A wireless device (e.g., a cell phone) having a first SIM card for a first (e.g., private) wireless network and a second SIM card for a second (e.g., public) wireless network. The wireless device disables searching for the first wireless network if its current location is outside of a defined coverage region for the first wireless network, thereby saving battery power. The defined coverage region may be defined by minimum and maximum longitude and latitude values that superscribe the overall coverage area of the first wireless network. The network server for the first wireless network transmits a definition of a defined coverage region for the wireless network and automatically updates the defined coverage region when the overall coverage area of the first wireless network is modified, such as when a new access point is added to the network.
H04W 48/16 - Exploration; Traitement d'informations sur les restrictions d'accès ou les accès
2.
METHODS AND APPARATUS FOR SUPPORTING THE COMMUNICATION OF PATH SWITCHING CAPABILITY INFORMATION BETWEEN USER EQUIPMENT AND A NETWORK DEVICE TO ENABLE EFFICIENT SWITCHING OF MULTI-ACCESS (MA) TRAFFIC BETWEEN NON-3GPP ACCESS PATHS
e.ge.g., networks including WiFi access points, using network core functionality are described. A novel registration process in which UE and AMF capability information is exchanged at an early stage in the registration process is described. An initial registration request message from a UE, via a 3GPP or N3GPP access network, includes an indicator as to whether or not the UE supports path switching for MA PDU sessions between N3GPP access paths. This allows, for a UE which supports the path switching, a AMF to be selected and assigned to the UE, which also supports the path switching, thus matching capabilities and eliminating the need for interrupting communications to change AMFs at a later point.
METHODS AND APPARATUS RELATING TO COMMUNICATION OF PATH SWITCHING CAPABILITY INFORMATION BETWEEN A NETWORK DEVICE AND A UE DEVICE TO ENABLE EFFICIENT SWITCHING OF MULTI-ACCESS (MA) TRAFFIC BETWEEN NON-3GPP ACCESS PATHS
Methods and apparatus for supporting efficient switching of data paths corresponding to a communications session between different non-3GPP access networks, e.g., networks including WiFi access points, using network core functionality are described. A novel registration process in which UE and AMF capability information is exchanged at an early stage in the registration process is described. An initial registration request message from a UE, via a 3GPP or N3GPP access network, may but need not indicate whether or not the UE supports path switching for MA PDU sessions between N3GPP access paths. A registration accept message sent to the UE identifies an Access and Mobility Management Function (AMF) selected to support first UE communications sessions and includes AMF path switching capability information indicating the path switching support capability of the identified AMF so that the UE is made aware of path switching which is supported by the AMF.
A wireless base station, via a first wireless beam in a beamforming codebook, transmits communications to multiple communication devices. In one implementation, the wireless base station receives respective channel matrix information from each of the multiple communication devices. The channel matrix information indicates weight coefficients applied to respective receiver antenna hardware to receive the communications. Alternatively, when reciprocity holds, the wireless base station can be configured to generate the channel matrix information based on observation of receiving communications from the one or more communication devices. Via the channel matrix information, a communication management resource associated with the wireless base station adjusts beamforming settings of the first wireless beam to best support communications with the communication devices over the first wireless beam. The communication management resource dynamically updates the beamforming codebook such that a corresponding wireless beam is angularly adjusted towards a centroid of the communication devices.
H04B 7/06 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
One or more shared data channels, e.g., PDSCH, PUSCH, PSSCH, are configured to be DMRS-free, thus allowing the resources which would be used for DMRS to be used to convey additional traffic data signals. Channel estimation based on control channel DMRS, e.g., PDCCH DMRS, PUCCH DMRS, or PSSCH/PSCCH DMRS, is used to demodulate and/or decode the traffic channel signals communicated on the DMRS-free shared traffic channel resources. Antenna port hopping is implemented as part of the PDCCH configuration to support a DMRS-free PDSCH. The antenna port hopping of the PDCCH is used to obtain a set of channel estimates based on PDDCH DMRS corresponding to different antenna ports which will match the antenna ports used for the PDSCH.
A communication management resource associated with a mobile communication device establishes wireless connectivity between the mobile communication device and multiple wireless networks. The wireless connectivity includes multiple wireless communication links. The communication management resource determines a respective latency associated with conveyance of communications over the multiple wireless communication links. Based on the respective latencies, the communication management resource or other suitable entity selects a wireless communication link from the multiple wireless communication links in which to support communications between the mobile communication device and a remote management entity.
H04W 40/12 - Sélection d'itinéraire ou de voie de communication, p.ex. routage basé sur l'énergie disponible ou le chemin le plus court sur la base de la qualité d'émission ou de la qualité des canaux
H04W 36/14 - Resélection d'un réseau ou d'une interface hertzienne
H04W 36/24 - La resélection étant déclenchée par des paramètres spécifiques
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 48/18 - Sélection d'un réseau ou d'un service de télécommunications
7.
METHODS AND APPARATUS FOR SUPPORTING SWITCHING OF TRAFFIC CORRESPONDING TO A COMMUNICATION SESSION BETWEEN TWO NON-3GPP ACCESS PATHS
Methods and apparatus for supporting switching of data paths corresponding to a communications session between different non-3GPP access networks, e.g., networks including WiFi access points, using network core functionality are described. This allows a communications session in which a UE is involved as an end point to be switched between two different WiFi access networks and/or a WiFi access network and a 3GPP access network, e.g., cellular access network, without the communications session being terminated while service is provided to the UE by a Public Land Mobile Network (PLMN) with which it is registered. A UE can switch between multiple WiFi networks while maintaining a communications session supported by network core functionality even though the session may be switched between different non-3GPP networks while the session is ongoing.
