CN110839263B - Information configuration method, device, equipment and storage medium - Google Patents

Abstract

The embodiment of the invention discloses an information configuration method, an information configuration device, information configuration equipment and an information storage medium, wherein the method comprises the following steps: receiving configuration information sent by network equipment; determining a frequency point related to mobility management and/or a cell corresponding to the frequency point according to the configuration information and a network identifier of an operator to which the terminal belongs; measuring the frequency points and/or the cells corresponding to the frequency points to obtain a measurement result; and determining whether to perform cell reselection or report the measurement result to the network equipment according to the measurement result.

Description

Information configuration method, device, equipment and storage medium

Technical Field

The embodiment of the invention relates to, but is not limited to, a 5G communication technology, in particular to an information configuration method, an information configuration device, information configuration equipment and an information storage medium.

Background

In the 5G age, the frequency point and the cell which are required to be measured by the terminal are increased by more than 10 times compared with the 4G age, and if the frequency point and the cell are not optimized, the measurement power consumption, the measurement evaluation and the access time delay of the terminal are increased sharply, so that the user experience of the 5G terminal is seriously affected.

Disclosure of Invention

In view of the above, embodiments of the present invention provide an information configuration method, apparatus, device, and storage medium for solving at least one problem existing in the related art.

The technical scheme of the embodiment of the invention is realized as follows:

the embodiment of the invention provides an information configuration method, which comprises the following steps:

receiving configuration information sent by network equipment;

determining a frequency point related to small mobility management and/or a cell corresponding to the frequency point according to the configuration information and a network identifier of an operator to which the terminal belongs;

measuring the frequency points and/or the cells corresponding to the frequency points to obtain a measurement result;

and determining whether to perform cell reselection or report the measurement result to the network equipment according to the measurement result.

The embodiment of the invention provides an information configuration method, which comprises the following steps:

transmitting configuration information to the terminal, wherein the configuration information comprises at least one of the following components:

the method comprises the steps that first configuration information related to inter-frequency cell reselection comprises inter-frequency point information and network identifications corresponding to the inter-frequency point information;

the second configuration information related to the inter-system cell reselection comprises inter-system frequency point information and a network identifier corresponding to the inter-system frequency point information;

third configuration information related to network control mobility or switching, wherein the third configuration information comprises inter-frequency point information and/or network identifications corresponding to the inter-frequency point information;

And fourth configuration information related to network control mobility or switching, wherein the fourth configuration information comprises inter-system frequency point information and/or network identification corresponding to the inter-system frequency point information.

The embodiment of the invention provides an information configuration device, which comprises:

the first receiving unit is used for receiving the configuration information sent by the network equipment;

a first determining unit, configured to determine, according to the configuration information and a network identifier of an operator to which the terminal belongs, a frequency point related to mobility management and/or a cell corresponding to the frequency point;

the first measurement unit is used for measuring the frequency point and/or the cell corresponding to the frequency point to obtain a measurement result;

and the second determining unit is used for determining whether to perform cell reselection or report the measurement result to the network equipment according to the measurement result.

The embodiment of the invention provides an information configuration device, which comprises:

a third determining unit configured to determine configuration information, the configuration information including at least one of:

the method comprises the steps that first configuration information related to inter-frequency cell reselection comprises inter-frequency point information and network identifications corresponding to the inter-frequency point information;

The second configuration information related to the inter-system cell reselection comprises inter-system frequency point information and a network identifier corresponding to the inter-system frequency point information;

third configuration information related to network control mobility or switching, wherein the third configuration information comprises inter-frequency point information and/or network identifications corresponding to the inter-frequency point information;

the network control mobility or switching related fourth configuration information comprises different system frequency point information and/or network identifications corresponding to the frequency points;

and the sending unit is used for sending the configuration information to the terminal.

The embodiment of the invention provides a computer device, which comprises a memory and a processor, wherein the memory stores a computer program which can be run on the processor, and the processor realizes the steps in the method when executing the program.

Embodiments of the present invention provide a computer readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of the above method.

In the embodiment of the invention, configuration information sent by network equipment is received; determining a frequency point related to mobility management and/or a cell corresponding to the frequency point according to the configuration information and a network identifier of an operator to which the terminal belongs; measuring the frequency points and/or the cells corresponding to the frequency points to obtain a measurement result; determining whether to perform cell reselection or report the measurement result to the network equipment according to the measurement result; therefore, when the 5G base station is shared, the technology corresponding to the patent can be adopted to respectively perform mobility measurement configuration (cell reselection and switching) on the idle state and the connection state terminals, and under the conditions of small system information cost and software upgrading, the measurement cost and time delay of the terminals are effectively reduced, and the user experience is greatly improved.

Drawings

FIG. 1 is a schematic diagram of a network architecture according to an embodiment of the present invention;

FIG. 2A is a schematic diagram of an implementation flow of an information configuration method according to an embodiment of the present invention;

FIG. 2B is a schematic diagram of an implementation flow of an information configuration method according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of an implementation flow of an information configuration method according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of an implementation flow of an information configuration method according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of an implementation flow of an information configuration method according to an embodiment of the present invention;

FIG. 6A is a schematic diagram of a configuration of information configuration according to an embodiment of the present invention;

FIG. 6B is a schematic diagram of a second embodiment of the information configuration of the present invention;

fig. 7 is a schematic diagram of a hardware entity of a computer device according to an embodiment of the present invention.

Detailed Description

Compared with the traditional 2G/3G/4G system, the 5G system has higher deployment frequency, smaller single-station coverage range and greatly improved site density. Operators will invest a lot of infrastructure investment to build 5G networks, and subsequent operation optimization maintenance costs will also increase dramatically. These heavy costs will eventually lead to an inability to reduce the cost of the user, the user permeability and the popularity of the service will be severely impacted, and a serious challenge is presented to the development of 5G services. In the 5G era, in order to reduce the network construction and maintenance cost, numerous domestic and foreign operators and expert scholars including China operators express the sound of reducing the deployment cost of the 5G co-construction shared base station.

At present, the 4G system can send a plurality of public land mobile network (PublicLand Mobile Network, PLMN) identifiers in the broadcast information of the base station, when the terminal recognizes that the PLMN and the frequency point of the base station are supportable, the terminal is attached to the base station, when a service arrives, a random access request is initiated to the base station, corresponding wireless network access and core network authentication are carried out, and service connection is established after the terminal passes through. The sharing of the operator base stations is realized through the method.

Due to time and application scenario limitations, the 4G age did not have special performance optimizations for multiple operators sharing base stations. Especially, the terminal performs cell selection and cell reselection measurement in an idle state and mobility measurement in a connection state, and the terminal needs to measure all cells corresponding to all frequency points of all operators broadcasted by the base station, so that the measurement cost is huge. The current standard specifies that a 5G terminal needs to have the capability of measuring 13 total frequency points, including 2G/3G/4G/5G frequency points, usually one operator has 1-2G frequency points, 3-5 3G frequency points, 3-4G frequency points, 6-10 5G frequency points, and only one operator has 13-21 frequency points, if a network sharing mode is considered, and if the network sharing mode is simultaneously served by 2-3 operators, the total frequency points needing to be measured has 26-45 frequency points, which is far more than the measurement capability of the current 5G terminal. In the 5G age, the frequency point and the cell which are required to be measured by the terminal are increased by more than 10 times compared with the 4G age, and if the frequency point and the cell are not optimized, the measurement power consumption, the measurement evaluation and the access time delay of the terminal are increased sharply, so that the user experience of the 5G terminal is seriously affected.

The technical scheme of the invention is further elaborated below with reference to the drawings and examples.

In this embodiment, a network architecture is provided first, fig. 1 is a schematic diagram of a composition structure of the network architecture according to an embodiment of the present invention, and as shown in fig. 1, the network architecture includes two or more terminals 11, 12, 13 and 1N and a network device 31, where the terminals 11, 12, 13 and 1N interact with the network device 31 through a network 21. The terminal may be in the form of a device with information processing capabilities, such as a cell phone, tablet, desktop, personal digital assistant, navigator, digital telephone, video telephone, television, sensor device, etc., in an implementation.

The present embodiment proposes an information configuration method, which is applied to a terminal, and the functions implemented by the method may be implemented by invoking program codes by a processor in the terminal, and of course, the program codes may be stored in a computer storage medium, and it is apparent that the terminal includes at least the processor and the storage medium.

Fig. 2A is a schematic flow chart of an implementation of an information configuration method according to an embodiment of the present invention, as shown in fig. 2A, the method includes:

step S200, receiving configuration information sent by network equipment;

Step S201, determining a frequency point related to mobility management and/or a cell corresponding to the frequency point according to the configuration information and an operator network identifier of a terminal;

here, the mobility management includes: cell reselection, network control mobility, or handover.

In other embodiments, the configuration information includes at least one of:

the method comprises the steps that first configuration information related to inter-frequency cell reselection comprises inter-frequency point information and network identifications corresponding to the inter-frequency point information;

the second configuration information related to the inter-system cell reselection comprises inter-system frequency point information and a network identifier corresponding to the inter-system frequency point information;

third configuration information related to network control mobility or switching, wherein the third configuration information comprises inter-frequency point information and/or network identifications corresponding to the inter-frequency point information;

and fourth configuration information related to network control mobility or switching, wherein the fourth configuration information comprises inter-system frequency point information and/or network identification corresponding to the inter-system frequency point information.

The first configuration information comprises the first inter-frequency point information and a first network identifier corresponding to the first inter-frequency point information, and a second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point information; the second configuration information comprises the first inter-system frequency point information and a first network identifier corresponding to the first inter-system frequency point information, and the second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point information; the third configuration information comprises at least one of the first inter-frequency point information, a first network identifier corresponding to the first inter-frequency point, second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point; the fourth configuration information comprises at least one of the first inter-system frequency point information, a first network identifier corresponding to the first inter-system frequency point, second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point.

In other embodiments, the frequency bin comprises at least one of: different frequency points and different system frequency points in the same system.

Step S202, measuring the frequency points and/or the cells corresponding to the frequency points to obtain a measurement result;

step S203, whether to perform cell reselection or report the measurement result to the network equipment is determined according to the measurement result.

