder to deflate, whereby the patient is given a hug by the garment from a remote well-wisher.
A61B 5/00 - Mesure servant à établir un diagnostic Identification des individus
A41D 13/12 - Blouses de chirurgien ou vêtements pour malades
A61B 5/0205 - Évaluation simultanée de l'état cardio-vasculaire et de l'état d'autres parties du corps, p. ex. de l'état cardiaque et respiratoire
A61B 5/145 - Mesure des caractéristiques du sang in vivo, p. ex. de la concentration des gaz dans le sang ou de la valeur du pH du sang
G16H 20/30 - TIC spécialement adaptées aux thérapies ou aux plans d’amélioration de la santé, p. ex. pour manier les prescriptions, orienter la thérapie ou surveiller l’observance par les patients concernant des thérapies ou des activités physiques, p. ex. la physiothérapie, l’acupression ou les exercices
41.
Systems and methods for implementing a zero trust model in connection with 5G networks
Methods and systems are provided for assigning one or more Virtual Network Function (VNF) instances, or slices, to devices, and for monitoring each change of state associated with the slices. Embodiments include applying an Advanced Security Control (ASC) protocol to verify devices for each request for access to a slice, to establish a zero trust measurement with respect to a network, such as a 5G network. In embodiments, a blockchain is associated with each slice and stored in a distributed ledger, for example to allow rapid access to network slice and device information if a slice will be re-instantiated.
In some examples, a source wireless communication device generates a smart contract output. The source wireless communication device selects a target smart contract in a target wireless communication device. The source wireless communication device wirelessly transfers the smart contract output to the target wireless communication device. The target wireless communication device processes the smart contract output with the selected target smart contract.
A data communication system serves a wireless communication device using a wireless network slice. The data communication system determines one or more radio signal levels for the wireless communication device while the wireless network slice is serving the wireless communication device. The data communication system modifies the wireless network slice based on the one or more radio signal levels for the wireless communication device. The data communication system serves a wireless communication device using the modified wireless network slice.
H04W 48/18 - Sélection d'un réseau ou d'un service de télécommunications
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
Aspects herein provide systems, devices, methods, and media for capturing, monitoring and thwarting malicious traffic within a telecommunication network. In aspects, a plurality of decoy nodes are deployed throughout the telecommunications network, wherein the decoy nodes provide realistic outputs and interfaces in response to input and user interactions. Interactions may be intelligently classified. Depending on the classifications, notifications may be communicated and/or action may be initiated the impeded malicious traffic and/or cyber threat actors in near real-time with the interactions.
A method of adapting a communication network to improve communication quality. The method comprises, for each of a plurality of subscribers, analyzing call detail records (CDRs) of the subscriber by an application executing on a computer system to identify negative voice call events; for each negative voice call event, associating a location of a subscriber communication device at the time of the negative voice call event by the application to the negative voice call event; for each of the plurality of subscribers, determining a subscriber-centric voice call metric for the subscriber by the application based on a count of negative voice call events of the subscriber for each of a plurality of one hour intervals; for each subscriber, determining an average subscriber-centric voice call metric by the application by averaging the subscriber-centric metric values determined for each of the plurality of one hour intervals; and taking action accordingly.
The present disclosure is directed to systems and methods for improved protocol session handover. By providing the selecting NF with a user plane NF identifier associated with the first session, the selecting NF can select the user plane NF associated with the first session in establishing the second session, resulting in a more optimal network in the event of protocol session handover.
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.).
Embodiments of the present disclosure are directed to systems and methods for allocating different network slices to airborne frequency bands. More particularly, in aspects set forth herein, systems and methods are directed to a network slicing paradigm that could be used to enable the provision of service to UEs in the air. By creating virtual partitions in the network, network slicing allows mobile operators to customize treatment for specific traffic flows or applications, including those from airborne UEs. This enables tailored services, such as prioritizing low-latency connections for critical flight communications or allocating enhanced resources for data-intensive applications, thereby optimizing connectivity and performance for airborne UEs while minimizing power consumption.
A controller application is configured to determine content for a contextual user interface to be displayed at a client based on a page requested by the client, wherein the content includes a first plurality of cards of a first quantity, identify a segment associated with the client, wherein the segment comprises a grouping of different clients based on a shared characteristic between the plurality of different clients, filter the content to obtain filtered content based on the segment, wherein the filtered content includes a second plurality of cards of a second quantity, determine dynamic attributes that are to be obtained from one or more external sources in based on metadata of the second plurality of cards, receive the dynamic attributes from the external sources in a single pass, and transmit rendering parameters to the client for the client to render the contextual user interface based on the rendering parameters.
