CN106385696A - Business processing method, related equipment, and system - Google Patents

Abstract

The invention discloses a business processing method, related equipment, and system. The method comprises the steps: receiving a business request sent by a user terminal through a base station, and obtaining the type of a to-be-executed business; determining the business characteristics corresponding to the type of the to-be-executed business based on the corresponding relation among the predetermined business type, the service quality and the level of the service quality; carrying out the corresponding wireless resource distribution and dispatching for the user terminal according to the business characteristics. Through the corresponding relation among the predetermined business type, the service quality and the level of the service quality, the method determines the business characteristics corresponding to the type of the to-be-executed business, completes the corresponding wireless resource distribution and dispatching for the user terminal according to the business characteristics, and guarantees that the business demands and business transmission requirements are met at the same time.

Description

Service processing method, related equipment and system

Technical Field

The present application belongs to the technical field of broadband clustering, and in particular, to a service processing method, a related device, and a system.

Background

The broadband trunking system is a special wireless communication system which is based on broadband wireless communication technology and provides a command scheduling function in a multimedia trunking service mode. In the current private network broadband trunking system, the requirements of high broadband requirements of data services and the requirements of reliability and low time delay of private network services need to be met.

The special network service features are obvious, and the requirements of various services are different. For example, when a private network service of location reporting and video uploading is performed, more wireless resources need to be continuously consumed, so in the prior art, if various service requirements of the private network are met, it is difficult to meet the requirements of the private network on the reliability and low time delay of private network service transmission.

Therefore, there is a need for a technical solution that can meet various service requirements to the maximum extent and ensure the reliability of service transmission and low delay requirement to the maximum extent, aiming at the characteristics of private network service and common service.

Disclosure of Invention

The application discloses a service processing method, related equipment and a system, which aim to solve the problem that the prior art cannot simultaneously meet service requirements and service transmission requirements.

In order to solve the problems, the following technical scheme is disclosed:

a service processing method is suitable for a base station, and comprises the following steps:

the base station receives a service request initiated by a user terminal and acquires a service type required to be executed, wherein the service request carries the service type required to be executed, and the service type comprises a private network service and a common service;

the base station determines the service characteristics corresponding to the service type to be executed based on the corresponding relationship between the service type, the service quality Qos and the service quality grade QCI which are preset;

and the base station performs corresponding wireless resource allocation and scheduling for the user terminal according to the service characteristics.

Preferably, if a user context establishment request signaling sent by a core network to the base station is received, where the user context establishment request signaling carries the user subscription information SPID of the user terminal, the method further includes:

the base station acquires the user subscription information SPID of the user terminal in the user context establishment request signaling, and compares the user subscription information SPID of the user terminal with the pre-established user subscription information SPID to obtain the user attribute of the user terminal;

and the base station calls a corresponding scheduling strategy and radio resource configuration based on the user attribute.

Preferably, the user attributes include: the user terminal transmitting power grade or the user terminal authority grade; the base station calls a corresponding scheduling strategy and radio resource configuration based on the user attribute, and the method comprises the following steps:

when the user terminal is a high-level or medium-level user, the base station calls a scheduling strategy of the highest level to configure wireless resources for the user terminal;

or, when the user terminal is a low-level user, the base station calls a scheduling policy of a common level to configure a radio resource for the user terminal;

or, when the user terminal is a fixed or high-power user terminal, the base station uses a non-power-saving mode for the user terminal;

or, when the user terminal is a stationary user terminal, the base station configures the radio resource meeting the minimum requirement to the user terminal or does not configure the radio resource to the user terminal.

Preferably, the correspondence between the service type and the Qos, and the Qos class QCI, which are formulated in advance, includes:

the base station and the core network synchronously configure the service characteristics of different service types respectively to complete the expansion of the quality of service (QCI), and establish the corresponding relation between the service characteristics and the quality of service (Qos) and the quality of service (QCI);

or,

and the base station receives the corresponding relation between the service characteristics and the quality of service (Qos) and the quality of service (QCI) established after the core network uniformly configures the extended quality of service (QCI).