The embodiment shown in fig. 2A will be described one by one:

the embodiment provides an information configuration method, which comprises the following steps:

step A11, receiving configuration information sent by network equipment;

step A12, determining relevant frequency points for cell reselection according to the configuration information and the network identifier of the operator to which the terminal belongs;

in other embodiments, the configuration information includes at least one of:

the method comprises the steps that first configuration information related to inter-frequency cell reselection comprises inter-frequency point information and network identifications corresponding to the inter-frequency point information;

and the second configuration information related to the inter-system cell reselection comprises inter-system frequency point information and a network identifier corresponding to the inter-system frequency point information.

The first configuration information comprises the first inter-frequency point information and a first network identifier corresponding to the first inter-frequency point information, and a second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point information; the second configuration information comprises the first inter-system frequency point information and a first network identifier corresponding to the first inter-system frequency point information, and the second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point information;

In other embodiments, the frequency bin comprises at least one of: different frequency points and different system frequency points in the same system.

Step A13, measuring the frequency points to obtain a measurement result;

and step A14, determining whether to perform cell reselection or report the measurement result to the network equipment according to the measurement result.

The embodiment provides an information configuration method, which comprises the following steps:

step A21, receiving configuration information sent by network equipment;

step A22, determining a cell corresponding to a frequency point related to cell reselection according to the configuration information and an operator network identifier of a terminal;

in other embodiments, the configuration information includes at least one of:

the method comprises the steps that first configuration information related to inter-frequency cell reselection comprises inter-frequency point information and network identifications corresponding to the inter-frequency point information;

and the second configuration information related to the inter-system cell reselection comprises inter-system frequency point information and a network identifier corresponding to the inter-system frequency point information.

The first configuration information comprises the first inter-frequency point information and a first network identifier corresponding to the first inter-frequency point information, and a second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point information; the second configuration information comprises the first inter-system frequency point information and a first network identifier corresponding to the first inter-system frequency point information, and the second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point information;

In other embodiments, the frequency bin comprises at least one of: different frequency points and different system frequency points in the same system.

Step A23, measuring the cell corresponding to the frequency point to obtain a measurement result;

and step A24, determining whether to perform cell reselection or report the measurement result to the network equipment according to the measurement result.

The embodiment provides an information configuration method, which comprises the following steps:

step A31, receiving configuration information sent by network equipment;

step A32, determining the relevant frequency point for cell reselection and the cell corresponding to the frequency point according to the configuration information and the network identifier of the operator to which the terminal belongs;

in other embodiments, the configuration information includes at least one of:

the method comprises the steps that first configuration information related to inter-frequency cell reselection comprises inter-frequency point information and network identifications corresponding to the inter-frequency point information;

and the second configuration information related to the inter-system cell reselection comprises inter-system frequency point information and a network identifier corresponding to the inter-system frequency point information.

The first configuration information comprises the first inter-frequency point information and a first network identifier corresponding to the first inter-frequency point information, and a second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point information; the second configuration information comprises the first inter-system frequency point information and a first network identifier corresponding to the first inter-system frequency point information, and the second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point information.

In other embodiments, the frequency bin comprises at least one of: different frequency points and different system frequency points in the same system.

Step A33, measuring the frequency point and the cell corresponding to the frequency point to obtain a measurement result;

and step A34, determining whether to perform cell reselection or report the measurement result to the network equipment according to the measurement result.

The embodiment provides an information configuration method, which comprises the following steps:

step B11, receiving configuration information sent by the network equipment;

step B12, determining a frequency point related to the network control mobility and/or a cell corresponding to the frequency point according to the configuration information and the network identifier of an operator to which the terminal belongs;

in other embodiments, the configuration information includes at least one of:

the network control mobility related third configuration information comprises inter-frequency point information and/or network identification corresponding to the inter-frequency point information;

and the network controls fourth configuration information related to mobility, wherein the fourth configuration information comprises inter-system frequency point information and/or network identifications corresponding to the inter-system frequency point information.

The third configuration information comprises at least one of the first inter-frequency point information, a first network identifier corresponding to the first inter-frequency point, second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point; the fourth configuration information comprises at least one of the first inter-system frequency point information, a first network identifier corresponding to the first inter-system frequency point, second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point.

In other embodiments, the frequency bin comprises at least one of: different frequency points and different system frequency points in the same system.

Step B13, measuring the frequency points and/or the cells corresponding to the frequency points to obtain a measurement result;

and step B14, determining whether to perform cell reselection or report the measurement result to the network equipment according to the measurement result.

The embodiment provides an information configuration method, which comprises the following steps:

step B21, receiving configuration information sent by the network equipment;

step B22, determining the frequency point related to the network control mobility and the cell corresponding to the frequency point according to the configuration information and the network identifier of the operator to which the terminal belongs;

in other embodiments, the configuration information includes at least one of:

the network control mobility related third configuration information comprises inter-frequency point information and/or network identification corresponding to the inter-frequency point information;

and the network controls fourth configuration information related to mobility, wherein the fourth configuration information comprises inter-system frequency point information and/or network identifications corresponding to the inter-system frequency point information.

The third configuration information comprises at least one of the first inter-frequency point information, a first network identifier corresponding to the first inter-frequency point, second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point; the fourth configuration information comprises at least one of the first inter-system frequency point information, a first network identifier corresponding to the first inter-system frequency point, second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point.

In other embodiments, the frequency bin comprises at least one of: different frequency points and different system frequency points in the same system.

Step B23, measuring the frequency points and the cells corresponding to the frequency points to obtain a measurement result;

and step B24, determining whether to perform cell reselection or report the measurement result to the network equipment according to the measurement result.

The embodiment provides an information configuration method, which comprises the following steps:

step B31, receiving configuration information sent by the network equipment;

step B32, determining a cell corresponding to a frequency point related to the mobility of the network control according to the configuration information and the network identifier of the operator to which the terminal belongs;

in other embodiments, the configuration information includes at least one of:

the network control mobility related third configuration information comprises inter-frequency point information and/or network identification corresponding to the inter-frequency point information;

and the network controls fourth configuration information related to mobility, wherein the fourth configuration information comprises inter-system frequency point information and/or network identifications corresponding to the inter-system frequency point information.

The third configuration information comprises at least one of the first inter-frequency point information, a first network identifier corresponding to the first inter-frequency point, second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point; the fourth configuration information comprises at least one of the first inter-system frequency point information, a first network identifier corresponding to the first inter-system frequency point, second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point.

In other embodiments, the frequency bin comprises at least one of: different frequency points and different system frequency points in the same system.

Step B33, measuring the cell corresponding to the frequency point to obtain a measurement result;

and step B34, determining whether to perform cell reselection or report the measurement result to the network equipment according to the measurement result.

The embodiment provides an information configuration method, which comprises the following steps:

step C11, receiving configuration information sent by network equipment;

step C12, determining relevant frequency points for switching according to the configuration information and the network identifier of the operator to which the terminal belongs;

in other embodiments, the configuration information includes at least one of:

switching related third configuration information, wherein the third configuration information comprises inter-frequency point information and/or network identifications corresponding to the inter-frequency point information;

and switching related fourth configuration information, wherein the fourth configuration information comprises inter-system frequency point information and/or network identifications corresponding to the inter-system frequency point information.

The third configuration information comprises at least one of the first inter-frequency point information, a first network identifier corresponding to the first inter-frequency point, second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point; the fourth configuration information comprises at least one of the first inter-system frequency point information, a first network identifier corresponding to the first inter-system frequency point, second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point.

In other embodiments, the frequency bin comprises at least one of: different frequency points and different system frequency points in the same system.

Step C13, measuring the frequency points to obtain a measurement result;

and step C14, determining whether to perform cell reselection or report the measurement result to the network equipment according to the measurement result.

The embodiment provides an information configuration method, which comprises the following steps:

step C21, receiving configuration information sent by the network equipment;

step C22, determining a cell corresponding to the frequency point relevant to the switching according to the configuration information and the network identifier of the operator to which the terminal belongs;

in other embodiments, the configuration information includes at least one of:

switching related third configuration information, wherein the third configuration information comprises inter-frequency point information and/or network identifications corresponding to the inter-frequency point information;

and switching related fourth configuration information, wherein the fourth configuration information comprises inter-system frequency point information and/or network identifications corresponding to the inter-system frequency point information.

The third configuration information comprises at least one of the first inter-frequency point information, a first network identifier corresponding to the first inter-frequency point, second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point; the fourth configuration information comprises at least one of the first inter-system frequency point information, a first network identifier corresponding to the first inter-system frequency point, second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point.

In other embodiments, the frequency bin comprises at least one of: different frequency points and different system frequency points in the same system.

Step C23, measuring the cell corresponding to the frequency point to obtain a measurement result;

and step C24, determining whether to perform cell reselection or report the measurement result to the network equipment according to the measurement result.

The embodiment provides an information configuration method, which comprises the following steps:

step C31, receiving configuration information sent by the network equipment;

step C32, determining the relevant frequency point for switching and the cell corresponding to the frequency point according to the configuration information and the network identifier of the operator to which the terminal belongs;

in other embodiments, the configuration information includes at least one of:

switching related third configuration information, wherein the third configuration information comprises inter-frequency point information and/or network identifications corresponding to the inter-frequency point information;

and switching related fourth configuration information, wherein the fourth configuration information comprises inter-system frequency point information and/or network identifications corresponding to the inter-system frequency point information.

The third configuration information comprises at least one of the first inter-frequency point information, a first network identifier corresponding to the first inter-frequency point, second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point; the fourth configuration information comprises at least one of the first inter-system frequency point information, a first network identifier corresponding to the first inter-system frequency point, second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point.

In other embodiments, the frequency bin comprises at least one of: different frequency points and different system frequency points in the same system.

Step C33, measuring the frequency points and the cells corresponding to the frequency points to obtain a measurement result;

and step C34, determining whether to perform cell reselection or report the measurement result to the network equipment according to the measurement result.

In other embodiments, the configuration information includes at least one of:

the first configuration information comprises the inter-frequency point information and at least one network identifier corresponding to the inter-frequency point information;

the second configuration information comprises the inter-system frequency point information and at least one network identifier corresponding to the inter-system frequency point information;

the third configuration information comprises the inter-frequency point information and/or at least one network identifier corresponding to the inter-frequency point;

the fourth configuration information comprises the inter-system frequency point information and/or at least one network identifier corresponding to the inter-system frequency point.