Embodiments of the present disclosure are directed to systems and methods for allocating asymmetric channel resources to a user equipment (UE). In order to prevent the inadvertent rejection of incompatible UEs, a base station indicates equal channel widths for the uplink and downlink and smaller initial bandwidth parts. Based on a determination that a particular UE supports asymmetric downlink and uplink channel allocations, a second bandwidth part can be allocated to the UE, making the total channel resources on one link unequal to the total channel resources on the other link.
Methods, media, and systems are provided for controlling cell site selection by a user device in a telecommunications network. A System Information Block (SIB) message (e.g., an SIB Type 1 message) is transmitted (e.g., by a cell site) for receipt by the user device for cell site selection. In some aspects, the SIB message is transmitted while the user device is camping on a serving cell of a base station other than the cell site. The SIB message comprises information that identifies a type of the cell site. The type of the cell site is a cell site other than a macro cell, such as a small cell for example. Upon selection of the cell site by the user device based on the SIB message and the type of the cell site, the user device is provided access to a telecommunications service.
H04W 36/04 - Resélection d'une couche de cellules dans des cellules multicouches
H04W 36/00 - Dispositions pour le transfert ou la resélection
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 48/12 - Distribution d'informations relatives aux restrictions d'accès ou aux accès, p. ex. distribution de données d'exploration utilisant un canal de commande descendant
H04W 72/044 - Affectation de ressources sans fil sur la base du type de ressources affectées
52.
RESOURCE ALLOCATION FOR PROVISIONING SYSTEMS IN WIRELESS COMMUNICATION NETWORKS
Various embodiments include a wireless communication network that comprises resource allocation circuitry. The resource allocation circuitry hosts a traffic forecasting machine learning model, a resource forecasting machine learning model, and a resource allocation machine learning model. The resource allocation circuitry obtains traffic data for a provisioning engine cluster and provides the traffic data to the traffic forecasting model. The resource allocation circuitry obtains an output that comprises a traffic prediction for the provisioning engine cluster and provides the prediction to the resource forecasting model. The resource allocation circuitry obtains an output that comprises a hardware requirement prediction for the provisioning engine cluster and provides the hardware requirement prediction to the resource allocation model. The resource allocation circuitry obtains an output that comprises a hardware allocation recommendation for the network provisioning engine cluster. The resource allocation circuitry allocates hardware resources to the cluster based on the hardware allocation recommendation.
H04W 72/52 - Critères d’affectation ou de planification des ressources sans fil sur la base des charges
H04W 72/543 - Critères d’affectation ou de planification des ressources sans fil sur la base de critères de qualité sur la base de la qualité demandée, p. ex. QdS [QoS]
Embodiments of the present disclosure are directed to systems and methods for allocating different network slices to airborne frequency bands. More particularly, in aspects set forth herein, systems and methods are directed to a network slicing paradigm that could be used to enable the provision of service to UEs in the air. By creating virtual partitions in the network, network slicing allows mobile operators to customize treatment for specific traffic flows or applications, including those from airborne UEs. This enables tailored services, such as prioritizing low-latency connections for critical flight communications or allocating enhanced resources for data-intensive applications, thereby optimizing connectivity and performance for airborne UEs while minimizing power consumption.
H04W 48/18 - Sélection d'un réseau ou d'un service de télécommunications
H04M 1/72484 - Interfaces utilisateur spécialement adaptées aux téléphones sans fil ou mobiles où les fonctions sont activées par la réception d’une démarche de communication
H04W 48/02 - Restriction d'accès effectuée dans des conditions spécifiques
54.
ASYMMETRIC RESOURCE ALLOCATION IN WIRELESS COMMUNICATION SYSTEMS
Embodiments of the present disclosure are directed to systems and methods for allocating asymmetric channel resources to a user equipment (UE). In order to prevent the inadvertent rejection of incompatible UEs, a base station indicates equal channel widths for the uplink and downlink and smaller initial bandwidth parts. Based on a determination that a particular UE supports asymmetric downlink and uplink channel allocations, a second bandwidth part can be allocated to the UE, making the total channel resources on one link unequal to the total channel resources on the other link.
