Data channel sending and receiving methods, and an apparatus are disclosed. The network device sends indication information to the terminal, where the indication information indicates that the terminal needs to detect data channel puncturing information. The network device sends the data channel puncturing information to the terminal. The network device sends a data channel to the terminal, where the data channel is punctured at a resource location.

Data channel sending and receiving methods, and an apparatus are disclosed. The network device sends indication information to the terminal, where the indication information indicates that the terminal needs to detect data channel puncturing information. The network device sends the data channel puncturing information to the terminal. The network device sends a data channel to the terminal, where the data channel is punctured at a resource location.

The present disclosure aims to provide a core node capable of appropriately allocating a radio resource of a RAN Slice allocated for a specific service to a radio terminal that uses this specific service. A core node (10) according to the present disclosure includes: a determination unit (14) configured to determine a radio resource to be allocated in accordance with a service provided for a radio terminal (30); and a communication unit (12) configured to transmit resource identification information indicating the radio resource determined in the determination unit (14) to a base station (20) that manages a plurality of radio resources for each RAN Slice associated with a service.

The present disclosure aims to provide a core node capable of appropriately allocating a radio resource of a RAN Slice allocated for a specific service to a radio terminal that uses this specific service. A core node (10) according to the present disclosure includes: a determination unit (14) configured to determine a radio resource to be allocated in accordance with a service provided for a radio terminal (30); and a communication unit (12) configured to transmit resource identification information indicating the radio resource determined in the determination unit (14) to a base station (20) that manages a plurality of radio resources for each RAN Slice associated with a service.

Various communication systems may benefit from an improved signaling protocol. For example, communication systems may benefit from an improved network support for a narrowband internet of things in a hosting long term evolution carrier. A method, in certain embodiments, includes shifting a frequency of a downlink long term evolution channel by a pre-determined amount. The shift causes a duplex distance between the downlink long term evolution channel and an uplink long term evolution channel to change. The method includes blanking at least one overlapping radio resource in at least one of the uplink long term evolution channel or an uplink narrowband internet of things channel. The uplink narrowband internet of things channel and the uplink long term evolution channel at least partially overlap. In addition, the method includes receiving data on the uplink narrowband internet of things channel and an additional uplink narrowband internet of things channel at a network entity from a user equipment.

Various communication systems may benefit from an improved signaling protocol. For example, communication systems may benefit from an improved network support for a narrowband internet of things in a hosting long term evolution carrier. A method, in certain embodiments, includes shifting a frequency of a downlink long term evolution channel by a pre-determined amount. The shift causes a duplex distance between the downlink long term evolution channel and an uplink long term evolution channel to change. The method includes blanking at least one overlapping radio resource in at least one of the uplink long term evolution channel or an uplink narrowband internet of things channel. The uplink narrowband internet of things channel and the uplink long term evolution channel at least partially overlap. In addition, the method includes receiving data on the uplink narrowband internet of things channel and an additional uplink narrowband internet of things channel at a network entity from a user equipment.

A network slice instance management method, an apparatus, and a system. The method includes: determining, by a first network device, that a configuration parameter of a first network slice subnet instance needs to be modified, where the first network device is configured to manage the first network slice subnet instance; modifying, by the first network device, the configuration parameter of the first network slice subnet instance; and sending, by the first network device, report information to a second network device, where the report information is used to indicate a result of modifying the configuration parameter of the first network slice subnet instance, the second network device is configured to manage a first network slice instance, and the first network slice instance includes the first network slice subnet instance.

A network slice instance management method, an apparatus, and a system. The method includes: determining, by a first network device, that a configuration parameter of a first network slice subnet instance needs to be modified, where the first network device is configured to manage the first network slice subnet instance; modifying, by the first network device, the configuration parameter of the first network slice subnet instance; and sending, by the first network device, report information to a second network device, where the report information is used to indicate a result of modifying the configuration parameter of the first network slice subnet instance, the second network device is configured to manage a first network slice instance, and the first network slice instance includes the first network slice subnet instance.

Systems and methods include provisioning a default slice having a default subdomain corresponding to a set of resources that are any of physical and virtual components in a network; decomposing the default subdomain into a first set of one or more subdomains, wherein collectively the first set of one or more subdomains include all of the set of resources; provisioning one or more application slices as children from the default slice that inherit capabilities of the default slice; and assigning one or more subdomains from the first set of the one or more subdomains to the respective one or more application slices.

Systems and methods include provisioning a default slice having a default subdomain corresponding to a set of resources that are any of physical and virtual components in a network; decomposing the default subdomain into a first set of one or more subdomains, wherein collectively the first set of one or more subdomains include all of the set of resources; provisioning one or more application slices as children from the default slice that inherit capabilities of the default slice; and assigning one or more subdomains from the first set of the one or more subdomains to the respective one or more application slices.