In other embodiments, the configuration information includes at least one of:

when the first configuration information comprises a network identifier corresponding to the inter-frequency point information, the first configuration information comprises the network identifier of an operator to which the network equipment belongs and at least one network identifier of an operator sharing the network equipment;

When the second configuration information comprises a network identifier corresponding to the inter-system frequency point information, the second configuration information comprises the network identifier of the network equipment home operator and at least one network identifier of an operator sharing the network equipment;

when the third configuration information contains one network identifier corresponding to the inter-frequency point information, the third configuration information contains the network identifier of the operator to which the network equipment belongs and at least one network identifier of the operator sharing the network equipment;

and when the fourth configuration information comprises a network identifier corresponding to the inter-system frequency point information, the network identifier of the network equipment home operator and at least one network identifier of an operator sharing the network equipment are included.

In other embodiments, the determining, by the terminal, a frequency point related to mobility management and/or a cell corresponding to the frequency point includes:

step A1, the terminal determines the network identification of the affiliated operator from the memory or the SIM card, or the terminal determines the network identification of the affiliated operator according to the IMSI;

and step A2, the terminal determines frequency point information corresponding to the network identification identical to the network identification of the operator to which the terminal belongs in the configuration information as a frequency point and/or a cell corresponding to the frequency point relevant to the mobility management of the terminal according to the network identification of the operator to which the terminal belongs.

In other embodiments, the method further comprises: and receiving the configuration information sent by the network equipment through receiving a system message or a special message.

In other embodiments, the method further comprises: and when the receiving power or the receiving quality of the resident cell signal is smaller than a first preset threshold, starting cell reselection measurement, and measuring a cell corresponding to a frequency point or a frequency point which is contained in the first configuration information and/or the second configuration information and is the same as the network identification of an operator to which the terminal belongs, so as to obtain a measurement result.

In other embodiments, the method further comprises: and reselecting to a corresponding cell when the measurement result is larger than a second preset threshold.

In other embodiments, the measuring the frequency point and/or the cell corresponding to the frequency point to obtain a measurement result includes: and the terminal measures the frequency point or the cell corresponding to the frequency point which is the same as the network identifier of the operator to which the terminal belongs, and a measurement result is obtained.

In other embodiments, the determining whether to perform cell reselection or report the measurement result to the network device according to the measurement result includes: and when the terminal is in a connection state, the terminal reports the measurement result to the network equipment so that the network equipment can determine whether the terminal needs to be switched.

In other embodiments, the cell signal comprises at least one of: downlink reference signals, pilot signals, synchronization signals, broadcast signals, channel state indication signals, SSBs of cells.

The present embodiment proposes an information configuration method, which is applied to a network device, where the functions implemented by the method may be implemented by a processor in the network device calling program code, and of course the program code may be stored in a computer storage medium, where the network device includes at least a processor and a storage medium.

Fig. 2B is a schematic flowchart of an implementation of an information configuration method according to an embodiment of the present invention, as shown in fig. 2B, where the method includes:

step S211, determining configuration information;

the configuration information includes at least one of:

the method comprises the steps that first configuration information related to inter-frequency cell reselection comprises inter-frequency point information and network identifications corresponding to the inter-frequency point information;

the second configuration information related to the inter-system cell reselection comprises inter-system frequency point information and a network identifier corresponding to the inter-system frequency point information;

third configuration information related to network control mobility or switching, wherein the third configuration information comprises inter-frequency point information and/or network identifications corresponding to the inter-frequency point information;

And fourth configuration information related to network control mobility or switching, wherein the fourth configuration information comprises inter-system frequency point information and/or network identification corresponding to the inter-system frequency point information.

The first configuration information comprises the first inter-frequency point information and a first network identifier corresponding to the first inter-frequency point information, and a second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point information; the second configuration information comprises the first inter-system frequency point information and a first network identifier corresponding to the first inter-system frequency point information, and the second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point information; the third configuration information comprises at least one of the first inter-frequency point information, a first network identifier corresponding to the first inter-frequency point, second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point; the fourth configuration information comprises at least one of the first inter-system frequency point information, a first network identifier corresponding to the first inter-system frequency point, second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point.

In other embodiments, the determining the configuration information includes: and configuring the configuration information according to the network sharing information. Wherein the network sharing information includes: the first network identifier and the corresponding inter-frequency point information and/or inter-system frequency point information, and the second network identifier and the corresponding inter-frequency point information and/or inter-system frequency point information.

Step S212, the configuration information is sent to the terminal.

In other embodiments, the first configuration information includes the first inter-frequency point information and a first network identifier corresponding to the first inter-frequency point information, and the second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point information; the second configuration information comprises the first inter-system frequency point information and a first network identifier corresponding to the first inter-system frequency point information, and the second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point information; the third configuration information comprises at least one of the first inter-frequency point information, a first network identifier corresponding to the first inter-frequency point, second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point; the fourth configuration information comprises at least one of the first inter-system frequency point information, a first network identifier corresponding to the first inter-system frequency point, second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point.

In other embodiments, the configuration information includes at least one of:

the first configuration information comprises the inter-frequency point information and at least one network identifier corresponding to the inter-frequency point information;

the second configuration information comprises the inter-system frequency point information and at least one network identifier corresponding to the inter-system frequency point information;

the third configuration information comprises the inter-frequency point information and/or at least one network identifier corresponding to the inter-frequency point;

the fourth configuration information comprises the inter-system frequency point information and/or at least one network identifier corresponding to the inter-system frequency point.

In other embodiments, the configuration information includes at least one of:

when the first configuration information comprises a network identifier corresponding to the inter-frequency point information, the first configuration information comprises the network identifier of an operator to which the network equipment belongs and at least one network identifier of an operator sharing the network equipment;

when the second configuration information comprises a network identifier corresponding to the inter-system frequency point information, the second configuration information comprises the network identifier of the network equipment home operator and at least one network identifier of an operator sharing the network equipment;

When the third configuration information contains one network identifier corresponding to the inter-frequency point information, the third configuration information contains the network identifier of the operator to which the network equipment belongs and at least one network identifier of the operator sharing the network equipment;

and when the fourth configuration information comprises a network identifier corresponding to the inter-system frequency point information, the network identifier of the network equipment home operator and at least one network identifier of an operator sharing the network equipment are included.

In other embodiments, the first network identifier is a network identifier of an operator to which the network device belongs;

the second network identity is a network identity of an operator sharing the network device.

In other embodiments, the first configuration information is sent via a system message;

the second configuration information is sent through a system message;

the third configuration information is sent through an RRC message;

the fourth configuration information is transmitted through an RRC message.

In other embodiments, the method further comprises:

step B1, receiving a measurement result of the receiving power or the receiving quality of at least one cell signal on the frequency point reported by a terminal;

And B2, when the difference between the measurement result and a second measurement value obtained by measuring the receiving power or the receiving quality of the signal of the service cell by the terminal is larger than a preset third threshold, initiating a switching request to the cell corresponding to the measurement result.

In other embodiments, the cell signal comprises at least one of: downlink reference signals, pilot signals, synchronization signals, broadcast signals, channel state indication signals, SSBs of cells.

In other embodiments, the method further comprises: determining home operator information of the terminal; and determining configuration information for the terminal according to the home operator information of the terminal.

Wherein the determining home operator information of the terminal includes: and determining the home operator information of the terminal according to the IMSI identifier of the terminal.

Wherein, the determining the configuration information for the terminal according to the home operator information of the terminal includes: and determining frequency point information corresponding to the network identifier of the home operator of the terminal as configuration information of the terminal according to the network identifier of the home operator of the terminal and the network sharing information.

In other embodiments, the network identity is a public land mobile network identity.

In other embodiments, the network identification is sent implicitly, including: the network equipment determines a configuration information list, wherein each piece of information in the configuration information list corresponds to a specific network identifier; or the network equipment segments the configuration information, and each segment corresponds to a specific network identifier.

The embodiment of the invention provides an information configuration method, which comprises the following steps:

step S1, a terminal determines a frequency point to be measured by the terminal and/or a cell corresponding to the frequency point to be measured according to received configuration information;

wherein the configuration information includes at least one of: first configuration information for performing inter-frequency measurement for cell reselection, second configuration information for performing inter-system measurement for cell reselection, third configuration information for handover measurement, measurement configuration information;

the first configuration information comprises frequency point information of inter-frequency measurement and an operator identifier corresponding to the frequency point; the second configuration information comprises different system identifiers, measured frequency point information and operator identifiers corresponding to the frequency points; the third configuration information comprises frequency point information of a switching measurement frequency point complete set and an operator identifier corresponding to the frequency point; the measurement configuration information comprises a to-be-measured frequency point and or a to-be-measured cell list and an identifier corresponding to the to-be-measured frequency point, wherein the to-be-measured frequency point is a switching measurement frequency point corresponding to an operator identifier of the terminal.

Step S2, the terminal measures the frequency points with the same identifier as the corresponding operator of the terminal to obtain a measurement result;

in other embodiments, the same frequency bin comprises at least one of: the same different frequency points, different system frequency points and frequency points to be measured.

The operator identifier corresponding to the terminal comprises: an operator identifier of a contracted operator corresponding to the terminal, or an operator identifier of a home operator corresponding to the terminal.

And step S3, the terminal determines whether to switch/access according to the measurement result.

In other embodiments, the method further comprises: the terminal receives the configuration information sent by the network equipment in a broadcasting mode or a unicast mode.

The embodiment provides an information configuration method, which is described by taking an idle state as an example, and configuration information received by a terminal is first configuration information and second configuration information in the idle state. The method comprises the following steps:

step S11, the terminal receives the configuration information sent by the network equipment in a broadcast mode or a unicast mode.

Step S12, the terminal determines a frequency point to be measured by the terminal and/or a cell corresponding to the frequency point to be measured according to the received configuration information;

Wherein the configuration information includes at least one of: first configuration information for performing inter-frequency measurement for cell reselection, second configuration information for performing inter-system measurement for cell reselection;

the first configuration information comprises frequency point information of inter-frequency measurement and an operator identifier corresponding to the frequency point; the second configuration information comprises different system identifiers, measured frequency point information and operator identifiers corresponding to the frequency points;

and S13, when the receiving power or the receiving quality of the cell signal is smaller than a first preset threshold, the terminal starts cell reselection measurement, and measures the frequency point which is contained in the first configuration information and/or the second configuration information and is the same as the operator identifier of the terminal, so as to obtain a measurement result.

