CN115714990A - Wireless service transmission control method, device and functional entity - Google Patents
Wireless service transmission control method, device and functional entity Download PDFInfo
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- CN115714990A CN115714990A CN202110948867.XA CN202110948867A CN115714990A CN 115714990 A CN115714990 A CN 115714990A CN 202110948867 A CN202110948867 A CN 202110948867A CN 115714990 A CN115714990 A CN 115714990A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L65/00—Network arrangements, protocols or services for supporting real-time applications in data packet communication
- H04L65/60—Network streaming of media packets
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L65/00—Network arrangements, protocols or services for supporting real-time applications in data packet communication
- H04L65/80—Responding to QoS
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N19/00—Methods or arrangements for coding, decoding, compressing or decompressing digital video signals
- H04N19/10—Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using adaptive coding
- H04N19/169—Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using adaptive coding characterised by the coding unit, i.e. the structural portion or semantic portion of the video signal being the object or the subject of the adaptive coding
- H04N19/177—Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using adaptive coding characterised by the coding unit, i.e. the structural portion or semantic portion of the video signal being the object or the subject of the adaptive coding the unit being a group of pictures [GOP]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/08—Testing, supervising or monitoring using real traffic
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W28/00—Network traffic management; Network resource management
- H04W28/02—Traffic management, e.g. flow control or congestion control
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- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W8/00—Network data management
- H04W8/18—Processing of user or subscriber data, e.g. subscribed services, user preferences or user profiles; Transfer of user or subscriber data
- H04W8/20—Transfer of user or subscriber data
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Abstract
The invention provides a wireless service transmission control method, a wireless service transmission control device, a wireless service transmission control platform and a base station. The method comprises the following steps: acquiring wireless service information needing to be guaranteed, service flow identification information of a user needing to be guaranteed and first service characteristic information of the current service of the user; sending an information subscription request to a second network function entity according to the service flow identification information; receiving subscription data sent by a second network functional entity according to the information subscription request; generating wireless configuration information according to the first service characteristic information, the subscription data and the wireless service information; sending the radio configuration information to the second network function entity. By adopting the method, the refined wireless service guarantee based on the service requirements and the service characteristics can be realized.
Description
Technical Field
The present invention relates to the field of wireless technologies, and in particular, to a method, an apparatus, and a functional entity for controlling wireless service transmission.
Background
At present, an operator can provide a customized guarantee scheme for a user through a Quality of Service (QoS) mechanism, but the current QoS of a 5G core network has a coarse granularity for Service characteristic definition, cannot delicately depict Service requirements, and lacks description on Service characteristics. Due to the dynamic characteristics of air interfaces and user behaviors, the traditional wireless network generally provides best-effort network service and is difficult to guarantee to meet the deterministic service requirements of the vertical industry. Under a local scene oriented to the vertical industry, part of vertical industry services have deterministic requirements on time delay, speed and reliability.
Disclosure of Invention
The technical scheme of the invention aims to provide a wireless service transmission control method, a device and a functional entity, which are used for meeting the deterministic service guarantee of the vertical industry under a wireless dynamic air interface.
The embodiment of the invention provides a wireless service transmission control method, which is applied to a first network function entity, wherein the method comprises the following steps:
acquiring wireless service information needing to be guaranteed, service flow identification information of a user needing to be guaranteed and first service characteristic information of the current service of the user;
sending an information subscription request to a second network function entity according to the service flow identification information;
receiving subscription data sent by the second network functional entity according to the information subscription request; wherein the subscription data comprises wireless measurement data and/or wireless status data;
generating wireless configuration information according to the first service characteristic information, the subscription data and the wireless service information;
sending the wireless configuration information to the second network function entity.
Optionally, the method for controlling wireless service transmission, wherein acquiring information of a wireless service that needs to be guaranteed includes:
acquiring an identifier of a user service which needs to be guaranteed and is sent by a third network functional entity;
determining wireless service information needing to be guaranteed according to the user service identification and service template information sent by a fourth network functional entity in advance;
the service template information includes an identifier corresponding to the wireless service information of the user service, which is pre-configured by the fourth network function entity.
Optionally, in the method for controlling wireless service transmission, the wireless service information includes service requirement information and/or second service characteristic information of a required service.
Optionally, in the method for controlling wireless service transmission, the service requirement information includes at least one of a guaranteed bandwidth, a bandwidth jitter, a packet delay jitter, a stuck time, a stuck proportion, and a black edge rate of an XR service.
Optionally, the wireless service transmission control method, wherein the second service characteristic information includes at least one of a video coding scheme, a resolution, a frame rate, an average bit rate, an average view angle, a buffered state, a non-buffered state, a redundant view angle FOV, a video block-based adaptive transmission redundant view angle TWS FOV, a packet interval, a packet size, a packet average arrival time, an uplink/downlink data packet ratio, a group of pictures GOP length, an I frame interval, an I frame size, an I frame arrival time, and a mobility state of a terminal that initiates a corresponding service.