Systems and methods are provided for mitigating undesirable service disruptions in a communications network. Based on a determination that an access failure rate exceeds a threshold, it may be determined that a particular service is degraded or that a requesting user device is not authorized to access the service. One or more mitigation protocols may be used to block subsequent attempts by the requesting user device, a set of user devices associated with the requesting user device, or an area associated with the requesting user device to request access to the service.
H04L 41/0654 - Gestion des fautes, des événements, des alarmes ou des notifications en utilisant la reprise sur incident de réseau
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
Embodiments of the present disclosure describe systems and methods for dynamic spectrum management and interference mitigation in mobile communications through a network of satellite base stations. Embodiments herein monitor communication traffic across a geographic area served by one or more satellite base stations. The monitoring of the traffic includes determining spectrum assignments for the terrestrial network within the geographic area. In response, the system dynamically adjusts a spectrum assignment to the one or more satellite base stations so the assigned spectrum reduces cross spectrum interference.
A method comprises generating a parent record in association with a project and a plurality of impacted nodes that are used to perform the project, in which the parent record comprises links to one or more child records associated with the project, generating a record in association with the project and a first impacted node, in which the child record comprises data describing a first task to be performed using the first impacted node and a first link to the parent record, detecting an update to the child record, updating the parent record based on the update to the child record.
In some examples, a communication system comprises network slices. The network slices exchange slice information. The network slices synchronize slice operations based on the exchanged slice information. The network slices perform the synchronized slice operations. The network slices provide a data communication service based on the performance of the synchronized slice operations.
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
Various embodiments relate to a system comprising access network circuitry. The access network circuitry wirelessly directs, over the primary cell, a user device to measure signal quality for secondary cells available for use in carrier aggregation. The access network circuitry compares the signal quality for each of the secondary cells to a signal quality threshold. The access network circuitry determines candidate secondary cells based on the secondary cells that exceeded the signal quality threshold. The access network circuitry ranks the candidate secondary cells based on their corresponding signal quality and one or more of the loading, resource block percent utilizations, and traffic pattern suitability for the candidate secondary cells. The access network circuitry wirelessly directs, over the primary cell, the wireless user device to utilize a highest ranked candidate secondary cell for use in the carrier aggregation.
Various embodiments include a wireless communication network that comprises provisioning circuitry. The provisioning circuitry converts customer facing services to network service attributes that define service provided to a user device on the network. The provisioning circuitry transfers a command to a network element to update existing service attributes stored in the device's subscriber profile using the network service attributes. The provisioning circuitry queries the network element to retrieve implemented service attributes from the subscriber profile. The provisioning circuitry provides the customer facing services, the network service attributes, and the implemented service attributes to a machine learning model trained to detect discrepancies between implemented service attributes and customer facing services. In response to detecting a discrepancy between the customer facing services and the implemented service attributes, the provisioning circuitry transfers an update to the network element to correct the discrepancy between the implemented service attributes and the customer facing services.
H04L 41/0806 - Réglages de configuration pour la configuration initiale ou l’approvisionnement, p. ex. prêt à l’emploi [plug-and-play]
H04L 41/16 - 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 l'apprentissage automatique ou l'intelligence artificielle
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
61.
Methods and Systems Automatically Implementing Resets in a Network Based on Network Impact and an Associated Time
An incident management system comprises a reset application and a network impact application. The network impact application is configured to determine a reset time at which to perform a reset at the network element based on a network impact rule, wherein the network impact rule indicates an optimal time to perform the reset at the network element based on a load at the network element at various times, and compare a network impact level of the incident at the network element with a network impact level of performing the reset at the network element. When the network impact level of the incident at the network element is less than the network impact level of performing the reset at the network element, the reset application is configured to determine a second reset to perform at the network element in an attempt to resolve the incident.
Methods provided herein include minimizing spectrum fragmentation associated with reduced capability (RedCap) devices. The method includes receiving, at an access node, a request for resources from a wireless device in a network and identifying the wireless device as a reduced capability (RedCap) device. The method further includes allocating a physical resource block (PRB) to the RedCap device based on the request, and scheduling the PRB at an edge of a spectrum bandwidth based on the identification.
H04W 72/1273 - Jumelage du trafic à la planification, p. ex. affectation planifiée ou multiplexage de flux de flux de données en liaison descendante
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
The technology disclosed herein relates to network messaging domain selection for the improvement of radio resources, bandwidth, and user device experiences. In embodiments, one or more particular queries can be transmitted (e.g., to a Home Subscriber Server) associated with a user device receiving or transmitting a message. For example, one of these particular queries (e.g., a Diameter Sh interface query) can include a request for particular location information (e.g., a cell identity associated with a base station, a radio access technology type, a public land mobile network identity) associated with the user device receiving or transmitting the message (e.g., a short message service). The technology discussed herein can determine whether the message is to be delivered via non-access stratum or internet protocol multimedia subsystem.