Here, step S13 provides a method of implementing step S202 in an idle state.

In other embodiments, the same frequency bin comprises at least one of: the same different frequency points, different system frequency points and frequency points to be measured. The operator identifier corresponding to the terminal comprises: an operator identifier of a contracted operator corresponding to the terminal, or an operator identifier of a home operator corresponding to the terminal.

And step S14, when the terminal determines that the measurement result of the cell signal is larger than a second preset threshold, reselecting to the corresponding cell.

Wherein the cell signal comprises at least one of: downlink reference signals, synchronization signals and channel state indication signals of cells.

Here, step S14 provides a method of implementing step S203 in an idle state.

The embodiment provides an information configuration method, which is described by taking a connection state as an example, and configuration information received by a terminal is third configuration information when the terminal is in the connection state. The method comprises the following steps:

step S21, the terminal receives the configuration information sent by the network equipment in a broadcast mode or a unicast mode.

Step S22, the terminal determines a frequency point to be measured by the terminal and/or a cell corresponding to the frequency point to be measured according to the received configuration information;

the configuration information is third configuration information, and the third configuration information comprises frequency point information of a switching measurement frequency point complete set and an operator identifier corresponding to the frequency point;

step S23, the terminal measures the determined frequency points to be measured, which are the same as the sign of the contracted operator or the sign of the attributive operator, and obtains the measurement results of the receiving power or the receiving quality of the signals of a plurality of cells on the frequency points to be measured.

Here, step S23 provides a method of implementing step S202 in an idle state.

In other embodiments, the same frequency bin comprises at least one of: the same different frequency points, different system frequency points and frequency points to be measured. The operator identifier corresponding to the terminal comprises: an operator identifier of a contracted operator corresponding to the terminal, or an operator identifier of a home operator corresponding to the terminal.

And step S24, the terminal reports the measurement result to the network equipment so as to enable the network equipment to determine whether to switch.

Here, the network receives the measurement results of the receiving power or the receiving quality of the cell signals on the frequency point to be measured reported by the terminal;

and the network equipment determines that when the difference between the measurement result and a second measurement value obtained by measuring the receiving power or the receiving quality of the cell signal by the terminal is larger than a preset third threshold, the network equipment initiates a switching request to a cell corresponding to the measurement result.

Wherein the cell signal comprises at least one of: downlink reference signals, synchronization signals and channel state indication signals of cells.

Here, step S24 provides a method of implementing step S203 in an idle state.

The embodiment provides an information configuration method, which is applied to network equipment, and comprises the following steps:

step S41, the network equipment configures the configuration information for the terminal according to the inter-operator base station sharing subscription information;

the inter-operator base station sharing subscription information includes: and sharing the different-frequency point to be measured and/or the corresponding cell of the operator of the network equipment.

Step S42, the network equipment sends configuration information to the terminal, wherein the configuration information is used for performing inter-frequency measurement and/or inter-system measurement of cell reselection.

Wherein the configuration information includes at least one of: first configuration information for performing inter-frequency measurement for cell reselection, second configuration information for performing inter-system measurement for cell reselection, third configuration information for handover measurement, measurement configuration information;

the first configuration information comprises frequency point information of inter-frequency measurement and an operator identifier corresponding to the frequency point; the second configuration information comprises different system identifiers, measured frequency point information and operator identifiers corresponding to the frequency points; the third configuration information comprises frequency point information of a switching measurement frequency point complete set and an operator identifier corresponding to the frequency point; the measurement configuration information comprises a to-be-measured frequency point and or a to-be-measured cell list and an identifier corresponding to the to-be-measured frequency point, wherein the to-be-measured frequency point is a switching measurement frequency point corresponding to an operator identifier of the terminal.

In other embodiments, when the terminal is in a connected state, the method further includes:

step S31, the network sets a measurement result of the receiving power or the receiving quality of a plurality of cell signals on the frequency point to be measured, which is reported by a receiving terminal;

step S32, the network equipment determines that when the difference between the measurement result and the second measurement value obtained by the terminal for measuring the receiving power or the receiving quality of the cell signal is larger than a preset third threshold, the network equipment initiates a switching request to the cell corresponding to the measurement result.

In other embodiments, the configuration information includes measurement configuration information, and when the terminal is in a connected state, the network device configures the configuration information for the terminal according to inter-operator base station sharing subscription information, including:

step S41, the network equipment obtains the operator identification of the terminal;

step S42, the network equipment determines measurement configuration information for the terminal according to the carrier identification of the load and the shared subscription information of the base stations among the carriers;

step S43, the measurement configuration information includes a to-be-measured frequency point and/or a to-be-measured cell list and an identifier corresponding to the to-be-measured frequency point, where the to-be-measured frequency point is a handover measurement frequency point corresponding to the operator identifier of the terminal.

The following will describe the schemes in terms of whether the terminal is in an idle state or a connected state, respectively, wherein the idle state comprises one solution and the connected state comprises two solutions.

Idle state solution

The embodiment provides an information configuration method, fig. 3 is a schematic implementation flow chart of the information configuration method according to the embodiment of the invention, and as shown in fig. 3, the method includes:

step S301, the network equipment sends first configuration information for performing inter-frequency measurement for cell reselection and or second configuration information for inter-system measurement;

the first configuration information and/or the second configuration information are configured by the network device according to inter-operator base station sharing subscription information, for example, the inter-operator base station sharing subscription information includes information such as different frequency to-be-tested frequency points and/or corresponding cells of an operator to which the network device belongs, different frequency to-be-tested frequency points and/or corresponding cells of the operator sharing the network device, and the network device configures the first configuration information and/or the second configuration information according to the inter-operator base station sharing subscription information.

The first configuration information and the second configuration information are sent in a broadcast mode or in a unicast mode (such as RRC signaling) (the broadcast mode sends a corresponding idle state scheme, and the unicast mode sends a corresponding idle state and/or connection state scheme).

The first configuration information comprises frequency point information of different frequency measurement and a first identifier corresponding to the frequency point, optionally comprises a neighbor cell list corresponding to the frequency point of the different frequency measurement, and optionally comprises a cell reselection priority corresponding to the frequency point of the different frequency measurement.

The second configuration information comprises a different system identifier, measured frequency point information and a second identifier corresponding to the frequency point, optionally comprises a neighbor cell list corresponding to the frequency point measured by the different system, and optionally comprises a cell reselection priority corresponding to the frequency point measured by the different system.

The first identifier and the second identifier indicate the operator identifier to which the frequency point belongs, and may be a PLMN number, an operator number, or the like; the first and second identities may be one or more PLMN numbers or operator numbers.

If the first identifier (second identifier) includes a plurality of PLMN numbers or operator numbers, the cell reselection priorities corresponding to each PLMN number or operator number may be different.

The foreign system identifier may be explicitly sent, for example, the foreign system identifier may be an enumerated value, when the value is 1, the corresponding foreign system is a 2G system (GSM/CDMA), when the value is 2, the corresponding foreign system is a 3G system (WCDMA/TD-SCDMA), and when the value is 3, the corresponding foreign system is a 4G system (TD-LTE/LTE FDD); the different system identifier may also be implicitly sent, for example, a specific different system corresponds to a specific system information block location, for example, a 2G system (GSM/CDMA) corresponds to a system information block location 1, a 3G system (WCDMA/TD-SCDMA) corresponds to a different system corresponding to a system information block location 2, and a 4G system (TD-LTE/LTE FDD) corresponds to a different system corresponding to a system information block location 3.

Step S302, the terminal receives the first configuration information for performing inter-frequency measurement for cell reselection and/or the second configuration information for inter-system measurement;

step S303, the terminal judges according to the operator identifier corresponding to the contracted operator or the operator identifier corresponding to the attribution operator, and determines the frequency point to be measured and/or the cell corresponding to the frequency point to be measured;

for example, an operator identifier corresponding to an operator subscribed by the terminal is plmn_1, the first configuration information includes three frequency points, an operator identifier corresponding to a frequency point one is plmn_1, an operator identifier corresponding to a frequency point two is plmn_2, and an operator identifier corresponding to a frequency point three is plmn_3; the terminal judges the frequency point one to be measured, and the optional terminal further reads a cell list corresponding to the frequency point one and determines a cell identifier in the cell list.

For example, an operator identifier corresponding to an operator subscribed by the terminal is plmn_1, the first configuration information includes three frequency points, an operator identifier corresponding to a frequency point one is plmn_1, operator identifiers corresponding to a frequency point two are plmn_1 and plmn_2, and an operator identifier corresponding to a frequency point three is plmn_3; the terminal judges the first frequency point and the second frequency point to be measured, and the optional terminal further reads a cell list corresponding to the first frequency point and the second frequency point and determines a cell identification in the cell list.

Step S304, the terminal measures the determined different frequency points and/or different system frequency points and/or to-be-measured frequency points which are the same as the operator identification corresponding to the contracted operator or the operator identification corresponding to the attributive operator;

step S305, when the receiving power or receiving quality of the downlink reference signal and/or the synchronizing signal and/or the channel state indicating signal of the cell (base station) is smaller than a first preset threshold, the terminal starts cell reselection measurement, and measures the frequency point which is contained in the first configuration information and/or the second configuration information and is the same as the operator identifier of the terminal, so as to obtain a first measured value;

step S306, when the terminal determines that the first measured value of a certain cell is larger than a second preset threshold, reselecting the cell.

Connection state solution one: the network device sends a complete set of handover measurement frequency points from which the terminal selects the frequency points that it should measure.

The embodiment provides an information configuration method, and fig. 4 is a schematic implementation flow chart of the information configuration method according to the embodiment of the invention, as shown in fig. 4, and the method includes:

step S401, the network device sends third configuration information for handover measurement, where the third configuration information is sent by unicast (e.g. RRC signaling);

The third configuration information comprises frequency point information to be detected and a third identifier corresponding to the frequency point, and optionally comprises a neighbor cell list corresponding to the frequency point to be detected.

The third identifier indicates an operator identifier to which the frequency point belongs, which may be a PLMN number, an operator number, or the like; the third identity may be a plurality of PLMN numbers or an operator number.