The presentation invention relates to methods and apparatus for a mobile device to discover the hidden SSID of a network. An exemplary method embodiment includes the steps of: receiving, at the mobile device (109), a first beacon frame having a Service Set Identifier (SSID) field set to NULL from a first Access Point (102); determining, at the mobile device, based on information received from the first Access Point that the mobile device is provisioned to connect to a first network advertised by the first beacon frame; discovering, by the mobile device, a first SSID name for the first network advertised by the first beacon frame for which the mobile device is provisioned. In another embodiment the mobile device associates with the first network after discovering the first SSID name.
H04W 48/16 - Exploration; Traitement d'informations sur les restrictions d'accès ou les accès
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 84/12 - Réseaux locaux sans fil [WLAN Wireless Local Area Network]
According to one configuration, a system includes a first wireless station in communication with a second wireless station. Signal processor hardware receives, from a first phase noise predictor (model), a first common phase error signal to compensate for: i) first phase noise associated with a first wireless station, and ii) second phase noise associated with a second wireless station. The signal processor hardware implements a predictive feedback compensation loop (such as including a second phase noise predictor) to produce a second (i.e., corrected) common phase error signal from the received common phase error signal. The signal processor hardware outputs the corrected common phase error signal to adjust phases of sub-carrier frequencies used to communicate data from the first wireless station to the second wireless station.
A communication management resource implements an iterative process to derive settings for digital precoder W, analog precoder A, and decode function D with a bandwidth-limited fronthaul link between the application of digital precoder W and the application of analog precoder A. The iterative process includes: for a first instance of digital precoder W and decode function D, optimize an instance of the analog precoder A; and based on the optimized instance of the analog precoder A, optimize a second instance of the digital precoder W and the decode function D. In one implementation, for each iteration of multiple iterations, the communication management resource: i) optimizes an instance of the analog precoder A based on an instance of the digital precoder W and the decode function D, and ii) optimizes an instance of the digital precoder W and the decode function D based on the instance of the analog precoder A.
H04B 7/0456 - Sélection de matrices de pré-codage ou de livres de codes, p.ex. utilisant des matrices pour pondérer des antennes
H04B 7/08 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station de réception
H04B 7/06 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
11.
USE OF ALLOCATED WIRELESS CHANNELS IN A WIRELESS NETWORK
A wireless station is allocated use of a time slot in a given direction, uplink or downlink, on a given channel. The wireless station monitors for presence of wireless energy during a portion of the time slot. Based on a detected level of the wireless energy in the time slot, the wireless station controls transmission of wireless communications in a direction opposite to the configured direction in a remaining part of the time slot.
An access point (AP) communicates to one or more stations (STAs) information indicating a set of channels and/or resource units (RUs), corresponding to a wideband basis service set (BSS) for an authorized unlicensed radio local area network (RLAN) using 6GHz spectrum, which are subject to a lower power spectral density (PSD) level than other portions of the BSS frequency range or are not to be used for transmission. In some, but not necessarily all, embodiments, the AP and the STAs do not encode data on the identified channels or RUs, but do encode data on other channels and/or other RUs, which are not subject to the lower PDS constraint.
Methods and systems for reducing power consumption in a multi-channel passive optical network (PON). A processor in the PON may monitor the channels in the multi-channel PON to detect a currently inactive channel, determine whether the detected channel has been inactive for an extended period of time, and deactivate the detected channel (by deenergizing transmitter(s) and/or receiver(s) associated with the detected channel) in response to determining that the channel has remained inactive for an extended period of time. The processor may re-activate the channel in response to determining that an optical signal has been reliably present on the channel for a sufficient period of time.
According to one configuration, a system includes a first wireless station in communication with a second wireless station. A phase noise predictor model such as associated with the first wireless station receives phase noise information. The phase noise information captures an estimate of: i) first phase noise associated with a first wireless station, and ii) second phase noise associated with a second wireless station. Based on the received phase noise information, the predictor produces phase noise adjustment information. The predictor applies the phase noise adjustment information to adjust (compensate) a signal of the first wireless station. Adjustment of the signal results in phase noise adjustment with respect to both the first phase noise associated with the first wireless station and the second phase noise associated with the second wireless station.
A radio access network (RAN) for a wireless communication network transmits, to user equipment (UE), information about NPN services provided by a non-public network (NPN) supported by the wireless network, where the UE is not subscribed to the NPN. In some embodiments, the NPN service information is periodically broadcasted to the UE; in other embodiments, the information is transmitted in response to receiving a request from the UE. In response to receiving the NPN service information, the UE transmits and the RAN receives an on-boarding request from the UE to on-board the UE to the NPN, which the RAN forwards to an on-boarding network (OBN) of the wireless network. In response, the RAN receives NPN credentials for the UE from the OBN, which the RAN forwards to the UE, which uses the NPN credentials to register to the NPN, thereby enabling the non-subscribing UE to subscribe to the NPN.
The present invention relates to methods and apparatus for managing uplink resource grants in wireless networks. An exemplary method embodiment includes a mobile terminal: receiving from a base station a first uplink resource grant schedule including a first uplink resource grant and a second uplink resource grant, the first uplink resource grant giving the mobile terminal an exclusive right to use a first set of resource blocks on a recurring basis and the second uplink resource grant giving the mobile terminal a non-exclusive right to use a second set of resource blocks on a recurring basis; and using, by the mobile terminal, the second set of resource blocks to transmit data to the base station during at least a first time interval of the first period of time, said first period of time including multiple time intervals during which the mobile terminal has been granted the right to transmit data.