A system comprises a source communication device, a test device, and a receive communication device. The source communication device is configured to receive a device identifier (ID) of the test device; send a communication message request to the test device; receive a communication log comprising a pair identifier based on the communication message; send a testing instruction to the test device; receive a second communication log from the receive communication device; and correlate the device ID with the second device ID to obtain the wireless network parameters for the test device. The test device is configured to receive the communication message request; send a communication message responsive to receiving the communication message request to the receive communication device. The receive communication device is configured to create a communication log corresponding to the communication message; and send the communication log and the second communication log to the source communication device.
A method comprises determining, by an inventory application of an inventory system, one or more clusters of items based on a location of each of the items, in which a cluster of the one or more clusters comprises a subset of the items located within a distance from a centroid location, determining, by the inventory application, cluster data describing the cluster and the subset of items in the cluster, emitting, by an antenna, signals towards the cluster based on the centroid location, adjusting, by the inventory application, a reader device setting of the reader device based on the cluster data and predictive model, and receiving, by the reader device, the cluster-focused data from the tags coupled to the subset of total items included in the cluster.
An incident management system comprises a reset application. The reset application is configured to (i) determine to perform a reset operation at a network element in the radio access network based on an incident report describing an incident occurring at the network element, (ii) determine a reset to perform at the network element based on a predictive model, (iii) instruct performance of the reset at the network element, (iv) store a reset record describing the reset, a status of the network element before and after performing the reset, or a network impact level of the reset, (v) when the reset fails to resolve the incident, repeat steps (ii), (iii), and (iv) with a different reset based on the predictive model, and (vi) train the predictive model based on whether the reset failed to resolve the incident or successfully resolved the incident.
A system may be configured obtain, from a content data store coupled to the system, content based on at least one of a segment associated with a client or a rule applicable to the client, in which the content comprises one or more cards, generate initial parameters for presenting the content in a contextual user interface at the client, in which the initial parameters indicate a layout for presenting the one or more cards, transmit the content and the initial parameters for the contextual user interface to the client for the client to initiate rendering of the contextual user interface, obtain one or more dynamic attributes to be added to the content from one or more external sources, and generate rendering parameters for the contextual user interface based on the dynamic attributes.
A method of providing access to a blockchain to a third party. The method comprises receiving by a first application a request from the third party to read data from the blockchain, wherein the request identifies an item of data stored in the blockchain; sending by the first application a request to obtain a first encryption key that is operable to decrypt the item of data; receiving the item of data by the first application from a second application; decrypting the item of data by the first application using the first encryption key; identifying a first part and a second part of the item of data by the first application; encrypting the first part of the item of data by the first application using a second encryption key; and sending the encrypted first part of the item of data by the first application to the third party.
H04L 9/00 - Dispositions pour les communications secrètes ou protégéesProtocoles réseaux de sécurité
H04L 9/32 - Dispositions pour les communications secrètes ou protégéesProtocoles réseaux de sécurité comprenant des moyens pour vérifier l'identité ou l'autorisation d'un utilisateur du système
A radiation powered computation apparatus is disclosed. In one aspect, the apparatus includes a radiation source that is configured to emit radiation. The apparatus further includes a first layer that surrounds the radiation source and that includes a first plurality of transistors that are configured to be powered by the radiation. The apparatus further includes a second layer that surrounds the first layer and that includes a plurality of receptors that are configured to convert the radiation to power and a second plurality of transistors that receives the power and that are configured control the first plurality of transistors.
H01L 31/115 - Dispositifs sensibles au rayonnement d'ondes très courtes, p.ex. rayons X, rayons gamma ou rayonnement corpusculaire
G01T 1/24 - Mesure de l'intensité de radiation avec des détecteurs à semi-conducteurs
H01L 31/06 - Dispositifs à semi-conducteurs sensibles aux rayons infrarouges, à la lumière, au rayonnement électromagnétique d'ondes plus courtes, ou au rayonnement corpusculaire, et spécialement adaptés, soit comme convertisseurs de l'énergie dudit rayonnement e; Procédés ou appareils spécialement adaptés à la fabrication ou au traitement de ces dispositifs ou de leurs parties constitutives; Leurs détails adaptés comme dispositifs de conversion photovoltaïque [PV] caractérisés par au moins une barrière de potentiel ou une barrière de surface
70.