Optionally, the method for controlling wireless service transmission, wherein obtaining service flow identification information of a user needing to be provisioned includes:
and acquiring the service flow identification information of the user needing to be ensured, which is sent by the third network functional entity.
Optionally, in the method for controlling wireless service transmission, the first service characteristic information includes at least one of a fragmentation code rate, a view angle, an I-frame size, an I-frame interval, a GOP structure, a dynamic position of the terminal, a moving speed of the terminal, a moving direction of the terminal, a dynamic trajectory of the terminal, a corresponding service, and user identification information.
Optionally, the radio service transmission control method, wherein the radio configuration information includes at least one of the following information:
the configuration parameters of the logical channel corresponding to the data bearing DRB mapped by the service flow;
configuring configuration parameter information of authorized Configured Grant resources;
configuration parameter information of semi-persistent scheduling (SPS) resources;
pre-scheduling switch indication and pre-scheduling corresponding cycle parameter configuration;
UE power enhancement configuration;
reducing the indication information of the modulation and coding strategy MCS level;
and improving the indication information of the initial block error rate (BLER) threshold.
Optionally, the method for controlling wireless service transmission, wherein generating wireless configuration information according to the first service feature information, the subscription data, and the wireless service information includes:
predicting service quality and/or a satisfying condition of the service quality according to the first service characteristic information, the subscription data and the wireless service information;
and generating wireless configuration information according to the service quality and/or the service quality satisfying condition.
Optionally, the method for controlling wireless service transmission further includes:
when wireless configuration information is generated according to the service quality and/or the satisfaction condition of the service quality, the following strategies are met:
and when the preset time t can not meet the service quality requirement, at least one of the parameters of the data bearing DRB, the scheduling priority adjustment, the starting of the pre-scheduling mechanism and the additional allocation of the wireless resources is adjusted aiming at the preset time t.
Optionally, the method for controlling wireless service transmission further includes:
and acquiring early warning information of dynamic service layer blockage and/or service burst sent by a third network functional entity.
Optionally, the method for controlling wireless service transmission further includes:
determining a forwarding strategy of a wireless local shunting function unit according to the wireless service information;
and sending the forwarding strategy to a wireless local shunting function unit.
The embodiment of the invention also provides a wireless service transmission control method which is applied to a second network function entity, wherein the method comprises the following steps:
acquiring an information subscription request sent by a first network functional entity;
responding to the information subscription request, and sending subscription data to the first network functional entity; wherein the subscription data comprises wireless measurement data and/or wireless status data;
acquiring wireless configuration information sent by the first network functional entity according to the subscription data;
and performing service scheduling and/or algorithm optimization according to the wireless configuration information.
Optionally, the radio service transmission control method, wherein the radio configuration information includes at least one of the following information:
the configuration parameters of the logic channel corresponding to the data bearing DRB mapped by the service flow;
configuring configuration parameter information of authorized Configured Grant resources;
configuration parameter information of semi-persistent scheduling (SPS) resources;
pre-scheduling switch indication and pre-scheduling corresponding cycle parameter configuration;
UE power enhancement configuration;
reducing the indication information of the modulation and coding strategy MCS level;
and improving the indication information of the initial transmission block error rate BLER threshold.
An embodiment of the present invention further provides a network function entity, where the network function entity is a first network function entity, and the network function entity includes a transceiver and a processor, where:
the transceiver is used for acquiring wireless service information needing to be guaranteed, service flow identification information of a user needing to be guaranteed and first service characteristic information of the current service of the user;
the processor is used for sending an information subscription request to a second network function entity according to the service flow identification information;
the transceiver is further configured to receive subscription data sent by the second network function entity according to the information subscription request; wherein the subscription data comprises wireless measurement data and/or wireless status data;
the processor is further configured to generate wireless configuration information according to the first service feature information, the subscription data, and the wireless service information;
the transceiver is further configured to send the radio configuration information to the second network function entity.
An embodiment of the present invention further provides a network function entity, where the network function entity is a second network function entity, and includes a transceiver and a processor, where:
the transceiver is used for acquiring an information subscription request sent by a first network function entity;
responding to the information subscription request, and sending subscription data to the first network function entity; wherein the subscription data comprises wireless measurement data and/or wireless status data;
acquiring wireless configuration information sent by the first network functional entity according to the subscription data;
the processor is configured to perform service scheduling and/or algorithm optimization according to the wireless configuration information.