A system includes multiple techniques of implementing listen before talk functionality to provide multiple mobile communication devices connectivity with a wireless base station.
A first radio of a wireless, e.g., dual-SIM DSDS, device communicates wirelessly with a first, e.g., 5G CBSD, base station of a first service provider using a first spectrum type, e.g., PAL or high- or low-bandwidth GAA, while a second radio communicates wirelessly with a second, e.g., 5G non-CBSD gNB, base station of a second service provider using a second spectrum type. The first radio informs the second radio of the first spectrum type assigned to the first radio, and the second radio transmits, to the second base station, capability information for the second radio based on the first spectrum type, that capability information being used by the second base station in assigning the second spectrum type to the second base station, thereby enabling equivalent QoS to be rendered to both radios even when the first service provider cannot directly control the QoS provided by the second service provider.
Methods and apparatus for supporting band steering and/or channel steering in wireless communications systems, e.g. WiFi communications systems, are described. An access point aggregates information, e.g., from messages being communicated between the access point and client devices being serviced by the access point, and generates reports. The generated reports are communicated to a control device, e.g. a radio resource management (RRM) device. In some embodiments, generated reports include one or more of: i) message header information, e.g. resource unit (RU) allocation and/or use information and/or BSS color information, ii) collision reports, iii) received signal strength indicator (RSSI) reports, signal to noise ratio (SNR) reports, iv) interference reports; v) power information; vi) access point measurement information; and vii) access point control information. The control device uses the received reports from APs, in making bandsteering decisions with regard to individual client devices, and channel change decisions with regard to access points.
A method for Internet of Things (IoT) network security includes collecting information for each network device (device), determining a minimum viable resource allocation for each device based on the information, which defines the minimum resources needed by each device to engage the IoT network and handle data, and for each device, distributing minimum viable resource allocations and rules, determining monitoring sets, monitoring using the monitoring set, collecting updated information based partially on the monitoring set, analyzing the updated information to determine trends and insights relative to the devices and the IoT network, updating the monitoring set, minimum viable resource allocation, and rules based on the analyzed updated information, checking compliance with a current minimum viable resource allocation and rules, identifying devices having violations, and performing same on a continuous as it and automatic basis. The method establishes and maintains a chain of custody for data traversing through multiple network segments.
A communication management resource receives (710) notification of a request from user equipment to establish a wireless communication link with a remote communication device through a first private wireless network. The communication management resource resides in a second private wireless network to which the user of the user equipment is a member. The request requests use of services provided by the second private wireless network to connect the user equipment to a remote communication device. In response to receiving the request, the second private wireless network retrieves (720) a unique network identifier value assigned to the first private network. Via the unique network identifier value, the communication management resource detects that the first private wireless network is associated (730) with the second wireless network. Based on the association, the communication management resource support communications between the user equipment and the remote communication device.
A communication management resource receives channel selection information from any number of licensed entities to operate in a shared band. Assume that the communication management resource receives first channel selection information indicating channels of interest (or band partitions, bandwidth, bandwidth partitions, sub-band portions, sub-band segments, etc., of an available wireless spectrum or band) to a first entity licensed to wirelessly communicate in a wireless network. Further, the communication management resource receives second channel selection information indicating channels of interest to a second entity licensed to wirelessly communicate in the wireless network. Based on the first channel selection information and the second channel selection information, the communication management resource allocates wireless channels amongst the first entity and the second entity.
According to one configuration, while the user equipment is wirelessly connected to a first wireless base station over a first wireless communication link, a communication management resource in the user equipment receives input (such as a request) to tune-away the user equipment to a second wireless base station providing corresponding wireless services. To facilitate the temporary tune-away to the second wireless network, the communication management resource of the user equipment generates timing information associated with the switchover. In furtherance of the switchover (temporary tune-away) to the second wireless base station, the communication management resource of the user equipment transmits the timing information in a wireless communication over the first wireless communication link to the first wireless base station.
According to one configuration, a wireless network environment includes a first wireless network and a second wireless network. A mobile communication device in the wireless network environment receives first paging notifications directed to the mobile communication device from a first wireless base station such as operated by a first wireless network service provider. The mobile communication device receives second paging notifications directed to the mobile communication device from a second wireless base station such as operated by a second wireless network service provider. Additional configurations include page repetitions and paging notifications. The wireless network environment provides improved paging over conventional techniques.
Apparatus and methods for prioritizing spectrum and controlling data traffic steering within a wireless network. In one embodiment, the apparatus and methods provide enhanced wireless services which allow network operators to prioritize utilization of spectrum for their subscribers. In one variant, an enhanced 3GPP UE Route Selection Policy (URSP) framework is provided for a UE connected to 5G wireless network, which allows the UE to use one or more prioritized 3GPP spectrum Band Class(es) based on one or more selection criterion or preconditions. In another variant, UE location information is used to dynamically update a data traffic steering mode or other functionality of an enhanced ATSSS (Access Traffic Steering, Switching, and Splitting) rule framework is described for dynamic control of steering or routing functionality, including between 3GPP- and non-3GPP network accesses for the data traffic.
H04L 29/06 - Commande de la communication; Traitement de la communication caractérisés par un protocole
H04L 29/10 - Commande de la communication; Traitement de la communication caractérisés par un interface, p.ex. par l'interface entre le niveau de la liaison et le niveau physique
H04L 29/08 - Procédure de commande de la transmission, p.ex. procédure de commande du niveau de la liaison
26.