The foreign system identifier may be explicitly sent, for example, the foreign system identifier may be an enumerated value, when the value is 1, the corresponding foreign system is a 2G system (GSM/CDMA), when the value is 2, the corresponding foreign system is a 3G system (WCDMA/TD-SCDMA), and when the value is 3, the corresponding foreign system is a 4G system (TD-LTE/LTE FDD); the different system identifier may also be implicitly sent, for example, a specific different system corresponds to a specific system information block location, for example, a 2G system (GSM/CDMA) corresponds to a system information block location 1, a 3G system (WCDMA/TD-SCDMA) corresponds to a different system corresponding to a system information block location 2, and a 4G system (TD-LTE/LTE FDD) corresponds to a different system corresponding to a system information block location 3.

Step S402, the terminal receives the third configuration information for performing switching measurement;

step S403, the terminal judges according to the sign of the contracted operator or the sign of the attributive operator, and determines the frequency point to be measured and/or the cell corresponding to the frequency point to be measured of the corresponding terminal in the third configuration information;

For example, the terminal subscription operator identifier is plmn_1, the third configuration information includes three frequency points, the operator identifier corresponding to the frequency point one is plmn_1, the operator identifier corresponding to the frequency point two is plmn_2, and the operator identifier corresponding to the frequency point three is plmn_3; the terminal judges the frequency point one to be measured, and the optional terminal further reads a cell list corresponding to the frequency point one and determines a cell identifier in the cell list.

For example, the terminal subscription operator identifier is plmn_1, the third configuration information includes three frequency points, the operator identifier corresponding to the frequency point one is plmn_1, the operator identifiers corresponding to the frequency point two are plmn_1 and plmn_2, and the operator identifier corresponding to the frequency point three is plmn_3; the terminal judges the frequency point one to be measured, and the optional terminal further reads a cell list corresponding to the frequency point one and determines a cell identifier in the cell list.

Step S404, the terminal measures the determined frequency point to be measured which is the same as the sign of the contracted operator or the sign of the attributive operator, and obtains the third measurement value of the receiving power or the receiving quality of the downlink reference signals and/or the synchronizing signals and/or the channel state indicating signals of a plurality of cells on the frequency point to be measured;

Step S405, the terminal reports a third measured value to the network equipment;

step S406, the network device determines that when the difference between the third measured value and the second measured value obtained by measuring the received power or the received quality of the downlink reference signal and/or the synchronization signal and/or the channel state indication signal of the cell (the network device) by the terminal is greater than a preset third threshold, the network device initiates a handover request to the cell corresponding to the third measured value.

Connection state solution II: the network equipment sends corresponding switching measurement frequency points for the terminal according to the operator identifier of the terminal;

the embodiment provides an information configuration method, and fig. 5 is a schematic implementation flow chart of the information configuration method according to the embodiment of the invention, as shown in fig. 5, where the method includes:

step S411, the network equipment obtains first identification information of an operator identification of the terminal;

the first identification information is obtained from a core network by the network device or reported to the network device by the terminal, for example, the terminal carries the first identification information when the establishment of the RRC connection is completed;

step S412, the network equipment determines measurement configuration information for the terminal according to the first identification information and the inter-operator base station sharing subscription information;

Here, the inter-operator base station sharing subscription information may be understood as network sharing information, including which frequency point the operator shares, and the operator sharing the network device needs to configure which different frequencies, different system cell reselection and frequency points/cells of handover for its home terminal.

The measurement configuration information comprises a frequency point to be measured and/or a list and an identifier of a cell to be measured corresponding to the frequency point to be measured, and the identifier of an operator of the frequency point to be measured is the same as the identifier of the operator contained in the first identifier information;

step S413, the network equipment sends measurement configuration information to the terminal through a special signaling;

step S414, the terminal receives the measurement configuration information and measures the cell corresponding to the frequency point contained in the measurement configuration information.

Examples:

assuming that 2 operators (a and B) in the 3.5GHz band in china deploy a 5G network by sharing base stations, the identifier of the operator a is plmn_1, which is the owner of the base station entity, and the identifier of the operator B is plmn_2, which is the renter of the base station.

Embodiment one:

step S501, the operator a configures first configuration information for performing inter-frequency measurement for cell reselection in a certain broadcast information block (systeminformationblocktype_x) of its 5G base station;

The message format of the first configuration information is as follows:

SystemInformationBlockType_x

{

the first configuration information, i.e. the inter-frequency measurement configuration information list of the operator A base station, includes N inter-frequency point information inter-frequency information

}

The format of the i-th information unit InterFrancyCarrierFrequencyInformationj is as follows:

interfrequency Carrier frequency information_i-configuration information of inter-frequency point i to be measured (frequency point different from base station frequency point is inter-frequency)

{

Operator id_i—operator identifier corresponding to inter-frequency point i, assumed to be plmn_1

DL-Carrier frequency_i-downlink center frequency point position information NARFCN_1 of inter-frequency point i

{

InterFrequencyNeighborCellList_i-inter-frequency point i neighbor cell list containing M cell identifications using frequency point i adjacent to the base station

{

Pysical CellID_i-cell identification

}

}

The j-th information element is in the format of interfrequencarrierequencyinformation_j as follows:

interfrequency Carrier frequency information_j-configuration information of inter-frequency point j to be measured (frequency point different from frequency point used by base station is inter-frequency)

{

Operator id_j—operator identifier corresponding to inter-frequency point j, assumed to be plmn_2

DL-Carrier frequency_j-position information NARFCN_2 of downlink center frequency point of inter-frequency point j

{

InterFrequencyNeighborCellList_j-inter-frequency point j neighbor cell list containing K cell identifications using frequency point j adjacent to the base station

{

Pysical CellID_j-cell identification

}

}

Step S502, a first terminal (provided that the sign of a contracted operator is PLMN_1) receives first configuration information which is broadcasted by the base station and is used for carrying out different frequency measurement of cell reselection;

step S503, the first terminal judges according to the sign of the contracted operator (PLMN_1), and determines and reads the information DL-carrier frequency_i of the cell reselection to be detected of the first terminal and the corresponding neighbor cell list information InterFrequencyneighbor cell List_i in the first configuration information;

step S504, the first terminal measures the cell with the center frequency point positioned in NARFCN_1, and measures the adjacent cell in the Interfrequency neighbor CellList_i according to the measurement;

step S505, when the received power or the received quality of the downlink reference signal and/or the synchronization signal and/or the channel state indication signal of the cell is smaller than a first preset threshold, the first terminal starts to measure the received power or the received quality of the downlink reference signal and/or the synchronization signal and/or the channel state indication signal of several neighboring cells included in the inter-frequency neighbor celllist_i, so as to obtain a first measurement value (when the first terminal performs measurement, the first terminal may perform relevant detection by using the p-type cellid_i, determine the reference signal of the cell to be measured, and perform measurement according to the reference signal and obtain the first measurement value);

In step S506, when the first terminal determines that the first measurement value of a certain cell (the second base station) is higher than the second preset threshold (the cell reselection threshold), the first terminal reselects to the second base station.

Embodiment two:

step S601, the operator a configures first configuration information for performing inter-frequency measurement for cell reselection in a certain broadcast information block (systeminformationblocktype_x) of its 5G base station;

the message format of the first configuration information is as follows:

SystemInformationBlockType_x

{

the first configuration information, i.e. the inter-frequency measurement configuration information list of the operator A base station, includes N inter-frequency point information inter-frequency information

}

The i-th inter-frequency point information format is as follows:

interfrequency Carrier frequency information_i-configuration information of inter-frequency point i to be measured (frequency point different from base station frequency point is inter-frequency)

{

Operator id_i—operator identifier to which the inter-frequency point i belongs, assumed to be plmn_1

DL-Carrier frequency_i-downlink center frequency point position information NARFCN_1 of inter-frequency point i

Cell reselection priority of cell reselection priority_i, inter-frequency bin i, is 1

{

InterFrequencyNeighborCellList_i-inter-frequency point i neighbor cell list containing M cell identifications using frequency point i adjacent to the base station

{

Pysical CellID_i-cell identification

}

}

The j-th inter-frequency point information format is as follows:

interfrequency Carrier frequency information_j-configuration information of inter-frequency point j to be measured (frequency point different from frequency point used by base station is inter-frequency)

{

Operator id_j-operator identity to which inter-frequency point j belongs, assumed to be plmn_2

Operator id_j' —operator identity to which inter-frequency bin j belongs, assumed to be plmn_1 (bin j is shared by operator 1 and operator 2)

DL-Carrier frequency_j-position information NARFCN_2 of downlink center frequency point of inter-frequency point j

Cell reselection priority of cell reselection priority_j, PLMN_2 of inter-frequency bin j, is 0

Cell reselection priority 2 for plmn_1 of cellreselection priority j', inter-frequency bin j

{

InterFrequencyNeighborCellList_j-inter-frequency point j neighbor cell list containing K cell identifications using frequency point j adjacent to the base station

{

Pysical CellID_j-cell identification

}

}

Step S602, a first terminal (assuming that the identifier of the subscribed operator is plmn_1) receives first configuration information broadcasted by the base station for performing inter-frequency measurement of cell reselection;

step S603, the first terminal determines according to its subscription operator identifier (plmn_1), and reads the to-be-detected frequency point information DL-carrier frequency_i and DL-carrier frequency_j of the cell reselection of the first terminal, and corresponding neighbor cell list information inter-frequency neighbor cell list_i and inter-frequency neighbor cell list_j;

Step S604, a first terminal measures cells with central frequency points positioned in NARFCN_1 and NARFCN_2, determines the priority of the frequency points according to cell reselection priority_i and cell reselection priority_j' during measurement, and measures adjacent cells in Interchangeable neighbor CellList_i and Interchangeable neighbor CellList_j;

step S605, when the received power or the received quality of the downlink reference signal and/or the synchronization signal and/or the channel state indication signal of the cell is smaller than a first preset threshold, the first terminal starts to measure the downlink reference signal and/or the received power or the received quality of the synchronization signal and/or the channel state indication signal of several neighboring cells included in the interfrequenconnectolllist_i and the interfrequenconnectolllist_j, and obtains a first measurement value (when the first terminal performs measurement, the first terminal may perform correlation detection by using the pysicellid_i and pysicellcellid_j, determine the reference signal of the cell to be measured, and perform measurement based on the reference signal and obtain the first measurement value);

step S606, when the first terminal determines that the first measured value of a certain cell (second base station) is higher than a second preset threshold (cell reselection threshold), the first terminal reselects to the second base station;

The terminal reselects to the high priority cell (the priority of the frequency point j is higher in this embodiment), and when the cells in the frequency point i and the frequency point j meet the reselection threshold, reselects to the cell in which the frequency point j is located.