Preferably, the base station performs corresponding radio resource allocation and scheduling for the user equipment based on the service characteristics, including:

when the service type is a private network service, the base station allocates the user terminal to perform service transmission on a private bearer based on the service characteristics of the private network service, wherein the private bearer is pre-divided for a core network, and the private bearer is used for performing service transmission of the private network service;

when the service type is a common service, the base station configures the wireless resource meeting the lowest requirement to the user terminal;

or,

and the base station calls a scheduling strategy of the highest level aiming at the high time delay requirement and/or the high service priority contained in the service characteristics to configure wireless resources for the user terminal.

A traffic processing apparatus, comprising:

a receiving unit, configured to receive a service request initiated by a user terminal, and acquire a service type to be executed, where the service request carries the service type to be executed, and the service type includes a private network service and a common service;

the determining unit is used for determining the service characteristics corresponding to the service type to be executed based on the corresponding relationship between the service type and the service quality Qos and the service quality grade QCI which are preset;

and the first scheduling and allocating unit is used for performing corresponding wireless resource allocation and scheduling for the user terminal according to the service characteristics.

Preferably, the method further comprises the following steps:

the receiving unit is further configured to: receiving a user context establishment request signaling sent to the base station by the core network after the user terminal initiates access to the core network, wherein the user context establishment request signaling carries user subscription information (SPID) of the user terminal;

an obtaining unit, configured to obtain the user subscription information SPID of the user terminal in the user context establishment request signaling, and compare the user subscription information SPID of the user terminal with a pre-made user subscription information SPID to obtain a user attribute of the user terminal;

and the second scheduling allocation unit is used for invoking a corresponding scheduling strategy and radio resource configuration based on the user attribute.

Preferably, the user attributes include: the user terminal transmitting power grade or the user terminal authority grade; the second scheduling assignment unit includes:

a first configuration module, configured to, when the user terminal is a high-level or medium-level user, invoke, by the base station, a scheduling policy of a highest level, and configure radio resources for the user terminal;

a second configuration module, configured to, when the ue is a low-level user, invoke a common-level scheduling policy by the base station, and configure radio resources for the ue;

a third configuration module, configured to, when the ue is a fixed or high-power ue, use a non-power-saving mode for the ue by the base station;

a fourth configuration module, configured to, when the ue is a stationary ue, configure, by the base station, a radio resource meeting a minimum requirement to the ue or not configure, by the base station, a radio resource to the ue.

Preferably, the first scheduling allocating unit, configured to allocate and schedule radio resources for the ue according to the service characteristics, includes:

a fifth configuration module, configured to, when the service type is a private network service, allocate the user terminal to perform service transmission on a dedicated bearer based on service characteristics of the private network service, where the dedicated bearer is pre-divided for a core network, and the dedicated bearer is used for performing service transmission of the private network service;

a sixth configuration module, configured to configure, when the service type is a non-private network service, a radio resource meeting a minimum requirement to the user terminal;

alternatively, it comprises:

and a seventh configuration module, configured to invoke a scheduling policy at a highest level for high latency requirements and/or high service priorities included in the service characteristics, and configure radio resources for the user terminal.

A base station, comprising:

the receiver is used for receiving a service request initiated by a user terminal;

and the processor is used for acquiring the service types which are carried in the service request and need to be executed based on the service request received by the receiver, wherein the service types comprise private network services and common services, and determining the service characteristics which correspond to the service types which need to be executed based on the preset corresponding relation between the service types and the service quality Qos and the service quality grade QCI, and performing corresponding wireless resource allocation and scheduling for the user terminal according to the service characteristics.

A business processing system comprising: the service processing device suitable for the base station or the base station, the core network, and the user terminal for requesting to access the core network to execute the corresponding service through the base station.