APPARATUS AND METHODS FOR USER DEVICE BUFFER MANAGEMENT IN WIRELESS NETWORKS
Apparatus and methods for improving throughput and reliability in a wireless network. In one embodiment, the apparatus and methods provide mechanisms for wireless user device buffer management that mitigate buffer overflow within the device due to overscheduling, such as from different networks with which the device is connected simultaneously. In one variant, a 3GPP-based signaling architecture from wireless device to the multiple networks is provided to enable user device-controlled management buffer overflow. In another variant, potentially buffer-demanding (e.g., HARQ) process management and prioritization rules are defined to avoid buffer overflow. In other variant, buffer size computation is provided considering the number of networks to which the wireless user device can connect.
An end point (EP) device may communicate with multiple gateways via wireless signals, e.g. wireless broadcast signals. An EP device is controlled, under the direction of a control server, e.g., an application server, to communicate via a single gateway. The control server associates the EP device with a single target gateway and/or uses EP transmission power control training iterations to reduce the EP transmission power level until the EP device is only able to successfully communicate its wireless signals to a single gateway.
H04W 52/14 - Analyse séparée de la liaison montante ou de la liaison descendante
H04L 29/08 - Procédure de commande de la transmission, p.ex. procédure de commande du niveau de la liaison
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
H04W 52/26 - Commande de puissance d'émission [TPC Transmission power control] le TPC étant effectué selon des paramètres spécifiques utilisant le débit de transmission ou la qualité de service [QoS Quality of Service]
H04W 52/28 - Commande de puissance d'émission [TPC Transmission power control] le TPC étant effectué selon des paramètres spécifiques utilisant le profil utilisateur, p.ex. la vitesse, la priorité ou l'état du réseau, p.ex. en attente, libre ou absence de transmission
H04W 52/32 - TPC des canaux de radiodiffusion ou de commande
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
28.
APPARATUS AND METHODS FOR PHASE NOISE MITIGATION IN WIRELESS SYSTEMS
Apparatus and methods for phase noise mitigation in wireless systems and networks. In one embodiment, the apparatus and methods provide enhanced wireless services which provide enhanced performance to 5G millimeter wave system entities base stations (gNodeBs) and their backhaul in support of low-latency and high-throughput operation of these components and the network as a whole. In one variant, an enhanced phase noise mitigation mechanism is provided which has a robust performance in operating in very high frequencies such as millimeter wave spectrum. In yet other implementations, the methods and apparatus described herein can be utilized with respect to mobile devices such as between 5G NR millimeter-wave capable UEs and corresponding gNBs.
An aspect includes a method for use with a mobile communications device comprising a plurality of subscriber identification modules sharing a cache. The method includes a first subscriber identification module authenticating with and connecting to the network, followed by a second subscriber identification module authenticating with and connecting to the network. The method also includes, while the first subscriber identification module is requesting and receiving first data from the network and storing the first data in the cache, the second identification module requesting and receiving second data from the network and storing the second data in the cache. The method further includes an application executing on the device retrieving and processing at least a portion of the first and second data stored in the cache, while at least one of the first and second subscriber identification modules is storing additional data received from the network in the cache.
Apparatus and methods for operating wireless devices using unlicensed frequency ranges with minimal transmission interruptions. In one embodiment, the apparatus and methods provide a mechanism for redirecting idle or inactive wireless devices to different frequencies in response to interference detection such as by GHz- hand radar. In one variant, the present disclosure provides methods and apparatus for allowing user device (UEs) using 5GNR-U spectrum to continue to operate upon radar detection by successfully switching the UEs to one or more frequencies that are free of radar operation. In one variant, a gNB controlling the UEs informs the AMF (access and mobility function) of a radar detection event, and the AMF initiates a paging towards idle UEs in order to allow the gNB to move the UEs to a frequency without radar operations. In another variant, a gNB switches its UEs to a different frequency without relying on the AMF.
Apparatus and methods for multi-carrier or multi-band utilization in an unlicensed wireless network. In one embodiment, the apparatus and methods provide enhanced wireless services which provide enhanced bandwidth capability to 5G NR-U entities such as gNodeB and UE devices across two heterogeneous unlicensed bands having different medium access mechanism and protocols. In one variant, LBT (listen before talk) protocols are used to detect the presence or absence of users within the respective bands of interest. When two or more unoccupied carriers or bands are identified, aggregated operation is used ti enhance the downlink/uplink (DL/UL) transmission bandwidth for the device(s).
According to one configuration, a system includes a mobile communication device in communication with a wireless base station. During operation, the mobile communication device detects one or more conditions associated with the wireless network environment. Based on the one or more detected conditions, the mobile communication device selects amongst multiple channel access procedures to communicate with the wireless base station and establish a wireless communication link. The mobile communication device can be configured to include supplemental data in a message to the wireless base station to indicate a reason for the mobile communication device selecting a particular channel access procedure of the multiple channel access procedures.
According to one configuration, a system includes a mobile communication device operated in a network environment. The mobile communication device can be one of multiple mobile communication devices in the network environment. To request establishing a wireless link, the mobile communication device receives a notification of an allocation of wireless channel resources. Via the allocated wireless channel resources, over a shared access channel, the first mobile communication device communicates a wireless connection request to a wireless base station. In one example configuration, the wireless request communicated over the allocated wireless channels includes: i) a first wireless communication including a preamble (such as PRACH message), and ii) a second wireless communication (such as a PUSCH message) including information for establishing a wireless communication link.