Embodiment III:

step S701, the operator a configures second configuration information for performing inter-system measurement of cell reselection in a broadcast information block (systemization block type_x) of the 5G base station, where in this embodiment, the inter-system measurement frequency point is a UTRA system;

the message format of the second configuration information is as follows:

SystemInformationBlockType_x

{

the carrier frequency information UTRA is a second configuration information which is a list of different system UTRA measurement configuration information of the operator A base station, wherein the list comprises N UTRA different system frequency point information carrier frequency information UTRA

{

Carrier frequency information UTRA_i-configuration information of different system point i to be tested

{

Operator id_i—the operator identifier to which UTRA different system frequency point i belongs, and is assumed to be plmn_1

DL-Carrier frequency_i-downlink center frequency point position information NARFCN_1 of UTRA different system frequency point i

{

Neighbor celllisttutra_i—utra inter-system frequency point i neighbor cell list, cell identity comprising M frequency points i used adjacent to own base station

{

Pysical CellID_i-cell identification

}

}

}

Carrier frequency information UTRA_j-configuration information of UTRA different system frequency point j to be measured

{

Operator id_j—operator identity to which UTRA foreign system frequency point j belongs, assumed to be plmn_2

Operator id_j' —operator identity to which UTRA foreign system frequency point j belongs, assume plmn_1 (frequency point j is shared by operator 1 and operator 2)

DL-Carrier frequency_j-position information NARFCN_2 of downlink center frequency point of UTRA inter-system frequency point j

{

Neighbor cell list of neighbor cell list UTRA_j, UTRA inter-system frequency point j, containing K cell identifications using frequency point j adjacent to the base station

{

Pysical CellID_j-cell identification

}

}

}

}

Step S702, the first terminal (assuming that the identifier of the subscribed operator is plmn_1) receives second configuration information broadcasted by the base station and used for performing heterogeneous system measurement of cell reselection;

step S703, the first terminal determines according to its subscription operator identifier (plmn_1), and reads the to-be-detected frequency point information DL-carrier frequency_i and DL-carrier frequency_j of the cell reselection of the first terminal, and corresponding neighbor cell list information neighbor cell list utra_i and neighbor cell list utra_j;

Step S704, the first terminal measures the cells with central frequency points positioned in NARFCN_1 and NARFCN_2, and measures the cells according to neighbor cells in neighbor cell ListUTRA_i and neighbor cell ListUTRA_j during measurement;

step S705, when the received power or the received quality of the downlink reference signal and/or the synchronization signal and/or the channel state indication signal of the cell is smaller than a first preset threshold, the first terminal starts to measure the received power or the received quality of the downlink reference signal and/or the synchronization signal and/or the channel state indication signal of several neighboring cells included in the neighbor cell list utra_i and neighbor cell list utra_j, so as to obtain a first measurement value (when the first terminal performs measurement, the first terminal may perform correlation detection by using the pysicellid_i and pysicellid_j, determine the reference signal of the cell to be measured, measure the reference signal and obtain the first measurement value);

in step S706, when the first terminal determines that the first measurement value of a certain cell (the second base station) is higher than the second preset threshold (the cell reselection threshold), the first terminal reselects to the second base station.

In the above embodiment, the network device performs configuration of different frequency and/or different system measurement information according to the inter-operator base station sharing subscription information, and the terminal reads corresponding to-be-measured frequency point and/or to-be-measured cell information in the different frequency and/or different system measurement information sent by the network device according to the operator identifier, and configures mobility measurement configuration information for the connected terminal according to the inter-operator base station sharing subscription information and the operator identifier information of the terminal.

Compared with the prior art, the embodiment has the following technical advantages: when the 5G base station is shared, the technology corresponding to the patent can be adopted to respectively carry out mobility measurement configuration (cell reselection and switching) on the idle state and the connected state terminals, and under the condition of small system information cost and software upgrading, the measurement cost and time delay of the terminals are effectively reduced, and the user experience is greatly improved.

The technical scheme of the embodiment relates to a solution to the problems of excessive terminal complexity and power consumption caused by too many frequency points in the scene of co-building and sharing of the access network, and the problem is considered to exist in a 4G network as well, but is not very serious compared with 5G, so that the corresponding application scene is wider.

Due to time and application scenario limitations, the 4G age did not have special performance optimizations for multiple operators sharing base stations. Especially, the terminal performs cell selection and cell reselection measurement in an idle state and mobility measurement in a connection state, and the terminal needs to measure all cells corresponding to all frequency points of all operators broadcasted by the base station, so that the measurement cost is huge. In the 5G age, the frequency point and the cell which are required to be measured by the terminal are increased by more than 10 times compared with the 4G age, and if the frequency point and the cell are not optimized, the measurement power consumption, the measurement evaluation and the access time delay of the terminal are increased sharply, so that the user experience of the 5G terminal is seriously affected.

An information configuration method is provided in this embodiment. The implementation mode is as follows: the network side transmits configuration information; the terminal determines the frequency point to be measured and/or the cell corresponding to the frequency point to be measured according to the received configuration information, measures the determined different frequency points and/or different system frequency points and/or the frequency point to be measured, which are the same as the carrier identifier corresponding to the contracted carrier or the carrier identifier corresponding to the attributive carrier, and determines whether to switch/access according to the measurement result.

Based on the foregoing embodiments, an embodiment of the present invention provides an information configuration apparatus, where the apparatus includes units included, and modules included in the units may be implemented by a processor in a computer device (a terminal or a network device); of course, the method can also be realized by a specific logic circuit; in an implementation, the processor may be a Central Processing Unit (CPU), a Microprocessor (MPU), a Digital Signal Processor (DSP), a Field Programmable Gate Array (FPGA), or the like.

Fig. 6A is a schematic diagram of a composition structure of an information configuration according to an embodiment of the present invention, as shown in fig. 6A, the apparatus 600 includes:

a first receiving unit 601, configured to receive configuration information sent by a network device;

A first determining unit 602, configured to determine, according to the configuration information and a network identifier of an operator to which the terminal belongs, a frequency point related to mobility management and/or a cell corresponding to the frequency point;

wherein the mobility management comprises: cell reselection, network control mobility, or handover.

A first measurement unit 603, configured to measure the frequency point and/or a cell corresponding to the frequency point, to obtain a measurement result;

a second determining unit 604, configured to determine whether to perform cell reselection or report the measurement result to the network device according to the measurement result.

In other embodiments, the frequency bin comprises at least one of: different frequency points and different system frequency points in the same system.

In other embodiments, the second determining unit includes:

the first determining module is used for determining the network identifier of the affiliated operator from the memory or the SIM card, or determining the network identifier of the affiliated operator according to the IMSI;

and the second determining module is used for determining frequency point information corresponding to the network identifier which is the same as the network identifier of the operator to which the terminal belongs in the configuration information as a frequency point and/or a cell corresponding to the frequency point which is relevant to mobility management of the terminal according to the network identifier of the operator to which the terminal belongs.

In other embodiments, the configuration information includes at least one of: the method comprises the steps that first configuration information related to inter-frequency cell reselection comprises inter-frequency point information and network identifications corresponding to the inter-frequency point information; the second configuration information related to the inter-system cell reselection comprises inter-system frequency point information and a network identifier corresponding to the inter-system frequency point information; third configuration information related to network control mobility or switching, wherein the third configuration information comprises inter-frequency point information and/or network identifications corresponding to the inter-frequency point information; and fourth configuration information related to network control mobility or switching, wherein the fourth configuration information comprises inter-system frequency point information and/or network identification corresponding to the inter-system frequency point information.

In other embodiments, the first configuration information includes the first inter-frequency point information and a first network identifier corresponding to the first inter-frequency point information, and the second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point information; the second configuration information comprises the first inter-system frequency point information and a first network identifier corresponding to the first inter-system frequency point information, and the second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point information; the third configuration information comprises at least one of the first inter-frequency point information, a first network identifier corresponding to the first inter-frequency point, second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point; the fourth configuration information comprises at least one of the first inter-system frequency point information, a first network identifier corresponding to the first inter-system frequency point, second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point.

In other embodiments, the apparatus further comprises:

and the second receiving unit is used for receiving the configuration information sent by the network equipment through receiving a system message or a special message.

In other embodiments, the apparatus further comprises:

an opening unit, configured to open cell reselection measurement when a reception power or a reception quality of a camping cell signal is less than a first preset threshold;

the second measurement unit is configured to measure the first configuration information and/or the second configuration information, where the first configuration information and/or the second configuration information include the same frequency point or a cell corresponding to the frequency point that is the same as the network identifier of the operator to which the terminal belongs, so as to obtain a measurement result.

In other embodiments, the apparatus further comprises:

and the reselection unit is used for reselecting the corresponding cell when the measurement result is larger than a second preset threshold.

In other embodiments, the first measurement unit is configured to: and measuring the frequency point or the cell corresponding to the frequency point which is the same as the network identifier of the operator to which the terminal belongs, and obtaining a measurement result.

In other embodiments, the second determining unit is configured to report the measurement result to the network device when in a connection state, so that the network device determines whether handover needs to be performed on the terminal.

In other embodiments, the cell signal comprises at least one of: downlink reference signals, pilot signals, synchronization signals, broadcast signals, channel state indication signals, SSBs of cells.

Fig. 6B is a schematic diagram of a second component structure of the information configuration according to the embodiment of the present invention, as shown in fig. 6B, the apparatus 610 includes:

a third determining unit 611 for determining configuration information, the configuration information including at least one of: the method comprises the steps that first configuration information related to inter-frequency cell reselection comprises inter-frequency point information and network identifications corresponding to the inter-frequency point information; the second configuration information related to the inter-system cell reselection comprises inter-system frequency point information and a network identifier corresponding to the inter-system frequency point information; third configuration information related to network control mobility or switching, wherein the third configuration information comprises inter-frequency point information and/or network identifications corresponding to the inter-frequency point information; and fourth configuration information related to network control mobility or switching, wherein the fourth configuration information comprises inter-system frequency point information and/or network identification corresponding to the inter-system frequency point information.