WIRELESS COMMUNICATION NETWORK SERVICE USING AN APPLICATION PROGRAMMING INTERFACE (API)
In some examples, a data system comprises a processing system, blockchain, and accounting system. The processing system provides Application Programming Interface (API) services in response to API calls. The blockchain stores API information that characterizes the API services. The accounting system generates a charge for the API services based on the API information in the blockchain.
H04L 9/32 - Dispositions pour les communications secrètes ou protégéesProtocoles réseaux de sécurité comprenant des moyens pour vérifier l'identité ou l'autorisation d'un utilisateur du système
H04L 9/00 - Dispositions pour les communications secrètes ou protégéesProtocoles réseaux de sécurité
Systems and methods are provided for managing VOLTE codecs for voice calls in wireless networks. An example method may include monitoring a signal quality metric of an originating wireless device during a voice call with a terminating wireless device. If it is determined that the signal quality metric drops below a threshold, the codec for the portion of the call between the originating wireless device and the media gateway is transitioned to an alternative codec, such as Enhance Voice Services, for example.
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for utilizing an on-device machine learning model are disclosed. In one aspect, a method includes the actions of receiving a model that is trained using machine learning and that is configured to determine a given cause of a given event associated with a computing device that is executing the application. The actions further include accessing device data. The actions further include accessing network data. The actions further include providing the device data, the network data, and data identifying an event associated with the computing device as an input to the model. The actions further include receiving, from the model, data indicating a cause of the event. The actions further include determining an action that remediates the cause of the event. The actions further include performing the action that remediates the cause of the event.
Systems and methods are provided for mitigating atmospheric ducting within a wireless telecommunication network. The disclosure includes determining the configuration of user equipment (UE) within the coverage area of a victim base station, which employs a primary cell operating with time domain duplexing (TDD) and a secondary cell operating with frequency domain duplexing (FDD). Subsequently, a scheduler associated with the victim base station directs uplink communications to be transmitted via the secondary cell, thereby isolating the primary cell during periods of interference.
H04L 5/00 - Dispositions destinées à permettre l'usage multiple de la voie de transmission
H04L 5/14 - Fonctionnement à double voie utilisant le même type de signal, c.-à-d. duplex
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
74.
Methods and Systems for Performance-Based Alarming and Resolution
A method for comprises determining an expected performance value of a network element in the radio access network based on a history of a key performance indicator describing the network element over a predefined period of time, the expected performance value comprising a permissible range or a threshold of the key performance indicator for the network element, obtaining a performance rule for the key performance indicator based on the expected performance value of the network element, inputting a current value of the key performance indicator into the performance rule to determine whether to alert an incident reporting application to generate a performance alarm based on the current value of the key performance indicator, and generating the performance alarm and a corresponding incident report based on the current value of the key performance indicator.
Various embodiments comprise a wireless communication network. The wireless communication network comprises access network circuitry. The access network circuitry generates feature vectors based on Key Performance Indicator (KPI) values associated with network conditions for an access network, wherein the access network comprises a network slice. The access network circuitry provides the feature vectors to a machine learning model trained to output values corresponding to slice parameters associated with the network slice. The access network circuitry configures the slice parameters of the network slice using the values output by the machine learning model. The access network circuitry serves a wireless user device over the network slice.
A method comprises performing, by a core access network element in a core network, a registration of a first client with the IMS core network based on an identifier of the first client and an access token associated with the first client, maintaining, by the core access network element, the registration of the first client with the IMS core network, receiving, by the core access network element, an access request from the first client, wherein the access request comprises the access token of the first client and the identifier of the first client, authenticating, by an authorization server, the access token in association with the first client, verifying, by an identity management server, a permission associated with the first client to use the access token to access the core network.
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for predicting a quality score for transcoded data are disclosed. In one aspect, a method includes the actions of receiving, from an originating device, a request to initiate an audio communication with a terminating device. The actions further include providing, for output, an indication that the originating device is configured to process the given audio data using a first codec and a second codec. The actions further include receiving data indicating a selection of the first codec. The actions further include determining that audio data received or to be received is transcoded from the second codec or another codec. The actions further include determining a likely MOS of audio output by the originating device from processing the transcoded audio data. The actions further include determining an action that is configured to increase the MOS of the audio.