Apparatus and methods for access point coordination of data transmissions within a wireless local area network (WLAN). In one embodiment, a method of managing a WLAN using an access point (AP) coordination system. The AP coordination system accepts client device requests through their associated APs and coordinates one or more APs within the WLAN to fulfill the client requests, without forcing the client devices to associate with different APs. The APs fulfilling a client device request are masked under the BSSID of the client-associated AP.
Methods and apparatus for supporting transmission bursts in unlicensed spectrum are described. Different sets of sub-bands within a downlink bandwidth portion of unlicensed spectrum can be, and sometimes are, occupied during different DL transmission bursts depending on channel availability. A user device is configured with channel usage information, e.g. N bitmaps, each bitmap indicating a different control channel resource allocation that may be used for communication with the UE, and/or reference signal information. The UE determines the occupied sub-bands in a DL transmission burst over the bandwidth portion, and determines control channel resource information based on the determined occupied sub-channels. The UE determines CSI- RS measurement locations based on determined sub-band occupancy. In some embodiments, the UE performs in-sync and out-of-sync evaluations based BLER threshold scaling factors, which are based on sub-band occupancy.
Methods and apparatus related to HARQ feedback, e.g. delayed HARQ ACK/NACK, and uplink control information (UCI) multiplexing, in unlicensed spectrum are described. A base station transmits an UCI request to a UE, including: a request for ACK/NACK feedback corresponding to a set of HARQ identified processes, a request for channel state information report, and/or a scheduling request. The UCI request includes information which is used, by the UE, in determining the time and air link resources on which to send the UCI. The HARQ processes are communicated in a first Channel Occupancy Time (COT), while the ACK/NACK feedback is communicated in a later COT.
According to one configuration, a system comprising: a first SIM (Subscriber Identity Module) device; a second SIM device; and user equipment in which the first SIM device and the second SIM device are installed. The user equipment is operable to: access first subscriber identity information stored in the first SIM device, the first subscriber identity information providing the user equipment access to a first wireless network in a network environment; access second subscriber identity information stored in the second SIM device, the second subscriber identity information providing the user equipment access to a second wireless network in the network environment; and via analysis of configuration settings in the second subscriber identity information, detect that the second network is assigned to support non-voice wireless communications between the user equipment and a remote network.
H04W 8/18 - Traitement de données utilisateur ou abonné, p.ex. services faisant l'objet d'un abonnement, préférences utilisateur ou profils utilisateur; Transfert de données utilisateur ou abonné
H04W 76/16 - Gestion de la connexion Établissement de la connexion Établissement de connexions à liens multiples sans fil utilisant des technologies de réseaux centraux différentes, p.ex. une voie de commutation de paquets combinée à une voie de commutation de circuits
H04W 36/14 - Resélection d'un réseau ou d'une interface hertzienne
H04W 88/06 - Dispositifs terminaux adapté au fonctionnement dans des réseaux multiples, p.ex. terminaux multi-mode
H04W 48/18 - Sélection d'un réseau ou d'un service de télécommunications
Methods and apparatus for managing system information message transmission in a distribution network (e.g., a wireless network such as one compliant with 3 GPP 5G NR-U). In one embodiment, transmission of multiple SI (System Information) messages with overlapping Si-windows is enabled but with no soft-combining support. In another embodiment, transmission of multiple SI-messages with overlapping SI-windows is enabled with soft-combining support. In yet another embodiment, aperiodic OSI transmission is enabled. Moreover, the present disclosure provides mechanisms for notifying UE of an SI change.
Methods and apparatus for managing frequency reassignment within wireless access nodes so as to minimize data session disruption. In one embodiment, the frequency reassignments occur within a quasi-licensed system utilizing 3.5 GHz CBRS (Citizens Broadband Radio Service) spectrum, and a reassignment of wireless spectrum that mitigates disruption or loss of continuity to existing data sessions of users of devices associated with a CBSD/xNB is provided via notification of the associated devices (e.g., Category B Consumer Premises Equipment or CPE, such as an FWA) of the reassignment by the CBSD/xNB. In one variant, the associated devices are instructed by the CBSD/xNB to invoke a "wait and re-establish" protocol that obviates a full frequency band rescan in favor of a designated target frequency provided to the CBSD/xNB by the cognizant SAS or DP.
Apparatus and methods for physical cell identification within one or more wireless networks. In one embodiment, conflicts in PCI values which may exist within two or more mobile networks (e.g., PLMNs) of respective different operators when unlicensed spectrum is utilized (e.g., according to 3 GPP 5G NR-U technology) are resolved. In one implementation, this functionality is provided by specifying one or more mobility-related parameters associated with various UE, such that serving gNBs can determine whether a given UE requires a mobility context, and as such whether it should conduct subsequent RF measurement reporting to report back potential conflicts in PCI it may encounter to the gNB. In one variant, the measurement reporting is configured to comply with 5G NR-U required "listen-before-talk" or LBT protocols; i.e., to measure parameters consistent with the LBT protocols to detect any such PCI-based conflicts.
Methods and apparatus for efficient paging in a communications system using unlicensed spectrum are described. A base station, which uses unlicensed spectrum, receives a paging request message from a network node and performs paging operations attempting to page the UE. The paging attempt may fail due to the base station being unable to transmit a paging signal to the UE because the unlicensed spectrum is currently unavailable or because the UE did not respond to a transmitted page. The base station generates and transmits a paging failure response message including a failure cause code indicating the reason that the paging attempt failed. The network node receives the paging failure response message, recovers the failure cause code, and implements a paging escalation strategy as a function of the recovered failure cause code.
