Many customers have difficulty setting up a new extender device in the customer premises environment to improve their multimedia service. Some embodiments include configuring an extender device based on existing WiFi network credentials to minimize errors. Some embodiments include an application for mobile devices that may enable the transfer of network credentials from existing multimedia devices on the WiFi network to configure a new extender device in real time. For example, the configuration may be based on a customer account, a corresponding environment, and corresponding multimedia devices associated with the customer account. The extender device may be configured with the network credentials (e.g., a WiFi service set identifier (SSID) and password) that is common to the corresponding multimedia devices associated with the customer account.

Methods and apparatuses for managing dual connectivity. A method for operating a UE includes receiving a configuration for dynamic power sharing (DPS) between transmissions on a master cell group (MCG) and transmissions on a secondary cell group (SCG) and determining a time offset as a function of sub-carrier spacing (SCS) configurations and of configurations for a PUSCH processing capability on the MCG and on the SCG. The method further includes determining a maximum power for a PUSCH transmission on the SCG, at a beginning of the PUSCH transmission on the SCG, when each of the transmissions on the MCG is scheduled by a downlink control information (DCI) format in a PDCCH reception that ends at least the time offset before the beginning of the PUSCH transmission on the SCG. The method further includes transmitting the transmissions on the MCG and the PUSCH transmission on the SCG.

Methods and apparatuses for managing dual connectivity. A method for operating a UE includes receiving a configuration for dynamic power sharing (DPS) between transmissions on a master cell group (MCG) and transmissions on a secondary cell group (SCG) and determining a time offset as a function of sub-carrier spacing (SCS) configurations and of configurations for a PUSCH processing capability on the MCG and on the SCG. The method further includes determining a maximum power for a PUSCH transmission on the SCG, at a beginning of the PUSCH transmission on the SCG, when each of the transmissions on the MCG is scheduled by a downlink control information (DCI) format in a PDCCH reception that ends at least the time offset before the beginning of the PUSCH transmission on the SCG. The method further includes transmitting the transmissions on the MCG and the PUSCH transmission on the SCG.

Disclosed herein is a method of a network operator controller for managing a plurality of Internet of Things (IoT)-devices associated with an IoT device owner and connected to a wireless network. The method comprises receiving a list of IoT devices that are scheduled for a firmware update, wherein the list is indicative of respective update data and update procedure for each IoT device of the list; determining at least one network node serving a geographical area covering a respective location of each of the IoT devices of the list of devices; causing caching of the respective update data; determining an updating schedule indicative of when each IoT device is to receive its respective update data; and instructing the at least one network node to update the IoT devices with the cached respective update data according to the updating schedule and update procedure.

It is provided a method for configuring a target device. The method comprises the steps of: transmitting a configuration request message to the target device, the configuration request message comprising a configuration request and a request signature, wherein the request signature is based on the configuration request; receiving a configuration response message from the target device, the configuration response message comprising a configuration response and a response signature, wherein the response signature is based on the configuration response and the request signature; verifying the response signature to determine whether the configuration response message is valid, based on the configuration response, the request signature and a public key for the target device; and transmitting a configuration commit message to the target device only when the configuration response message is valid, the configuration commit message comprising a configuration commit indicator and a commit signature.

It is provided a method for configuring a target device. The method comprises the steps of: transmitting a configuration request message to the target device, the configuration request message comprising a configuration request and a request signature, wherein the request signature is based on the configuration request; receiving a configuration response message from the target device, the configuration response message comprising a configuration response and a response signature, wherein the response signature is based on the configuration response and the request signature; verifying the response signature to determine whether the configuration response message is valid, based on the configuration response, the request signature and a public key for the target device; and transmitting a configuration commit message to the target device only when the configuration response message is valid, the configuration commit message comprising a configuration commit indicator and a commit signature.

A method for deleting user equipment devices UEs in batches, where the method includes: A control device sends a delete instruction to a virtual broadband remote access server (vBRAS)-control plane (CP), where the delete instruction includes a target attribute, and where the vBRAS-CP instructs vBRAS-user plane (UP) devices to delete all user equipment devices meeting the target attribute according to the delete instruction.

An electronic monitoring system is provided that implements at least two communication paths using primary and secondary radios for facilitating self-installation or setup of electronic devices such as monitoring devices and/or various smart home devices using one of the communication paths to transmit various network and other credentials. The system may allow a device to automatically set itself up by scanning for a cooperating network device, such as a hub, that can provide network and/or user account information to the device, facilitating integration or onboarding of the device with minimal or without user action. The secondary radio may have a range at least commensurate with, and typically longer than, the range of the primary radio, permitting device setup anywhere within the system's primary coverage area.

Examples described herein relate to configuration of access points including Internet-of-Things (IoT) radio. An access point identifier list is received from a network administration node in a network. Each access point identifier in the access point identifier list is uniquely associated with an access point, which includes an IoT radio. A first rules list is received from the network administration node. Each rule in the first rules list indicates a constraint and access point configuration values. An objective function is used to identify access point identifiers satisfying one or more of the constraints in the rules. The access points associated with the identified access point identifiers are configured with the access point configuration values as indicated in the rules.

A Wi-Fi device includes a controller coupled to a writeable memory implementing a MAC and PHY layer and to a transceiver. Connection data stored in the writeable memory includes Wi-Fi connection parameters including≥1 router MAC level information or a most recently utilized (MRU) channel used, and IP addresses including≥1 of an IP address of the Wi-Fi device, IP address of the MRU router, an IP address of a MRU target server, and an IP address of a network connected device. An accelerated reconnecting to a Wi-Fi network algorithm is implemented by the processor is for starting from being in a network disconnected state, establishing current connection parameters for a current Wi-Fi network connection using the Wi-Fi connection parameters for at least one MAC layer parameter for the MAC layer.