The embodiment of the application discloses a method, related equipment and a system for service processing. The service processing method is applicable to a base station, receives a service request initiated by a user terminal through the base station, and acquires a service type required to be executed, wherein the service request carries the service type required to be executed, and the service type comprises a private network service and a common service; then, the base station determines the service characteristics corresponding to the service type to be executed based on the corresponding relationship between the service type, the quality of service (Qos) and the quality of service (QCI); and finally, the base station allocates and schedules corresponding wireless resources for the user terminal according to the service characteristics. According to the technical scheme disclosed by the embodiment of the application, the service characteristics corresponding to the service type are determined based on the corresponding relation between the pre-specified service type and the service quality Qos and the service quality grade QCI through the service type which is required to be executed by the user terminal at present, and the wireless resource allocation and scheduling of the user terminal are completed according to the service characteristics, so that the service requirement and the service transmission requirement are ensured to be met at the same time.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a flowchart illustrating a service processing method disclosed in an embodiment of the present application;

fig. 2 shows a flowchart of a service processing method disclosed in the third embodiment of the present application;

fig. 3 is a schematic block diagram illustrating a structure of a base station according to a fourth embodiment of the present disclosure;

fig. 4 is a block diagram illustrating a structure of another base station disclosed in the fourth embodiment of the present application.

Detailed Description

The following are full names and related explanations of the english abbreviations used in the examples of this application:

SPID: subscriber profile ID for RAT/frequency, user subscription information;

QCI: QoS Class Identifier, quality of service Class;

QoS: quality of service.

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It can be known from the background art that a technical scheme which can meet various service requirements to the maximum extent and can guarantee the reliability of service transmission and low delay requirement to the maximum extent aiming at the characteristics of private network service and common service is lacked at present. Therefore, the present application discloses a service processing method to solve the above problems, and the following embodiments are specifically described in detail.

Example one

As shown in fig. 1, a flowchart of a service processing method disclosed in an embodiment of the present application is shown, where the service processing method is applied to a base station, and includes the following steps:

s101, the base station receives a service request initiated by a user terminal and acquires a service type to be executed;

in S101, the service request carries a service type to be executed, where the service type includes a private network service and a common service;

s102, the base station determines service characteristics corresponding to the service type to be executed based on the corresponding relationship between the service type, the service quality Qos and the service quality grade QCI which are preset;

in S102, the technical solution disclosed in the embodiment of the present application provides a corresponding relationship between a service type and Qos and QCI in advance. The correspondence relationship is actually the final embodiment of the service characteristics by extending the QCI. The specific procedures of the pre-established corresponding relationship between the service type and the quality of service Qos and the quality of service level QCI include two procedures:

firstly, the base station and a core network synchronously configure service characteristics of different service types respectively to complete the expansion of QCI, and then establish the corresponding relation between the service characteristics and Qos and QCI;

and secondly, the base station receives the corresponding relation between the service characteristics established after the core network uniformly configures the extended QCI and the Qos and the extended QCI. That is, the core network configures the corresponding relationship between the service features and Qos and QCI uniformly and sends them to the base station.

And determining the service characteristics corresponding to the service type to be executed according to the correspondence between the service type and the Qos and QCI provided in advance. Service features herein include, but are not limited to: uplink and downlink identification, time delay requirement, packet loss rate requirement, service data volume grade, service transmission frequency grade, user terminal grade and the like.

S103, the base station performs corresponding wireless resource allocation and scheduling for the user terminal according to the service characteristics.

In the technical solution disclosed in the embodiment of the present application, through a service type currently required to be executed by a user terminal, based on a pre-specified correspondence between the service type and Qos and QCI, a corresponding resource to be allocated to a service characteristic corresponding to the service type is determined, and corresponding wireless resource allocation and scheduling are performed for the user terminal, thereby ensuring that a service requirement and a service transmission requirement are simultaneously satisfied.