A transmitting unit 612, configured to transmit the configuration information to the terminal.

The first configuration information comprises the first inter-frequency point information and a first network identifier corresponding to the first inter-frequency point information, and a second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point information;

the second configuration information comprises the first inter-system frequency point information and a first network identifier corresponding to the first inter-system frequency point information, and the second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point information;

the third configuration information comprises at least one of the first inter-frequency point information, a first network identifier corresponding to the first inter-frequency point, second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point;

the fourth configuration information comprises at least one of the first inter-system frequency point information, a first network identifier corresponding to the first inter-system frequency point, second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point.

In other embodiments, the third determining unit is configured to configure the configuration information according to network sharing information.

In other embodiments, the network sharing information includes: the first network identifier and the corresponding inter-frequency point information and/or inter-system frequency point information, and the second network identifier and the corresponding inter-frequency point information and/or inter-system frequency point information. Wherein, the first network identifier is a network identifier of an operator to which the network device belongs; the second network identity is a network identity of an operator sharing the network device.

In other embodiments, the first configuration information is sent via a system message; the second configuration information is sent through a system message; the third configuration information is sent through an RRC message; the fourth configuration information is transmitted through an RRC message.

In other embodiments, the apparatus further comprises:

the third receiving unit is used for receiving the receiving power or the receiving quality measurement result of at least one cell signal on the frequency point reported by the terminal;

and the initiating unit is used for determining that when the difference between the measurement result and a second measurement value obtained by measuring the receiving power or the receiving quality of the signal of the service cell by the terminal is larger than a preset third threshold, a switching request is initiated to the cell corresponding to the measurement result.

In other embodiments, the cell signal comprises at least one of: downlink reference signals, pilot signals, synchronization signals, broadcast signals, channel state indication signals, SSBs of cells.

In other embodiments, the apparatus comprises:

a fourth determining unit, configured to determine home operator information of the terminal;

and a fifth determining unit, configured to determine configuration information for the terminal according to home operator information of the terminal.

In other embodiments, the fourth determining unit is configured to determine home operator information of the terminal according to an IMSI identifier of the terminal.

In other embodiments, the root fifth determining unit is configured to: and determining frequency point information corresponding to the network identifier of the home operator of the terminal as configuration information of the terminal according to the network identifier of the home operator of the terminal and the network sharing information.

In other embodiments, the network identity is a public land mobile network identity.

In other embodiments, the network identification is sent implicitly, including:

the network equipment determines a configuration information list, wherein each piece of information in the configuration information list corresponds to a specific network identifier; or alternatively, the process may be performed,

The network device segments the configuration information, and each segment corresponds to a specific network identifier.

The description of the apparatus embodiments above is similar to that of the method embodiments above, with similar advantageous effects as the method embodiments. For technical details not disclosed in the embodiments of the apparatus of the present invention, please refer to the description of the embodiments of the method of the present invention.

It should be noted that, in the embodiment of the present invention, if the above-mentioned information configuration method is implemented in the form of a software function module, and sold or used as a separate product, the information configuration method may also be stored in a computer readable storage medium. Based on such understanding, the technical solution of the embodiments of the present invention may be embodied essentially or in a part contributing to the related art in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the methods described in the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read Only Memory (ROM), a magnetic disk, an optical disk, or other various media capable of storing program codes. Thus, embodiments of the invention are not limited to any specific combination of hardware and software.

Correspondingly, the embodiment of the invention provides a computer device (comprising a terminal or a network device) comprising a memory and a processor, wherein the memory stores a computer program which can be run on the processor, and the processor realizes the steps in the method when executing the program.

Correspondingly, an embodiment of the invention provides a computer-readable storage medium, on which a computer program is stored, which computer program, when being executed by a processor, carries out the steps of the above-mentioned method.

It should be noted here that: the description of the storage medium and apparatus embodiments above is similar to that of the method embodiments described above, with similar benefits as the method embodiments. For technical details not disclosed in the embodiments of the storage medium and the apparatus of the present invention, please refer to the description of the method embodiments of the present invention.

It should be noted that fig. 7 is a schematic diagram of a hardware entity of a computer device according to an embodiment of the present invention, and as shown in fig. 7, the hardware entity of the computer device 700 includes: a processor 701, a communication interface 702 and a memory 703, wherein

The processor 701 generally controls the overall operation of the computer device 700.

Communication interface 702 may enable the computer device to communicate with other terminals or servers over a network.

The memory 703 is configured to store instructions and applications executable by the processor 701, and may also cache data (e.g., image data, audio data, voice communication data, and video communication data) to be processed or processed by various modules in the processor 701 and the computer device 700, which may be implemented by a FLASH memory (FLASH) or a random access memory (Random Access Memory, RAM).

It should be appreciated that reference throughout this specification to "one embodiment" or "an embodiment" means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment of the present invention. Thus, the appearances of the phrases "in one embodiment" or "in an embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. It should be understood that, in various embodiments of the present invention, the sequence numbers of the foregoing processes do not mean the order of execution, and the order of execution of the processes should be determined by the functions and internal logic thereof, and should not constitute any limitation on the implementation process of the embodiments of the present invention. The foregoing embodiment numbers of the present invention are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

In the several embodiments provided by the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above described device embodiments are only illustrative, e.g. the division of the units is only one logical function division, and there may be other divisions in practice, such as: multiple units or components may be combined or may be integrated into another system, or some features may be omitted, or not performed. In addition, the various components shown or discussed may be coupled or directly coupled or communicatively coupled to each other via some interface, whether indirectly coupled or communicatively coupled to devices or units, whether electrically, mechanically, or otherwise.

The units described above as separate components may or may not be physically separate, and components shown as units may or may not be physical units; can be located in one place or distributed to a plurality of network units; some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in each embodiment of the present invention may be integrated in one processing unit, or each unit may be separately used as one unit, or two or more units may be integrated in one unit; the integrated units may be implemented in hardware or in hardware plus software functional units.

Those of ordinary skill in the art will appreciate that: all or part of the steps for implementing the above method embodiments may be implemented by hardware related to program instructions, and the foregoing program may be stored in a computer readable storage medium, where the program, when executed, performs steps including the above method embodiments; and the aforementioned storage medium includes: a mobile storage device, a Read Only Memory (ROM), a magnetic disk or an optical disk, or the like, which can store program codes.

Alternatively, the above-described integrated units of the present invention may be stored in a computer-readable storage medium if implemented in the form of software functional modules and sold or used as separate products. Based on such understanding, the technical solution of the embodiments of the present invention may be embodied essentially or in a part contributing to the related art in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the methods described in the embodiments of the present invention. And the aforementioned storage medium includes: various media capable of storing program codes, such as a removable storage device, a ROM, a magnetic disk, or an optical disk.

The foregoing is merely an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the present invention, and the changes and substitutions are intended to be covered by the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (34)

1. An information configuration method applied to a terminal, the method comprising:

receiving configuration information sent by network equipment, wherein the configuration information at least comprises fourth configuration information, and the fourth configuration information is configured by the network equipment according to inter-operator base station sharing subscription information and a network identifier of an operator to which the terminal belongs; the fourth configuration information comprises a frequency point to be detected and/or a list and an identifier of a cell to be detected corresponding to the frequency point to be detected;

determining a frequency point related to mobility management and/or a cell corresponding to the frequency point according to the configuration information;

measuring the frequency points and/or the cells corresponding to the frequency points to obtain a measurement result;

and determining whether to perform cell reselection or report the measurement result to the network equipment according to the measurement result.

2. The method of claim 1, wherein the fourth configuration information is used for mobility measurements in a connected state; the configuration information further includes at least one of:

first configuration information and second configuration information for cell reselection in an idle state, and third configuration information for mobility measurement in the connected state;

The first configuration information comprises inter-frequency point information and a network identifier corresponding to the inter-frequency point information; the second configuration information comprises different system identifiers, measured frequency point information and operator identifiers corresponding to the frequency points; the third configuration information comprises frequency point information of a switching measurement frequency point complete set and a network identifier corresponding to the frequency point;

the first configuration information and/or the second configuration information are configured by the network equipment according to inter-operator base station sharing subscription information;

the determining, according to the configuration information, a frequency point related to mobility management and/or a cell corresponding to the frequency point includes: and determining a frequency point related to mobility management and/or a cell corresponding to the frequency point according to at least one of the first configuration information, the second configuration information and the third configuration information and a network identifier of an operator to which the terminal belongs.

3. The method of claim 1, wherein the mobility management comprises: cell reselection, network control mobility, or handover.

4. The method of claim 1, wherein the frequency bin comprises at least one of: different frequency points and different system frequency points in the same system.

5. The method according to claim 2, wherein the determining, by the terminal, a frequency point related to mobility management and/or a cell corresponding to the frequency point includes:

the terminal determines the network identification of the affiliated operator from the memory or the SIM card, or the terminal determines the network identification of the affiliated operator according to the IMSI;

and the terminal determines frequency point information corresponding to the network identification identical to the network identification of the operator to which the terminal belongs in the configuration information as a frequency point and/or a cell corresponding to the frequency point relevant to the mobility management of the terminal according to the network identification of the operator to which the terminal belongs.

6. The method of claim 2, wherein the first configuration information and the second configuration information relate to a foreign system cell reselection;

the third configuration information comprises inter-frequency point information and/or network identifications corresponding to the inter-frequency point information;

the fourth configuration information comprises inter-system frequency point information and/or network identifications corresponding to the inter-system frequency point information;

the third configuration information and the fourth configuration information are related to network control mobility or handover.

7. The method of claim 6, wherein the configuration information comprises at least one of:

The first configuration information comprises first inter-frequency point information and a first network identifier corresponding to the first inter-frequency point information, and second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point information;

the second configuration information comprises first inter-system frequency point information and a first network identifier corresponding to the first inter-system frequency point information, and second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point information;

the third configuration information comprises at least one of the first inter-frequency point information, a first network identifier corresponding to the first inter-frequency point, the second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point;

the fourth configuration information comprises at least one of the first inter-system frequency point information, a first network identifier corresponding to the first inter-system frequency point, the second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point.

