Presented herein are techniques to facilitate dual-connectivity support for a user equipment (UE) in a hybrid cell virtualized Radio Access Network (vRAN) architecture. In one example, a method may include obtaining, by a node of a mobile network via a first cell of a RAN, a request for a UE to connect to the mobile network via the first cell in which the RAN includes at least one shared cell and at least one unique cell; determining that the UE is allowed for dual-connectivity operation; and providing a policy to the UE, wherein the policy identifies, for each of one or more applications, one of a shared cell operating mode or a unique cell operating mode that the UE is to utilize for each of the one or more applications.

Aspects of the subject disclosure may include, for example, establishing a first connection with a first network via a first link, establishing a second connection with a second network via a second link subsequent to the establishing of the first connection, obtaining a first threshold value associated with a quality of the second link, measuring a value for a parameter associated with the second link, resulting in a measured value, comparing the measured value to the first threshold value, determining, based on the comparing, that the measured value is less than the first threshold value, and transmitting, based on the determining, a message that signifies that the measured value is less than the first threshold value. Other embodiments are disclosed.

Methods, systems, and devices for wireless communication at a user equipment (UE) are described. A UE may establish a wireless connection with a primary cell and may identify a set of antenna modules of the UE and multiple sets of receive beams. Each set of receive beams may include at least one beam from each antenna module. The UE may perform a measurement procedure on signals received from one or more candidate secondary cells using at least a first set of receive beams. The UE may then transmit, to the primary cell, a measurement report based on performing the measurement procedure upon determining that at least one of the multiple sets of receive beams satisfies a threshold value and before performing the measurement procedure on signals received from the one or more candidate secondary cells using at least one remaining set of receive beams.

When a first access node is considering setup of dual-connectivity service for a UE, the first access node could take into consideration a group delay variation of each of one or more candidate second access nodes, in order to decide whether to set up the dual-connectivity service for the UE and/or to decide which of the multiple second access nodes to use for the UE's dual-connectivity service. For instance, the first access node may decide to use a given candidate second access node for the dual-connectivity service of the UE, with the decision being based on the given candidate second access node having a lower group delay variation than one or more other candidate second access nodes.

When a first access node is considering setup of dual-connectivity service for a UE, the first access node could take into consideration a group delay variation of each of one or more candidate second access nodes, in order to decide whether to set up the dual-connectivity service for the UE and/or to decide which of the multiple second access nodes to use for the UE's dual-connectivity service. For instance, the first access node may decide to use a given candidate second access node for the dual-connectivity service of the UE, with the decision being based on the given candidate second access node having a lower group delay variation than one or more other candidate second access nodes.

The technologies described herein are generally directed to modeling radio wave propagation in a fifth generation (5G) network or other next generation networks. For example, a method described herein can include, for a network application, identifying, by a system comprising a processor, a user equipment communicatively coupled to base station equipment via a first network connection implementing a first radio access technology and a second network connection implementing a second radio access technology. The method can further include identifying, by the system, performance characteristics of the first network connection and the second network connection. Further, the method can include, based on the first performance characteristic and the second performance characteristic, facilitating, by the system, allocating, to the user equipment, power for uplink transmission by the first network connection and the second network connection, resulting in an uplink power allocation.

A method executed by a User Equipment (UE) supporting Multi-Radio Dual Connectivity (MR-DC) with a first cell group and a second cell group in a mobile communication system is provided. The UE configures a primary path to the first cell group and a secondary path to the second cell group for uplink transmissions in an MR-DC operation. The UE determines whether the primary path is inapplicable when performing the uplink transmissions on the primary path. The UE switches from the primary path to the secondary path to continue the uplink transmissions in response to the primary path being inapplicable.

A method executed by a User Equipment (UE) supporting Multi-Radio Dual Connectivity (MR-DC) with a first cell group and a second cell group in a mobile communication system is provided. The UE configures a primary path to the first cell group and a secondary path to the second cell group for uplink transmissions in an MR-DC operation. The UE determines whether the primary path is inapplicable when performing the uplink transmissions on the primary path. The UE switches from the primary path to the secondary path to continue the uplink transmissions in response to the primary path being inapplicable.

The present invention relates to methods and apparatus for providing backhaul communications. An exemplary method embodiment includes the steps of: determining, by a first wireless base station of a first wireless network, whether a first backhaul connection path between the first wireless base station and a core network entity of a first service provider includes a communications link which is part of a second network being operated by a different service provider; determining, by the first wireless base station, data transmission latency between the first wireless base station and the core network entity using the first backhaul connection path; establishing, by the first wireless base station, a second backhaul connection path between the first wireless base station and the core network entity, said second backhaul connection including a wireless connection to a second wireless base station which is part of the first wireless network.

The present invention relates to methods and apparatus for providing backhaul communications. An exemplary method embodiment includes the steps of: determining, by a first wireless base station of a first wireless network, whether a first backhaul connection path between the first wireless base station and a core network entity of a first service provider includes a communications link which is part of a second network being operated by a different service provider; determining, by the first wireless base station, data transmission latency between the first wireless base station and the core network entity using the first backhaul connection path; establishing, by the first wireless base station, a second backhaul connection path between the first wireless base station and the core network entity, said second backhaul connection including a wireless connection to a second wireless base station which is part of the first wireless network.