Example two

Based on the service processing method disclosed in the first embodiment, in combination with the correspondence between the service type and the Qos and QCI predefined in S102, in the process of executing S103, the base station allocates and schedules corresponding radio resources to the user terminal based on the service characteristics:

when the service type is a common service, the base station configures the wireless resource meeting the lowest requirement to the user terminal;

when the service type is a private network service, the base station allocates the user terminal to perform service transmission on a private bearer based on the service characteristics of the private network service, wherein the private bearer is pre-divided for a core network, and the private bearer is used for performing service transmission of the private network service;

especially for the private network service, as shown in table 1 below, the correspondence between the service type and Qos and QCI is pre-established for the service characteristics of the private network service:

table 1:

for the service type, Qos, and QCI corresponding relationship pre-established for the service characteristics of the private network service, the base station may adopt a corresponding radio resource management policy.

The private network service uniformly uses a private bearer pre-divided by a core network to transmit service, and other common services transmit service data under a default bearer. Or corresponding wireless resources can be allocated by the base station for service transmission according to the service characteristics in the table 1.

Or, the base station allocates and schedules the radio resource based on the service characteristics, for example, the base station invokes a scheduling policy of the highest level to configure the radio resource for the user terminal according to a high latency requirement and/or a high service priority included in the service characteristics.

In the embodiment of the application, the most appropriate wireless resource and scheduling strategy can be selected for the user terminal by fully utilizing the service characteristics of the private network service, so that the requirement of the private network service and the transmission requirement of the private network service are met at the same time.

EXAMPLE III

The third embodiment of the present application further discloses a service processing method, as shown in fig. 2, including the following steps:

s201, the base station receives a user context establishment request signaling sent to the base station by a core network;

in S201, the user context establishment request signaling carries the user subscription information SPID of the user terminal, where the user subscription information SPID is obtained by the core network when the user terminal initiates an access request to the core network.

S202, the base station acquires the user subscription information SPID of the user terminal in the user context establishing request signaling, and compares the user subscription information SPID of the user terminal with the pre-established user subscription information SPID to obtain the user attribute of the user terminal;

in S202, the obtained user attribute includes, but is not limited to, a user terminal transmission power level or a user terminal permission level; for example, as shown in table 2, the SPIDs are predefined for the user attributes and correspond to the user terminals. In table 2, Y means yes, N means no, H means high, L means low, and the larger the number is, the higher the level of user authority is.

Table 2:

s203, the base station calls a corresponding scheduling strategy and wireless resource configuration based on the user attribute.

In the process of executing S202, the user attribute of the ue, such as whether it is a mobile device, whether it needs pre-scheduling, whether it is a public network user, the level of the transmission power, the level of the ue authority, etc., can be determined according to the preset SPID corresponding to the ue. Then S203 is executed, and a scheduling policy and a radio resource configuration are invoked accordingly for the determined user attributes.

In the process of executing S203, with reference to the content shown in table 2, the base station invokes a corresponding scheduling policy and radio resource configuration based on the user attribute, including:

when the user terminal is a high-level or medium-level user, the base station calls a scheduling strategy of the highest level to configure wireless resources for the user terminal;

or, when the user terminal is a low-level user, the base station calls a scheduling policy of a common level to configure a radio resource for the user terminal;

or, when the user terminal is a fixed or high-power user terminal, the base station uses a non-power-saving mode for the user terminal;

or, when the user terminal is a stationary user terminal, the base station configures the radio resource meeting the minimum requirement to the user terminal or does not configure the radio resource to the user terminal.

In the embodiment of the application, the user attribute of the user terminal can be determined through the preset SPID corresponding to the user terminal, the user attribute of the user terminal is fully utilized, whether the user terminal is a private network user or a public network user is distinguished, and the most appropriate wireless resource and scheduling strategy are further selected for the user terminal based on the user attribute, so that the requirement of private network service and the requirement of private network service transmission are met at the same time.

