Apparatuses, systems, and methods for high data mode operation in cellular networks. A UE may determine, for an interface to a high-speed cellular network, a categorization from a plurality of categorizations, determine availability of the high-speed cellular network, and select, based at least in part on the categorization and availability of the high-speed cellular network, the interface for a data connection to the high-speed cellular network. The categorization may be one of expensive or not expensive and/or one of a first level associated with a higher compression codec rate or a second level associated with a lower compression codec rate. The UE may receive, from one of the a low-speed cellular network or the high-speed cellular network, carrier plan information for a cellular data service carrier and analyze the carrier plan information to determine desirability of a switch, e.g., from the low-speed cellular network to the high-speed cellular network.

Apparatuses, systems, and methods for high data mode operation in cellular networks. A UE may determine, for an interface to a high-speed cellular network, a categorization from a plurality of categorizations, determine availability of the high-speed cellular network, and select, based at least in part on the categorization and availability of the high-speed cellular network, the interface for a data connection to the high-speed cellular network. The categorization may be one of expensive or not expensive and/or one of a first level associated with a higher compression codec rate or a second level associated with a lower compression codec rate. The UE may receive, from one of the a low-speed cellular network or the high-speed cellular network, carrier plan information for a cellular data service carrier and analyze the carrier plan information to determine desirability of a switch, e.g., from the low-speed cellular network to the high-speed cellular network.

A method performed by a User Equipment (UE) includes receiving, through Radio Resource Control (RRC) signaling from a Base Station (BS), an indication indicating a dormancy cell group having at least a first serving cell and a second serving cell, receiving, through Physical Layer (PHY) signaling from the BS, a signal associated with a specific Downlink Control Information (DCI) format indicating a dormant behavior applicable to all serving cells in the dormancy cell group, wherein the signal indicates the dormant behavior via a single bit, applying the dormant behavior to the first serving cell and the second serving cell when the signal indicates that the dormant behavior is to be activated, and not applying the dormant behavior to the first serving cell and the second serving cell when the signal indicates that the dormant behavior is to be deactivated.

Aspects of the subject disclosure may include, for example, obtaining data regarding interference detected in a received communication signal, and performing polarization adjusting for one or more orthogonally-polarized element pairs of an antenna system such that an impact of the interference on the antenna system is minimized. Other embodiments are disclosed.

Aspects of the subject disclosure may include, for example, obtaining data regarding interference detected in a received communication signal, and performing polarization adjusting for one or more orthogonally-polarized element pairs of an antenna system such that an impact of the interference on the antenna system is minimized. Other embodiments are disclosed.

Method for orchestrating wireless sensors, including registering each of a plurality of monitoring sensors that are attached to a respective plurality of wireless hosting equipment, with an orchestrator, generating, for each sensor, a monitoring plan including a description of wireless channels/protocols for the sensor to monitor, and amounts of time that the sensor should spend monitoring each channel/protocol prior to advancing to a next channel/protocol, wherein the monitoring plan for a sensor includes directives that instruct the sensor what to do when a monitoring period for a channel/protocol is interrupted before its intended monitoring time is finished, attempting, by the sensors, to monitor the channels/protocols specified in the sensor's monitoring plan in accordance with the time specified in the sensor's monitoring plan, and generating, by each sensor, an execution report including time spent at each channel/protocol, amount of data collected from each channel/protocol, and data captured from each channel/protocol.

Method for orchestrating wireless sensors, including registering each of a plurality of monitoring sensors that are attached to a respective plurality of wireless hosting equipment, with an orchestrator, generating, for each sensor, a monitoring plan including a description of wireless channels/protocols for the sensor to monitor, and amounts of time that the sensor should spend monitoring each channel/protocol prior to advancing to a next channel/protocol, wherein the monitoring plan for a sensor includes directives that instruct the sensor what to do when a monitoring period for a channel/protocol is interrupted before its intended monitoring time is finished, attempting, by the sensors, to monitor the channels/protocols specified in the sensor's monitoring plan in accordance with the time specified in the sensor's monitoring plan, and generating, by each sensor, an execution report including time spent at each channel/protocol, amount of data collected from each channel/protocol, and data captured from each channel/protocol.

The present disclosure provides a method and device for wireless communications, comprising receiving a first service through a first radio bearer; receiving a first signaling, transmitting a first report; and receiving the first service through at least a latter of the first radio bearer and the second radio bearer; wherein when a first condition is satisfied, the first report is transmitted; the first condition comprises that a reception of the first service is modified from the first radio bearer to the second radio bearer; a bearer type of the first radio bearer is different from a bearer type of the second radio bearer, and the bearer type comprises a non-unicast bearer and a unicast bearer. By reasonably determining a radio bearer and transmitting a first report, the present disclosure reduces packet missing rate and interruption and improves reliability.

The present disclosure provides a method and device for wireless communications, comprising receiving a first service through a first radio bearer; receiving a first signaling, transmitting a first report; and receiving the first service through at least a latter of the first radio bearer and the second radio bearer; wherein when a first condition is satisfied, the first report is transmitted; the first condition comprises that a reception of the first service is modified from the first radio bearer to the second radio bearer; a bearer type of the first radio bearer is different from a bearer type of the second radio bearer, and the bearer type comprises a non-unicast bearer and a unicast bearer. By reasonably determining a radio bearer and transmitting a first report, the present disclosure reduces packet missing rate and interruption and improves reliability.

A method and system to control configuration of dual-connectivity service a user equipment device (UE), wherein the dual-connectivity service including the UE being served concurrently by a master node (MN) over a first connection and by a secondary node (SN) over a second connection. An example method includes (i) identifying multiple pairs of access nodes as candidate pairs of access nodes to be the MN and SN for the dual-connectivity service, (ii) for each identified pair, determining an inter-access-node communication delay, (iii) comparing the determined inter-access-node communication delays of the identified pairs and, based on the comparing, selecting one of the identified pairs to be the MN and SN for the dual-connectivity service, and (iv) causing the dual-connectivity service to be set up for the UE with the selected pair of access nodes being the MN and SN for the dual-connectivity service.