A system for converging fifth generation (5G) communication systems for supporting higher data rates beyond fourth generation (4G) systems with a technology for Internet of things (IoT) is provided. The communication method and system may be applied to intelligent services based on the 5G communication technology and the IoT-related technology, such as smart home, smart building, smart city, smart car, connected car, health care, digital education, smart retail, security and safety services. A system is provided for determining system information validity by acquiring and storing a first system information block and other system information, including information on a public land mobile network (PLMN) identity and a value tag, and determining whether the stored system information is valid for the cell. As another example, a terminal and base station are provided for performing beam failure detection and a recovery procedure using first and second configuration information for beam failure recovery (BFR) and if failure is detected, initiating a first random access (RA) procedure and if second configuration information is received while the first RA procedure is ongoing, terminating the first RA procedure and initiating a second RA procedure based on the second configuration information.

A system for converging fifth generation (5G) communication systems for supporting higher data rates beyond fourth generation (4G) systems with a technology for Internet of things (IoT) is provided. The communication method and system may be applied to intelligent services based on the 5G communication technology and the IoT-related technology, such as smart home, smart building, smart city, smart car, connected car, health care, digital education, smart retail, security and safety services. A system is provided for determining system information validity by acquiring and storing a first system information block and other system information, including information on a public land mobile network (PLMN) identity and a value tag, and determining whether the stored system information is valid for the cell. As another example, a terminal and base station are provided for performing beam failure detection and a recovery procedure using first and second configuration information for beam failure recovery (BFR) and if failure is detected, initiating a first random access (RA) procedure and if second configuration information is received while the first RA procedure is ongoing, terminating the first RA procedure and initiating a second RA procedure based on the second configuration information.

A method, an apparatus, and a system for migrating a virtual network function instance, where the method includes starting a signaling message migration operation before or when running status information replication is started such that signaling message migration can also be performed synchronously with running status information replication during migration of a virtual network function instance. Because signaling message migration and running status information replication occur simultaneously, new running status information created after migration and changed running status information can be synchronized by signaling message migration. Therefore, an amount of replicated running status information is reduced, migration efficiency of a virtual network function instance is improved, a backup virtual network function can take over a faulty virtual network function as quickly as possible, and fault recovery efficiency is improved.

A method, an apparatus, and a system for migrating a virtual network function instance, where the method includes starting a signaling message migration operation before or when running status information replication is started such that signaling message migration can also be performed synchronously with running status information replication during migration of a virtual network function instance. Because signaling message migration and running status information replication occur simultaneously, new running status information created after migration and changed running status information can be synchronized by signaling message migration. Therefore, an amount of replicated running status information is reduced, migration efficiency of a virtual network function instance is improved, a backup virtual network function can take over a faulty virtual network function as quickly as possible, and fault recovery efficiency is improved.

Embodiments of the application disclose service notification methods and mobile edge hosts. In an embodiment, a method comprising: receiving, by a first mobile edge platform, a service registration message from a first application instance, wherein the first mobile edge platform and the first application instance are comprised in a first mobile edge host; and sending, by the first mobile edge platform, a service notification message to a second mobile edge platform comprised in a second mobile edge host.

Embodiments of the application disclose service notification methods and mobile edge hosts. In an embodiment, a method comprising: receiving, by a first mobile edge platform, a service registration message from a first application instance, wherein the first mobile edge platform and the first application instance are comprised in a first mobile edge host; and sending, by the first mobile edge platform, a service notification message to a second mobile edge platform comprised in a second mobile edge host.

An embodiment of the present disclosure provides a network access method, including transmitting a request for acquiring shared network information to a shared server if a mobile communication terminal detects that a network identification of a PLMN of a visited place does not exist in a local memory of the mobile communication terminal; receiving the shared network information which the shared server transmits in response to the request, and acquiring the network identification of the PLMN of the visited place from the shared network information; adding the network identification of the PLMN of the visited place to an EPLMN list by the mobile communication terminal; and accessing a network according to the EPLMN list.

An embodiment of the present disclosure provides a network access method, including transmitting a request for acquiring shared network information to a shared server if a mobile communication terminal detects that a network identification of a PLMN of a visited place does not exist in a local memory of the mobile communication terminal; receiving the shared network information which the shared server transmits in response to the request, and acquiring the network identification of the PLMN of the visited place from the shared network information; adding the network identification of the PLMN of the visited place to an EPLMN list by the mobile communication terminal; and accessing a network according to the EPLMN list.

One embodiment is directed to a system comprising a first unit communicatively coupled to a second unit via a communication link. The second unit comprises a reconfigurable circuit, wherein first and second circuit configuration images are stored in the second unit, the reconfigurable circuit configured with the first or second circuit configuration image. The second unit further comprises an interface device configured to communicatively couple the second unit to the communication link, wherein first and second interface configuration images are stored in the second unit, the interface device configured with the first or second interface configuration image based on the reconfigurable circuit configuration. The second unit configured so the interface device is configured with the first interface configuration image or the second interface configuration image when the reconfigurable circuit is configured with the first circuit configuration image or the second circuit configuration image respectively.

Various aspects described herein relate to calibrating transceiver impairment in wireless communications. Direct current (DC) components of one or more signals can be modified, using one or more configured DC components, for transmitting to a user equipment (UE) via a transmitter. A receiver can receive the one or more signals as transmitted via the transmitter. An impairment of at least one of the transmitter, the receiver, or a combination thereof, can be determined based at least in part on comparing the DC components of the one or more signals as received via the receiver to the one or more configured DC components. One or more components of at least one of the transmitter, the receiver, or a combination thereof can be adjusted to compensate for the impairment.