Example four

Based on the service processing method applicable to the base station disclosed in the first to third embodiments of the present application, the present application also discloses a base station correspondingly, which can execute the disclosed service processing method, and the specific structure of the base station 100 is shown in fig. 3, and includes: a receiving unit 101, a determining unit 102 and a first scheduling assignment unit.

The receiving unit 101 is configured to receive a service request initiated by a user terminal and acquire a service type to be executed, where the service request carries the service type to be executed, and the service type includes a private network service and a general service;

a determining unit 102, configured to determine, based on a pre-established correspondence between a service type and a quality of service Qos or a quality of service level QCI, a service characteristic corresponding to the service type to be executed;

a first scheduling allocating unit 103, configured to allocate and schedule corresponding radio resources for the user equipment according to the service characteristics.

In the technical solution disclosed in the embodiment of the present application, preferably, the first scheduling assignment unit includes:

a fifth configuration module, configured to, when the service type is a private network service, allocate the user terminal to perform service transmission on a dedicated bearer based on service characteristics of the private network service, where the dedicated bearer is pre-divided for a core network, and the dedicated bearer is used for performing service transmission of the private network service;

a sixth configuration module, configured to configure, when the service type is a non-private network service, a radio resource meeting a minimum requirement to the user terminal;

in the technical solution disclosed in the embodiment of the present application, preferably, the first scheduling assignment unit includes:

and a seventh configuration module, configured to invoke a scheduling policy at a highest level for high latency requirements and/or high service priorities included in the service characteristics, and configure radio resources for the user terminal.

In the technical solution disclosed in the embodiment of the present application, preferably, the receiving unit 101 is further configured to receive a user context establishment request signaling sent by the core network to the base station after the user terminal initiates access to the core network, where the user context establishment request signaling carries user subscription information SPID of the user terminal;

preferably, as shown in fig. 4, the base station 100 further includes: an acquisition unit 104 and a second scheduling assignment unit 105;

the acquiring unit 104 is configured to acquire the user subscription information SPID of the user terminal in the user context establishment request signaling, and compare the user subscription information SPID of the user terminal with pre-specified user subscription information SPID to obtain a user attribute of the user terminal;

a second scheduling allocation unit 105, configured to invoke a corresponding scheduling policy and radio resource configuration based on the user attribute.

In the technical solution disclosed in the embodiment of the present application, preferably, the user attribute includes, but is not limited to, a user terminal transmission power level or a user terminal permission level;

the second scheduling assignment unit 105 specifically includes:

a first configuration module, configured to, when the user terminal is a high-level or medium-level user, invoke, by the base station, a scheduling policy of a highest level, and configure radio resources for the user terminal;

a second configuration module, configured to, when the ue is a low-level user, invoke a common-level scheduling policy by the base station, and configure radio resources for the ue;

a third configuration module, configured to, when the ue is a fixed or high-power ue, use a non-power-saving mode for the ue by the base station;

a fourth configuration module, configured to, when the ue is a stationary ue, configure, by the base station, a radio resource meeting a minimum requirement to the ue or not configure, by the base station, a radio resource to the ue.

In the embodiment of the present application, a service processing system is further disclosed, which includes the base station disclosed in the fourth embodiment of the present application, a core network, and a user terminal for requesting to access the core network to execute a corresponding service through the base station.

It should be noted that, in practical applications, the units in the base station disclosed above may be integrated into an entity, the receiving unit may be integrated into a receiver, and other units may be integrated into a processor. The processor may particularly be a central processing unit CPU or a specific integrated circuit ASIC or one or more integrated circuits configured to implement embodiments of the present application.

In the technical solution disclosed in the embodiment of the present application, preferably, the base station includes:

the receiver is used for receiving a service request initiated by a user terminal;

and the processor is used for acquiring the service types which are carried in the service request and need to be executed based on the service request received by the receiver, wherein the service types comprise private network services and common services, and determining the service characteristics which correspond to the service types which need to be executed based on the preset corresponding relation between the service types and the service quality Qos and the service quality grade QCI, and performing corresponding wireless resource allocation and scheduling for the user terminal according to the service characteristics.