G10L 25/60 - Techniques d'analyse de la parole ou de la voix qui ne se limitent pas à un seul des groupes spécialement adaptées pour un usage particulier pour comparaison ou différentiation pour mesurer la qualité des signaux de voix
G10L 25/69 - Techniques d'analyse de la parole ou de la voix qui ne se limitent pas à un seul des groupes spécialement adaptées pour un usage particulier pour l’évaluation de signaux de voix synthétiques ou décodés
H04L 65/1104 - Protocole d'initiation de session [SIP]
78.
WIRELESS NETWORK SLICE USAGE BASED ON RADIO SIGNAL LEVELS
A data communication system selects an original wireless network slice for a wireless communication device. The data communication system identifies one or more radio signal parameters for the original wireless network slice. The data communication system determines one or more radio signal levels for the wireless communication device. The data communication system selects a different wireless network slice for the wireless communication device in response to the one or more radio signal parameters for the original wireless network slice and the one or more radio signal levels for the wireless communication device.
A method of providing inter-agency communications. The method comprises transmitting, by a fabric management application at a fabric hub of a communication fabric to a first agency, a certificate comprising tags associated with a channel accessibility of the first agency; receiving, by the fabric management application from a second agency, a request to create a channel, the request comprising an allow tag and/or a deny tag; publishing, by the fabric management application, the channel in a directory; transmitting, by the fabric management application to the first agency, in response to the publishing and a verification of the tags of the first agency against the allow tag and/or the deny tag, a notification of the channel; configuring, by the fabric management application, rules at a fabric junction of the communication fabric; and routing, by the fabric junction, based on the rules, communications between the first and second agencies in the channel.
At a high level, the technology disclosed herein relates to terrestrial and non-terrestrial coordination functionality. For example, one or more triggers (e.g., provided by one or more network components) can cause a user device (e.g., a cellular phone, smart phone, tablet, smart device, vehicle, etc.) to perform packet duplication, such that one packet from the packet duplication is to be transmitted from the user device to a non-terrestrial station (e.g., a low earth orbit satellite) and such that another packet from the packet duplication is to be transmitted from the user device to a terrestrial station (e.g., a base station). This multi-state operation for the user device can allow for communications with both the non-terrestrial station and the terrestrial station (e.g., via a multi-path server and a multi-path stack of the user device) so that uplink and downlink data associated with each station can be recovered to improve communication reliability.
The method begins with receiving, at an extraterrestrial base station, at least one first uplink communication from a first device. The first uplink communication contains an altitude measurement and at least one of: a signal strength measurement and a power level of the first device. The method then continues with determining a location and transmission angle of the first device with respect to a field of regard of the extraterrestrial base station. Then, a downlink transmission power setting for the extraterrestrial base station is dynamically determined based on the altitude measurement and the transmission angle of the first device.
A method for managing an ontology of a data handling facility of a communication system. The method includes discovering connections between some of a plurality of electrically powered components of the data handling facility based on time-series data obtained from a plurality of electrical power monitors, and forming a physical ontology layer of the data handling facility and a logical ontology layer of the data handling facility. In addition, the method includes receiving a query from a user concerning a hypothetical modification to the operation of the data handling facility, and forecasting change in the operation of the data handling facility based on the query received from the user.
H04L 41/12 - Découverte ou gestion des topologies de réseau
G06F 1/28 - Surveillance, p. ex. détection des pannes d'alimentation par franchissement de seuils
H04L 41/0833 - Réglages de configuration caractérisés par les objectifs d’un changement de paramètres, p. ex. l’optimisation de la configuration pour améliorer la fiabilité pour la réduction de la consommation d’énergie du réseau
H04L 41/0893 - Affectation de groupes logiques aux éléments de réseau
Systems and methods are provided for enhancing 5G coverage optimization. The specific antenna model name for each antenna is received at an optimization engine. The optimization engine identifies a remote electrical tilt (RET) corresponding to each antenna. The antenna model name and the RET angle value for each antenna are dynamically associated in a data store. Based on the antenna model name and the RET angle value, the optimization engine can predict real-time coverage provided by the antenna.
A method comprises monitoring, by a monitoring application of a monitoring system, a plurality of data events across one or more data platforms in the communication network, wherein each of the data events corresponds to an encryption operation or a decryption operation of a data record in the one or more data platforms, recording, by the monitoring application, each of the data events into an event record, wherein each event record corresponding to a data event indicates at least one of client data describing a client associated with the data event, the data record associated with the data event, a key used for the data event, whether the data event corresponds to the encryption operation or the decryption operation, or a timestamp of the data event, and generating, by the monitoring application, different types of usage and access records based on the event records.