A communication system includes a control wireless station. One or more data payload-conveying wireless stations rely on the control wireless station to provide control information to a mobile communication device to control conveyance of data over one or more data channels to the mobile communication device. For example, to connect to a remote network, a mobile communication device establishes a first wireless communication link with the control wireless station. The mobile communication device establishes a second wireless communication link with a data conveying wireless station. The first wireless link conveys control information from the control wireless station to the mobile communication device. The second wireless link conveys data payload information. The control information conveyed over the first wireless link controls conveyance of the data payload information over the second wireless communication link.
H04W 16/14 - Dispositions de partage du spectre de fréquence
H04W 28/16 - Gestion centrale des ressources; Négociation de ressources ou de paramètres de communication, p.ex. négociation de la bande passante ou de la qualité de service [QoS Quality of Service]
43.
CHANNEL MONITORING AND SHARED USE OF A WIRELESS CHANNEL
According to one configuration, a wireless network includes first wireless stations and second wireless stations. The first wireless stations and second wireless stations support different wireless communication protocols and compete to use a wireless channel. Via monitoring of a control channel generated by a management resource associated with at least the first wireless stations, a given wireless station of the second wireless stations determines availability (unused time slots, frames, etc.) of the wireless channel via monitoring of the wireless channel itself and/or a control channel. In the latter instance, the control channel indicates scheduled usage of the shared wireless channel by at least the first wireless stations. In accordance with the scheduled usage as indicated by the control channel, the given wireless station transmits over the wireless channel during free slots, times, gaps, etc., to communicate with a remote wireless station of the second wireless stations.
Apparatus and methods for registration of e.g., mobile devices in one or more wireless networks. In one embodiment, the apparatus and methods provide enhanced wireless services which enable operation of a given mobile device (e.g., a 3GPP- compliant UE) within two or more mobile networks (e.g., PLMNs) of respective different operators. In one implementation, the LIE operates in dual -registration mode or DRM to allow different interworking between the two networks, and includes independent registration capability to 5GC and EPC infrastructure simultaneously. Accordingly, the LIE is provided umbrella 4G/4.5G coverage over one or more small- cell 5G networks, with respective independent operators of each. Enhanced DRM-UEe capability as described herein advantageously allows for service provision (e.g., voice service) and interworking between the macro and small-cell layers of the system without complicated network configuration requirements between the two operating networks.
H04W 92/08 - Interfaces entre des dispositifs formant réseau hiérarchiquement différents entre un utilisateur et un dispositif terminal
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
45.
METHODS AND APPARATUS FOR ESTIMATING WIRELESS BASE STATION COVERAGE AND MANAGING RESOURCES
Methods and apparatus for estimating a wireless base station's coverage area using user equipment (UE) timing advance and/or power headroom information and allocating resources based on the estimate. In an exemplary method embodiment a resource allocation management device: (i) receives, from a wireless base station, user equipment (UE) information including at least one of timing advance or power headroom information for one or more UEs in communication with the wireless base station; (ii) estimates, based on the received UE information, a wireless base station coverage area; and (iii) makes a first resource allocation to the wireless base station based on the estimated wireless base station coverage area, the first resource allocation including an allocation of at least one of a frequency bandwidth allocation or transmission power allocation to the wireless base station.
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
Methods and apparatus for providing quasi-licensed intra-cell spectrum reassignment. In one embodiment, the quasi-licensed spectrum utilizes 3.5 GHz CBRS (Citizens Broadband Radio Service) spectrum, and a "seamless" reassignment of wireless spectrum without disruption or loss of continuity to existing data sessions of the CBSD is provided via a pool of temporary RF carriers which act as substitutes for the currently allocated (granted) carriers. The served user devices (e.g., UEs) are instructed by the CBSD to migrate to a new "final" carrier via the substitutes, either directly or via one or more intermediary hops. In one variant, existing 3GPP signaling mechanisms between the UE and CBSD/eNodeB obviates any changes to extant UEs. Communications between the CBSD and its cognizant S AS/DP include new information objects which direct the CBSD to implement the handover functionality. In a further variant, inter-CBSD sector and frequency handovers are provided for using CBRS-plane and 3GPP signaling.
Apparatus and methods for unified high-bandwidth, low-latency data services provided with enhanced user mobility. In one embodiment, a network architecture having service delivery over at least portions of extant infrastructure (e.g., a hybrid fiber coax infrastructure) is disclosed, which includes standards-compliant ultra-low latency and high data rate services (e.g., 5G NR services) via a common service provider. In one variant, an expanded frequency band (e.g., 1.6 GHz in total bandwidth) is used over the coaxial portions of the HFC infrastructure, which is allocated to two or more sub-bands. Wideband amplifier apparatus are used to support delivery of the sub-bands to extant HFC network nodes (e.g., hubs or distribution points) within the network. Premises devices are used to provide the 5G-based services to users at a given premises and thereabouts. In another variant, local area (e.g., "pole mounted") radio devices are used to provide supplemental RF coverage, including during mobility scenarios.
Apparatus and methods for unified high-bandwidth, low-latency data services provided with enhanced user mobility. In one embodiment, a network architecture having sendee delivery over at least portions of extant infrastructure (e.g., a hybrid fiber coax infrastructure) is disclosed, which includes standards-compliant ultra-low latency and high data rate services (e.g., 5G NR services) via a common service provider. Premises devices are used to provide the 5G-based services to users at a given premises and thereabouts. In another variant, local area (e.g., "pole mounted") radio devices are used to provide supplemental RF coverage, including during mobility^ scenarios. The 5G-capable network enables uninterrupted and "seamless" exchange of data at a client device by utilizing a common waveform protocol (e.g., 3GPP-based) at a premises device and an external radio device to communicate with a client device at different locations and times while the device is moving between inside and outside the premises.