8. The method of claim 2, wherein the step of determining the position of the substrate comprises,

the first configuration information comprises the inter-frequency point information and at least one network identifier corresponding to the inter-frequency point information;

The second configuration information comprises inter-system frequency point information and at least one network identifier corresponding to the inter-system frequency point information;

the third configuration information comprises the inter-frequency point information and/or at least one network identifier corresponding to the inter-frequency point;

the fourth configuration information comprises the inter-system frequency point information and/or at least one network identifier corresponding to the inter-system frequency point.

9. The method of claim 8, wherein the configuration information comprises at least one of:

when the first configuration information comprises a network identifier corresponding to the inter-frequency point information, the first configuration information comprises the network identifier of an operator to which the network equipment belongs and at least one network identifier of an operator sharing the network equipment;

when the second configuration information comprises a network identifier corresponding to the inter-system frequency point information, the second configuration information comprises the network identifier of the network equipment home operator and at least one network identifier of an operator sharing the network equipment;

when the third configuration information contains one network identifier corresponding to the inter-frequency point information, the third configuration information contains the network identifier of the operator to which the network equipment belongs and at least one network identifier of the operator sharing the network equipment;

And when the fourth configuration information comprises a network identifier corresponding to the inter-system frequency point information, the network identifier of the network equipment home operator and at least one network identifier of an operator sharing the network equipment are included.

10. The method according to claim 1, wherein the method further comprises:

and receiving the configuration information sent by the network equipment through receiving a system message or a special message.

11. The method according to claim 2, wherein the method further comprises:

and when the receiving power or the receiving quality of the resident cell signal is smaller than a first preset threshold, starting cell reselection measurement, and measuring a cell corresponding to a frequency point or a frequency point which is contained in the first configuration information and/or the second configuration information and is the same as the network identification of an operator to which the terminal belongs, so as to obtain a measurement result.

12. The method of claim 11, wherein the method further comprises: and reselecting to a corresponding cell when the measurement result is larger than a second preset threshold.

13. The method according to claim 1, wherein the measuring the frequency point and/or the cell corresponding to the frequency point to obtain a measurement result includes: and the terminal measures the frequency point or the cell corresponding to the frequency point which is the same as the network identifier of the operator to which the terminal belongs, and a measurement result is obtained.

14. The method of claim 1, wherein the determining whether to perform cell reselection or report the measurement to the network device based on the measurement comprises: and when the terminal is in a connection state, the terminal reports the measurement result to the network equipment so that the network equipment can determine whether the terminal needs to be switched.

15. The method of claim 11, wherein the cell signal comprises at least one of: downlink reference signals, pilot signals, synchronization signals, broadcast signals, channel state indication signals, SSBs of cells.

16. An information configuration method applied to a network device, the method comprising:

transmitting configuration information to a terminal, wherein the configuration information at least comprises fourth configuration information, and the fourth configuration information is configured by the network equipment according to inter-operator base station sharing subscription information and a network identifier of an operator to which the terminal belongs; the fourth configuration information comprises a frequency point to be detected and/or a cell list to be detected and an identifier corresponding to the frequency point to be detected, wherein the frequency point to be detected is a switching measurement frequency point corresponding to the network identifier of the terminal;

The configuration information further includes at least one of:

the method comprises the steps that first configuration information related to inter-frequency cell reselection comprises inter-frequency point information and network identifications corresponding to the inter-frequency point information;

the second configuration information related to the inter-system cell reselection comprises inter-system identification, measured frequency point information and an operator identification corresponding to the frequency point;

the network controls mobility or switches the relevant third configuration information, the said third configuration information includes switching and measuring the frequency point information of the frequency point corpus, and the corresponding network identification of frequency point;

wherein the fourth configuration information is related to network control mobility or handover;

the first configuration information and/or the second configuration information are configured by the network equipment according to inter-operator base station sharing subscription information.

17. The method of claim 16, wherein the configuration information comprises at least one of:

the first configuration information comprises first inter-frequency point information and a first network identifier corresponding to the first inter-frequency point information, and second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point information; or (b)

The second configuration information comprises first inter-system frequency point information and a first network identifier corresponding to the first inter-system frequency point information, and second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point information; or (b)

The third configuration information comprises at least one of the first inter-frequency point information, a first network identifier corresponding to the first inter-frequency point, the second inter-frequency point information and a second network identifier corresponding to the second inter-frequency point; or (b)

The fourth configuration information comprises at least one of the first inter-system frequency point information, a first network identifier corresponding to the first inter-system frequency point, the second inter-system frequency point information and a second network identifier corresponding to the second inter-system frequency point.

18. The method of claim 17, wherein the method further comprises: and configuring the configuration information according to the network sharing information.

19. The method of claim 18, wherein the network sharing information comprises: the first network identifier and the corresponding inter-frequency point information and/or inter-system frequency point information, and the second network identifier and the corresponding inter-frequency point information and/or inter-system frequency point information.

20. The method according to any of claims 17 to 19, wherein the first network identity is a network identity of an operator to which the network device belongs;

the second network identity is a network identity of an operator sharing the network device.

21. The method of claim 16, wherein the configuration information comprises at least one of:

the first configuration information comprises the inter-frequency point information and at least one network identifier corresponding to the inter-frequency point information;

the second configuration information comprises inter-system frequency point information and at least one network identifier corresponding to the inter-system frequency point information;

the third configuration information comprises the inter-frequency point information and/or at least one network identifier corresponding to the inter-frequency point;

the fourth configuration information comprises inter-system frequency point information and/or at least one network identifier corresponding to the inter-system frequency point.

22. The method of claim 21, wherein the configuration information comprises at least one of:

when the first configuration information comprises a network identifier corresponding to the inter-frequency point information, the first configuration information comprises the network identifier of an operator to which the network equipment belongs and at least one network identifier of an operator sharing the network equipment;

When the second configuration information comprises a network identifier corresponding to the inter-system frequency point information, the second configuration information comprises the network identifier of the network equipment home operator and at least one network identifier of an operator sharing the network equipment;

when the third configuration information contains one network identifier corresponding to the inter-frequency point information, the third configuration information contains the network identifier of the operator to which the network equipment belongs and at least one network identifier of the operator sharing the network equipment;

and when the fourth configuration information comprises a network identifier corresponding to the inter-system frequency point information, the network identifier of the network equipment home operator and at least one network identifier of an operator sharing the network equipment are included.

23. The method of claim 16, wherein the first configuration information is sent via a system message;

the second configuration information is sent through a system message;

the third configuration information is sent through an RRC message;

the fourth configuration information is transmitted through an RRC message.

24. The method of claim 16, wherein the method further comprises:

Receiving a measurement result of the receiving power or the receiving quality of at least one cell signal on the frequency point reported by a terminal;

and when the difference between the measurement result and a second measurement value obtained by the terminal for measuring the receiving power or the receiving quality of the signal of the service cell is larger than a preset third threshold, initiating a switching request to a cell corresponding to the measurement result.

25. The method of claim 24, wherein the cell signal comprises at least one of: downlink reference signals, pilot signals, synchronization signals, broadcast signals, channel state indication signals, SSBs of cells.

26. The method of claim 16, wherein the method further comprises:

determining home operator information of the terminal;

and determining configuration information for the terminal according to the home operator information of the terminal.

27. The method according to claim 26, wherein said determining home operator information of the terminal comprises: and determining the home operator information of the terminal according to the IMSI identifier of the terminal.

28. The method according to claim 26, wherein said determining configuration information for the terminal based on home operator information of the terminal comprises: and determining frequency point information corresponding to the network identifier of the home operator of the terminal as configuration information of the terminal according to the network identifier of the home operator of the terminal and the network sharing information.

29. The method according to any of claims 16 to 19, 21 to 28, wherein the network identity is a public land mobile network identity.

30. The method of claim 26, wherein the network identification is sent implicitly, comprising:

the network equipment determines a configuration information list, wherein each piece of information in the configuration information list corresponds to a specific network identifier; or alternatively, the process may be performed,

the network device segments the configuration information, and each segment corresponds to a specific network identifier.

31. An information configuration apparatus, characterized in that the apparatus comprises:

the first receiving unit is used for receiving configuration information sent by the network equipment, wherein the configuration information at least comprises fourth configuration information, and the fourth configuration information is configured by the network equipment according to inter-operator base station sharing subscription information and network identifiers of operators to which the terminal belongs; the fourth configuration information comprises a frequency point to be detected and/or a list and an identifier of a cell to be detected corresponding to the frequency point to be detected;

a first determining unit, configured to determine, according to the configuration information, a frequency point related to mobility management and/or a cell corresponding to the frequency point;

the first measurement unit is used for measuring the frequency point and/or the cell corresponding to the frequency point to obtain a measurement result;

And the second determining unit is used for determining whether to perform cell reselection or report the measurement result to the network equipment according to the measurement result.

32. An information configuration apparatus applied to a network device, the apparatus comprising:

a third determining unit, configured to determine configuration information, where the configuration information includes at least fourth configuration information, where the fourth configuration information is configured by the network device according to inter-operator base station sharing subscription information and a network identifier of an operator to which the terminal belongs; the fourth configuration information comprises a frequency point to be detected and/or a cell list to be detected and an identifier corresponding to the frequency point to be detected, wherein the frequency point to be detected is a switching measurement frequency point corresponding to the network identifier of the terminal;

the configuration information further includes at least one of:

the method comprises the steps that first configuration information related to inter-frequency cell reselection comprises inter-frequency point information and network identifications corresponding to the inter-frequency point information;

the second configuration information related to the inter-system cell reselection comprises inter-system identification, measured frequency point information and an operator identification corresponding to the frequency point;

third configuration information related to network control mobility or switching, wherein the third configuration information comprises inter-frequency point information and/or network identifications corresponding to the inter-frequency point information;

The fourth configuration information is related to network control mobility or switching, and comprises inter-system frequency point information and/or network identifications corresponding to the frequency points;

the first configuration information and/or the second configuration information are configured by the network equipment according to inter-operator base station sharing subscription information;

and the sending unit is used for sending the configuration information to the terminal.

33. A computer device comprising a memory and a processor, the memory storing a computer program executable on the processor, wherein the processor, when executing the program, implements the steps of the method of any one of claims 1 to 15 or 16 to 30.

34. A computer readable storage medium having stored thereon a computer program, which when executed by a processor performs the steps of the method of any of claims 1 to 15 or 16 to 30.