Systems and methods are provided for utilizing dynamic wireless network protocols. A user equipment (UE) capability message is received from a UE at a node indicating a type of the UE. Based on the type of UE, the node determines a dynamic wireless network protocol specific to the type of UE.
Systems and methods are provided for utilizing dynamic wireless network protocols. A user equipment (UE) capability message is received from a UE at a node indicating a type of the UE. Based on the type of UE, the node determines a dynamic wireless network protocol specific to the type of UE.
Systems and methods configured to reduce unnecessary radio operation during lower and/or non-traffic times are described herein. More particularly, in aspects set forth herein, systems and methods enable a carrier to be turned on or off according to customer demand. The system may determine one or more frequency bands and/or channels to activate and/or deactivate and may generate configuration settings to send to the one or more nodes. In the context of cellular networks, optimizing spectrum usage and network capacity is important for efficient operation and minimizing waste, including energy waste.
A method of providing real-time remote computation for a user equipment (UE). The method comprises executing, by an application at a mobile edge computing system (MECS) at a serving cell site of the UE, an instance of a first virtual machine (VM) hosting at least one user application for the UE. The method further comprises receiving, by the application of the MECS, an application patch for updating the at least one user application. The method further comprises launching an instance of a second VM to host at least an updated version of the at least one user application for the UE, where the updated version of the at least one user application comprises the application patch. The method further comprises executing, by the application of the MECS, the instance of the second VM hosting at least the updated version of the at least one user application for the UE.
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 8/22 - Traitement ou transfert des données du terminal, p. ex. statut ou capacités physiques
Systems and methods are provided for a secondary node that provides assistance to primary nodes in determining whether a user device should be switched to another primary node in order to improve the service experience. In aspects, when a user device is operating with dual connectivity, a secondary node can determine whether the service experience for the user device can be improved with a handover to another primary node based on the timing advance value and/or angle of approach value for the user device relative to an index that defines value(s) for matching a user device to available primary nodes. When the service experience can be improved, the secondary node sends an assist notification to the primary node that presently serves the user device, which triggers the primary node to hand over the user device to the other primary node identified for service improvement.
Systems and methods are provided for simulating error conditions between a wireless device and a live cellular network. A communications protocol proxy system intercepts, monitors, and modifies the two-way interactive TCP notification traffic between the wireless device and live cellular network without modifications to the live cellular network. Data packets being communicated between the wireless device and the live cellular wireless communication network are analyzed at the communications protocol proxy to determine if a test scenario is applicable to the data packets. The data packets are modified according to the test scenario to simulate an error in communication between the wireless device and live cellular network.
Systems, methods, and devices are disclosed herein for slicing data repositories, such as the Unified Data Repository (UDR) in a 5G core network under live traffic conditions. To support UDR slicing, several new network elements are introduced including the subscriber location function (SLF), the identity lookup, and the provisioning orchestrator. In an access call flow the SLF intercepts requests for subscriber information stored in the UDR, obtains information about which UDR segment hosts the requested subscriber data from the identity lookup, retrieves the subscriber information from the identified UDR segment, and responds to the request. In provisioning call flows, the provisioning orchestrator also leverages the identity lookup to locate the relevant subscriber information. A migration tool is also disclosed for the relocating of subscriber information from a first UDR to a second UDR under live traffic conditions.
G06F 16/27 - Réplication, distribution ou synchronisation de données entre bases de données ou dans un système de bases de données distribuéesArchitectures de systèmes de bases de données distribuées à cet effet
H04W 8/20 - Transfert de données utilisateur ou abonné
Aspects herein provide systems, methods, and media for optimizing network routing configuration for specific applications. In aspects, the data traffic of an application can be intelligently and selectively routed using specific network “slices” or “paths” that optimize the application's performance for a metric, such as jitter or latency. As such, various network routing configurations can be monitored and evaluated to examine the application's performance over particular network slices, and further optimize configurations for specific data traffic types and volumes, particular devices, and more.
Systems and methods are provided for deriving insights of customer key performance indicators (KPI's) (e.g., throughput, latency, connection reliability, etc.) in 5G slicing. By using signaling transaction logs from 5G SA Core Platforms, such as the PCF and UPF, full visibility can be provided to ensure customer satisfaction. The data on these KPIs can allow the mobile operator to derive the subscriber's experience metrics based on their specific location to make real-time dynamic changes based on this visibility data.