H04W 80/10 - Protocoles de couche supérieure adaptés à la gestion de sessions, p.ex. protocole d'initiation de session [SIP Session Initiation Protocol]
H04W 16/14 - Dispositions de partage du spectre de fréquence
49.
APPARATUS AND METHODS FOR COORDINATED DELIVERY OF MULTIPLE DATA CHANNELS OVER PHYSICAL MEDIUM
Apparatus and methods for unified high-bandwidth, low-latency data services. In one embodiment, a network architecture having service delivery over at least portions of extant infrastructure (e.g., a hybrid fiber coaxial infrastructure) is disclosed, which includes standards-compliant ultra-low latency and high data rate services (e.g., 5GNR services) via a common service provider. In one variant, parallel MIMO data streams supported by 3GPP 5G NR are shifted in frequency before being injected into the single coaxial cable feeder, so that frequency diversity (instead of spatial diversity) is leveraged to achieve the maximum total carrier bandwidth that 3GPP 5G NR chipsets. Intermediate Frequencies (IF) are transmitted over the media in one implementation, (i.e., instead of higher frequencies), and block-conversion to RF carrier frequency is employed subsequently in the enhanced consumer premises equipment (CPEe) for 3GPP band-compliant interoperability with the 3GPP 5G NR chipset in the CPEe.
User equipment receives first connection priority information. In accordance with the first connection priority information, the mobile communication device establishes a first wireless communication link between the user equipment and a first wireless network to communicate first communications. A controller/management resource provides notification of second connection priority information to be used instead of the first connection priority information. In response to detecting a trigger event in which the user equipment is operated to communicate second communications, the user equipment uses the second connection priority information as a replacement to the first connection priority information to establish a second wireless communication link connecting the user equipment to the second network instead of the first network.
Apparatus and methods for managing content delivery in a packetized network. In one embodiment, the network provide content to a plurality of clients via a plurality of nodes and origin points, and resources are discreetly represented (e.g., with IP addresses, such as those afforded under the IPv6 protocol) to allows for direct advertisement of resources. Exemplary solutions described herein further advantageously leverage extant architectures and protocols (such as BGP), and make use of a common control plane, which can be utilized for example by different content delivery network (CDN) operators and different delivery components to advertise resources. Internally within a given CDN, increased granularity of resource addressing and advertisement may provide benefits including: (i) resource affinity; (ii) resource-level balancing; (iii) dynamic resource scoping; and (iv) "zero-touch" provisioning and resource relocation.
Methods and apparatus for providing quasi-licensed spectrum allocation among two or more entities within a prescribed coverage or operational area. In one embodiment, the quasi-licensed spectrum utilizes 3.5 GHz CBRS (Citizens Broadband Radio Service) spectrum allocated between two or more Federal or commercial SASs (Spectrum Access Systems), for use by various service provider entities such as a managed content delivery network that includes one or more wireless access nodes (e.g., CBSDs). In one variant, each of two or more SAS entities generate both proposed allocations for themselves and other participating SAS entities with respect to available GAA spectrum, and differences between the proposed allocations are reconciled and condensed using a dynamic, iterative process to converge on a final allocation which fits the available GAA spectrum and which equitably distributes the spectrum between the participating SAS entities.
Methods and apparatus for facilitating the use of a plurality of antenna beams for communications purposes are described. In at least some embodiments beam priority information is periodically exchanged. Multiple timers are used to ensure beam information is exchanged at intervals intended to facilitate reliable beam synchronization and to control switching to one or more alternative beams in a predictable manner in the event beam change information or beam synchronization information is lost. In some but not all embodiments a wideband beam is used to communicate beam synchronization information when synchronization using narrower beams used for normal data communication is lost.
H04B 7/04 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées
H04B 7/06 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
H04L 29/06 - Commande de la communication; Traitement de la communication caractérisés par un protocole
H04W 16/28 - Structures des cellules utilisant l'orientation du faisceau
H04W 72/10 - Affectation de ressources sans fil sur la base de critères de priorité
54.
COMMUNICATIONS METHODS AND APPARATUS USING MULTIPLE BEAMS
Methods and apparatus for facilitating the use of a plurality of antenna beams for communications purposes are described. In at least some embodiments beam priority information is periodically exchanged. Multiple timers are used to ensure beam information is exchanged at intervals intended to facilitate reliable beam synchronization and to control switching to one or more alternative beams in a predictable manner in the event beam change information or beam synchronization information is lost. In some but not all embodiments a wideband beam is used to communicate beam synchronization information when synchronization using narrower beams used for normal data communication is lost.
H04B 7/06 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
An example technique performed by a client on a device includes: detecting a mobility state of the device in a presence of a wireless network; determining, based at least in part on the mobility state, that the wireless network is a preferred wireless network for the device; in response to determining that the wireless network is a preferred wireless network, elevating a priority of the wireless network in a set of wireless networks to which the device is connectable; and connecting the device to the wireless network based, at least in part, on the priority of the wireless network.
An example technique is performed by a client on a device, and includes: detecting a mobility state of the device; making a determination, based on the mobility state, about how to manage one or more connections between the device and one or more wireless networks; and managing the one or more connections based, at least in part, on the determination.
Methods and apparatus for monitoring and controlling access to coexisting first and second networks within a venue. In one embodiment, the first network is a managed content delivery network that includes one or more wireless access points (APs) in data communication with a backend controller which communicates with a dedicated background scanner. The background scanner scans for coexisting networks within the venue, and reports this to the controller. In one variant, the controller dynamically adjusts transmit characteristics of the AP(s) to manage interference between the coexisting networks. In another variant, the controller causes the energy detect threshold of a client device to be lowered so that the device may detect WLAN signals in a scenario where a coexisting RAT (for example, LTE-U or LTE-LAA) occupies the same channel and/or frequency.