Based on the base station disclosed in the fourth embodiment of the present application, the embodiment of the present application further discloses a storage device correspondingly, the storage device is suitable for the base station, and the storage device comprises a memory and a processor connected with the memory through a bus;

the memory stores program codes for performing business processing, the program codes comprise computer operation instructions, and the processor is used for operating the program codes;

the program code for performing message processing includes the service processing method disclosed in the first to third embodiments.

According to the technical scheme disclosed by the embodiment of the application, corresponding resources which should be allocated to the service characteristics corresponding to the service type are determined or proper wireless resources are allocated to the user terminal by adopting a wireless resource management algorithm based on the corresponding relation between the pre-specified service type and the service quality Qos and the service quality grade QCI through the service type which needs to be executed by the user terminal at present, so that the service requirement and the service transmission requirement are met at the same time; or, the user attribute of the user terminal can be determined through the preset SPID corresponding to the user terminal, the user attribute of the user terminal is fully utilized, whether the user terminal is a private network user or a public network user is distinguished, and the most appropriate wireless resource and scheduling strategy are further selected for the user terminal based on the user attribute, so that the requirement of private network service and the requirement of private network service transmission are met at the same time.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. For the system disclosed by the embodiment, the description is relatively simple because the system corresponds to the method disclosed by the embodiment, and the relevant points can be referred to the method part for description.

The principle and the implementation of the present application are explained herein by applying specific examples, and the above description of the embodiments is only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, the specific embodiments and the application range may be changed. In view of the above, the description should not be taken as limiting the application.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (11)

1. A service processing method is applicable to a base station, and comprises the following steps:

the base station receives a service request initiated by a user terminal and acquires a service type required to be executed, wherein the service request carries the service type required to be executed, and the service type comprises a private network service and a common service;

the base station determines the service characteristics corresponding to the service type to be executed based on the corresponding relationship between the service type, the service quality Qos and the service quality grade QCI which are preset;

and the base station performs corresponding wireless resource allocation and scheduling for the user terminal according to the service characteristics.

2. The method of claim 1, wherein if a user context setup request signaling sent by a core network to the base station is received, where the user context setup request signaling carries user subscription information SPID of the user terminal, further comprising:

the base station acquires the user subscription information SPID of the user terminal in the user context establishment request signaling, and compares the user subscription information SPID of the user terminal with the pre-established user subscription information SPID to obtain the user attribute of the user terminal;

and the base station calls a corresponding scheduling strategy and radio resource configuration based on the user attribute.

3. The method of claim 2, wherein the user attributes comprise: the user terminal transmitting power grade or the user terminal authority grade; the base station calls a corresponding scheduling strategy and radio resource configuration based on the user attribute, and the method comprises the following steps:

when the user terminal is a high-level or medium-level user, the base station calls a scheduling strategy of the highest level to configure wireless resources for the user terminal;

or, when the user terminal is a low-level user, the base station calls a scheduling policy of a common level to configure a radio resource for the user terminal;

or, when the user terminal is a fixed or high-power user terminal, the base station uses a non-power-saving mode for the user terminal;

or, when the user terminal is a stationary user terminal, the base station configures the radio resource meeting the minimum requirement to the user terminal or does not configure the radio resource to the user terminal.

4. The method according to claim 1, wherein the predefined correspondence between the service type and the Qos or QCI comprises:

the base station and the core network synchronously configure the service characteristics of different service types respectively to complete the expansion of the quality of service (QCI), and establish the corresponding relation between the service characteristics and the quality of service (Qos) and the quality of service (QCI);

or,

and the base station receives the corresponding relation between the service characteristics and the quality of service (Qos) and the quality of service (QCI) established after the core network uniformly configures the extended quality of service (QCI).