Embodiments of the present disclosure describe systems and methods for dynamic spectrum management and interference mitigation in mobile communications through a network of extraterrestrial base stations. Embodiments herein monitor communication traffic across various geographic areas and generate traffic heatmaps that allow for data analysis of and visualization of traffic intensity and distribution. The disclosed methods identify areas exceeding predefined congestion or interference thresholds within these heatmaps. In response, the system dynamically adjusts downlink signal parameters of the extraterrestrial base stations, such as muting or reducing signal strength in congested areas, to mitigate interference.
A method is disclosed for providing a database of subscriber interactions with a network. The database is configured for geographical searching. A provider record relating to a transaction between a network node and a subscriber is received. A first period provider records collection including provider records from a first predetermined time period is stored. The first period provider records collection is converted into a first period unified records collection. A second period unified records collection is stored having unified records from a second predetermined time period. The second predetermined time period is longer than the first predetermined time period. The second period unified records collection includes sub-period partitions with unified records having timestamps in a first time sub-period. Each sub-period partition includes geohash partitions with unified records having geohash values in a range of values, and each geohash partition includes subscriber partitions with unified records having a common subscriber ID.
G06F 16/27 - Réplication, distribution ou synchronisation de données entre bases de données ou dans un système de bases de données distribuéesArchitectures de systèmes de bases de données distribuées à cet effet
Systems, methods and non-transitory computer-readable mediums are provided for a wireless device management (WDM) system and method granting permission for a limited duration to make changes/updates to firmware and/or configuration profile of a wireless device. A time-based certificate is transmitted from the WDM to the wireless device. Upon expiration of the time-based certificate, the WDM may no longer make changes/updates to the wireless device.
In some examples, a method for managing an ontology of a data handling facility of a communication system includes receiving data points from a node of the data handling facility, the data points indicating the node as a reporting node. The method also includes performing name-based data validation of the data points. The method also includes responsive to the data points passing the name-based data validation, recording the data points in a data store. The method also includes determining a performance metric based on the data points. The method also includes comparing the performance metric to an expected metric. The method also includes responsive to the performance metric having a difference from the expected metric that exceeds a standard deviation, performing remedial actions regarding the data handling facility.
A method comprises maintaining, in a sensitive data management system, sensitive data for a plurality of different applications, each in association with a plurality of different environments, transmitting, by an application running in association with the environment, to a sensitive data management system, a request for sensitive data used to access the at least one of the data store or the network site, determining, by a data management application in sensitive data management system, that the application is permitted to receive access to the sensitive data based on the identifier of the application and the identifier of the environment, transmitting, by the data management application, the sensitive data to the application running in association with the environment.
Methods and systems are provided for improving quality of service by prioritizing at the transaction level. The method may begin with receiving, at a gateway, an inbound or outbound transaction from a user device. The gateway may access and identify transaction identifiers associated with each transaction. A large language model may categorize each type of transaction. Upon categorization of the transaction, a generative artificial intelligence may prioritize the transaction. Based on the priority level of the transaction, the transaction may be ranked against a plurality of transactions received at the gateway. Using the transaction ranking, the highest ranked transaction may be communicated first, then all other transactions received at the router may be communicated according to its transaction ranking, wherein the next highest ranked transaction is communicated and so on.
H04L 47/6275 - Ordonnancement des files d’attente caractérisé par des critères d’ordonnancement pour des créneaux de service ou des commandes de service basé sur la priorité
H04L 47/2425 - Trafic caractérisé par des attributs spécifiques, p. ex. la priorité ou QoS pour la prise en charge de spécifications de services, p. ex. SLA
100.
DYNAMICALLY ADJUSTING ANTENNA BEAM DIRECTIVITY BASED ON ORIENTATION OF DEVICE
The technology disclosed herein relates to antenna beam directivity corresponding to one or more non-terrestrial access nodes. For example, a user device having antenna elements and a sensor can determine an orientation of the user device and transmit one or more signals from one or more antenna elements based on the orientation of the user device. In embodiments, the user device can transmit signals towards a non-terrestrial access node, towards a portion of an atmosphere layer of the Earth, away from a gravitational force of the Earth, towards outer space, in another non-terrestrial direction, or one or more combinations thereof. In some embodiments, the user device uses one or more accelerometers and/or one or more other sensors for determining the orientation of the user device relative to the antenna elements of the device, the gravitational force of the Earth, a geomagnetic field, another direction, or one or more combinations thereof.
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