H04W 16/14 - Dispositions de partage du spectre de fréquence
H04W 36/14 - Resélection d'un réseau ou d'une interface hertzienne
H04W 84/02 - Réseaux pré-organisés hiérarchiquement, p.ex. réseaux de messagerie, réseaux cellulaires, réseaux locaux sans fil [WLAN Wireless Local Area Network] ou boucles locales sans fil [WLL Wireless Local Loop]
H04W 88/06 - Dispositifs terminaux adapté au fonctionnement dans des réseaux multiples, p.ex. terminaux multi-mode
In a method for securely collecting sensitive information, a first key entry made via a user interface is detected. Moreover, information is received via a secure communication channel from a remote server, where the information includes at least a current value of a first layer identifier. Using the current value of the first layer identifier, a bit string corresponding to the first key entry is determined. Using the bit string, at least a portion of a data string is generated. The data string is caused to be stored in a local memory and/or transmitted to another device via a network.
In a method for providing secure communication of a data string along a communication path, a first entity and first identifier, and a second entity and second identifier, are added to a registry database. A current value of the first identifier is provided to a first device to enable a first encoding of the data string, where the first encoding encodes a plurality of bit sequences in the data string as a first plurality of encoded bit sequences. A current value of the second identifier is provided to a second device downstream of the first device to enable a second encoding of the data string, where the second encoding encodes the first plurality of encoded bit sequences as a second plurality of encoded bit sequences. The current values of the first and second identifiers are provided to a third (e.g., destination) device to enable decoding of the data string.
The specification and drawings present a new method, apparatus and software related product (e.g., a computer readable memory or storage device) for a session-based encryption (e.g., a common-tier encryption) for delivering a content (e.g., video, data, multi-media content and the like) on demand using multiple encryptors. According to an embodiment, the STB's request for a VOD session may be routed by a session resource manager (SRM) to receive content from an appropriate encryptor chosen from multiple encryptors based on a predefined criteria. This approach can minimize a number of encryptions/encryption devices (such as ECM generators) needed in a cable network. However, the simulcrypt encryptor can be also used, if necessary, e.g., when CAS-only encryptors are fully loaded with a traffic.
H04N 21/2343 - Traitement de flux vidéo élémentaires, p.ex. raccordement de flux vidéo ou transformation de graphes de scènes MPEG-4 impliquant des opérations de reformatage de signaux vidéo pour la distribution ou la mise en conformité avec les requêtes des utilisateurs finaux ou les exigences des dispositifs des utilisateurs finaux
H04N 21/418 - Carte externe destinée à être utilisée en combinaison avec le dispositif client, p.ex. pour l'accès conditionnel
H04N 21/4405 - Traitement de flux élémentaires vidéo, p.ex. raccordement d'un clip vidéo récupéré d'un stockage local avec un flux vidéo en entrée ou rendu de scènes selon des graphes de scène MPEG-4 impliquant le décryptage de flux vidéo
H04N 21/437 - Interfaçage de la voie montante du réseau de transmission, p.ex. pour transmettre des requêtes de client à un serveur VOD
H04N 21/2347 - Traitement de flux vidéo élémentaires, p.ex. raccordement de flux vidéo ou transformation de graphes de scènes MPEG-4 impliquant le cryptage de flux vidéo
H04N 21/2383 - Codage de canal d'un flux binaire numérique, p.ex. modulation
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
H04L 9/32 - Dispositions pour les communications secrètes ou protégées; Protocoles réseaux de sécurité comprenant des moyens pour vérifier l'identité ou l'autorisation d'un utilisateur du système
61.
PROVIDER EQUIPMENT GENERATION OF CUSTOMER USER INTERFACE
Systems, methods, apparatus and other mechanisms of providing a user interface (Ul) at a service provider node in the television distribution system by encoding Ul imagery to provide an encoded video stream bearing the Ul imagery and configured for rendering as a Ul screen via a client device video decoder, the Ul screen including programming information associated with each of a subset of broadcast channels during a plurality of time intervals, and scaled live video imagery associated with each of the subset of broadcast channels; and at the service provider node, scaling video streams associated with at least the subset of broadcast channels to provide respective scaled live video imagery for the Ul screen.
Systems, methods, apparatus and other mechanisms for authenticating wireless customer premises equipment (CPE) at a service location by transmitting an authentication trigger signal via a first communication mechanism associated with the service location toward CPE associated with the service location; monitoring a second communication mechanism associated with the service location to detect therefrom any received authentication trigger response signals; and authenticating only CPE associated with a received authentication trigger response signal, wherein at least one of the first and second communication mechanisms comprises a local infrastructure element.
H04L 9/32 - Dispositions pour les communications secrètes ou protégées; Protocoles réseaux de sécurité comprenant des moyens pour vérifier l'identité ou l'autorisation d'un utilisateur du système
63.
SYSTEM AND METHOD BRIDGING CLOUD BASED USER INTERFACES
Systems and apparatus providing UI functionality at a client device via a video decoder/renderer operates to decode a compressed video stream bearing UI imagery and a messaging proxy is adapted to process user interaction data indicative of a local function.
H04N 7/173 - Systèmes à secret analogiques; Systèmes à abonnement analogiques à deux voies, p.ex. l'abonné envoyant un signal de sélection du programme