5. The method of claim 1, wherein the base station performs corresponding radio resource allocation and scheduling for the ue based on the service characteristics, comprising:

when the service type is a private network service, the base station allocates the user terminal to perform service transmission on a private bearer based on the service characteristics of the private network service, wherein the private bearer is pre-divided for a core network, and the private bearer is used for performing service transmission of the private network service;

when the service type is a common service, the base station configures the wireless resource meeting the lowest requirement to the user terminal;

or,

and the base station calls a scheduling strategy of the highest level aiming at the high time delay requirement and/or the high service priority contained in the service characteristics to configure wireless resources for the user terminal.

6. A traffic processing apparatus, comprising:

a receiving unit, configured to receive a service request initiated by a user terminal, and acquire a service type to be executed, where the service request carries the service type to be executed, and the service type includes a private network service and a common service;

the determining unit is used for determining the service characteristics corresponding to the service type to be executed based on the corresponding relationship between the service type and the service quality Qos and the service quality grade QCI which are preset;

and the first scheduling and allocating unit is used for performing corresponding wireless resource allocation and scheduling for the user terminal according to the service characteristics.

7. The traffic processing apparatus according to claim 6, further comprising:

the receiving unit is further configured to: receiving a user context establishment request signaling sent to the base station by the core network after the user terminal initiates access to the core network, wherein the user context establishment request signaling carries user subscription information (SPID) of the user terminal;

an obtaining unit, configured to obtain the user subscription information SPID of the user terminal in the user context establishment request signaling, and compare the user subscription information SPID of the user terminal with a pre-made user subscription information SPID to obtain a user attribute of the user terminal;

and the second scheduling allocation unit is used for invoking a corresponding scheduling strategy and radio resource configuration based on the user attribute.

8. The traffic processing apparatus of claim 7, wherein the user attributes comprise: the user terminal transmitting power grade or the user terminal authority grade; the second scheduling assignment unit includes:

a first configuration module, configured to, when the user terminal is a high-level or medium-level user, invoke, by the base station, a scheduling policy of a highest level, and configure radio resources for the user terminal;

a second configuration module, configured to, when the ue is a low-level user, invoke a common-level scheduling policy by the base station, and configure radio resources for the ue;

a third configuration module, configured to, when the ue is a fixed or high-power ue, use a non-power-saving mode for the ue by the base station;

a fourth configuration module, configured to, when the ue is a stationary ue, configure, by the base station, a radio resource meeting a minimum requirement to the ue or not configure, by the base station, a radio resource to the ue.

9. The service processing apparatus of claim 6, wherein the first scheduling allocating unit, configured to allocate and schedule radio resources for the ue according to the service characteristics, comprises:

a fifth configuration module, configured to, when the service type is a private network service, allocate the user terminal to perform service transmission on a dedicated bearer based on service characteristics of the private network service, where the dedicated bearer is pre-divided for a core network, and the dedicated bearer is used for performing service transmission of the private network service;

a sixth configuration module, configured to configure, when the service type is a non-private network service, a radio resource meeting a minimum requirement to the user terminal;

alternatively, it comprises:

and a seventh configuration module, configured to invoke a scheduling policy at a highest level for high latency requirements and/or high service priorities included in the service characteristics, and configure radio resources for the user terminal.

10. A base station, comprising:

the receiver is used for receiving a service request initiated by a user terminal;

and the processor is used for acquiring the service types which are carried in the service request and need to be executed based on the service request received by the receiver, wherein the service types comprise private network services and common services, and determining the service characteristics which correspond to the service types which need to be executed based on the preset corresponding relation between the service types and the service quality Qos and the service quality grade QCI, and performing corresponding wireless resource allocation and scheduling for the user terminal according to the service characteristics.

11. A transaction system, comprising: the service processing apparatus of any one of claims 6 to 9, or the base station of claim 10, a core network, and a user terminal configured to request access to the core network through the base station to perform a corresponding service.