The embodiment of the present invention further provides a wireless service transmission control device, which is applied to a first network function entity, wherein the device includes:
the system comprises a first acquisition module, a second acquisition module and a first service processing module, wherein the first acquisition module is used for acquiring wireless service information needing to be guaranteed, service flow identification information of a user needing to be guaranteed and first service characteristic information of the current service of the user;
the first sending module is used for sending an information subscription request to a second network function entity according to the service flow identification information;
a second obtaining module, configured to receive subscription data sent by the second network function entity according to the information subscription request; wherein the subscription data comprises wireless measurement data and/or wireless status data;
the first processing module is used for generating wireless configuration information according to the first service characteristic information, the subscription data and the wireless service information;
a second sending module, configured to send the radio configuration information to the second network function entity.
The embodiment of the present invention further provides a wireless service transmission control device, which is applied to a second network function entity, wherein the device includes:
a third obtaining module, configured to obtain an information subscription request sent by a first network function entity;
a third sending module, configured to send subscription data to the first network function entity in response to the information subscription request; wherein the subscription data comprises wireless measurement data and/or wireless status data;
a fourth obtaining module, configured to obtain the wireless configuration information sent by the first network function entity according to the subscription data;
and the second processing module is used for carrying out service scheduling and/or algorithm optimization according to the wireless configuration information.
An embodiment of the present invention further provides a network device, where the network device includes: a processor, a memory and a program stored on the memory and executable on the processor, the program when executed by the processor implementing the wireless traffic transmission control method as claimed in any one of the above.
An embodiment of the present invention further provides a readable storage medium, where the readable storage medium stores a program, and the program, when executed by a processor, implements the steps in the wireless service transmission control method according to any one of the above.
At least one of the above technical solutions of the present invention has the following beneficial effects:
by adopting the wireless service transmission control method in this embodiment, a first network functional entity, such as a wireless intelligent control platform, generates wireless configuration information according to a wireless requirement to be guaranteed and first service characteristic information (dynamic service characteristic information) acquired in real time, and sends the wireless configuration information to a base station, and the deterministic service guarantee of a wireless access network on vertical industry services is realized by using more refined defined service requirements and service characteristics;
the wireless service information comprises service requirement information and/or second service characteristic information of required services, the second service characteristic information comprises static/semi-static characteristic information of the services and comprises a video coding mode, a resolution ratio, a frame rate, an average code rate, an average view angle, a buffer and no buffer, and the like, the first service characteristic information comprises a fragment code rate, a view angle, an I frame size, an I frame interval, a GOP structure, a dynamic position of a terminal, a moving speed of the terminal and the like, the defined service requirement information, the first service characteristic information and the second service characteristic information can face services of a local scene, service requirements and service characteristics can be defined more finely, and the wireless intelligent control platform can achieve more dynamic and real-time user-level and DRB-level wireless experience guarantee based on the obtained service requirements and service characteristics and real-time data of a wireless side. In addition, by adopting the method of the embodiment of the invention, the wireless network capability can be quickly customized according to the localized service characteristics and the requirements of the vertical industry without changing the core network, thereby having great flexibility.
Drawings
Fig. 1 is a schematic diagram of a system architecture of a wireless service transmission control method according to an embodiment of the present invention;
fig. 2 is a flowchart illustrating a method for controlling wireless service transmission according to an embodiment of the present invention;
FIG. 3 is a schematic flow chart of a specific embodiment of a method according to an embodiment of the present invention;
fig. 4 is a flowchart illustrating a method for controlling wireless service transmission according to another embodiment of the present invention;
fig. 5 is a schematic structural diagram of a wireless intelligent control platform according to an embodiment of the present invention;
fig. 6 is a schematic structural diagram of a base station according to an embodiment of the present invention;
fig. 7 is a schematic structural diagram of a wireless service transmission control apparatus according to an embodiment of the present invention;
fig. 8 is a schematic structural diagram of a wireless service transmission control apparatus according to another embodiment of the present invention.
Detailed Description
In order to make the technical problems, technical solutions and advantages of the present invention more apparent, the following detailed description is given with reference to the accompanying drawings and specific embodiments.
In order to meet the deterministic service guarantee of the wireless dynamic air interface vertical industry, the embodiment of the invention provides a wireless service transmission control method, which generates wireless configuration information according to the wireless requirement to be guaranteed and the service characteristic information acquired in real time so as to realize the deterministic service guarantee of the wireless access network to the service.
In general technologies, user experience is mainly guaranteed through a core network QoS mechanism and a Service Level Agreement (SLA) of a network slice. The Radio Access (NR) protocol stack maps IP flows with the same Qos requirement to the same Qos Flow through a Session Management Function (SMF), and then provides the IP flows with the RAN through an Access and Mobility Management Function (AMF) entity. And the base station gNB maps the QoS Flow to the DRB, so that a Radio Access Network (RAN) side adapts to the QoS requirement. Thus, two-level mapping is formed, so that the RAN side has a certain degree of freedom, for example, the gNB can convert M QoS flows into N DRBs according to a certain policy and a certain policy.
In addition, currently, 5G executes QoS processing based on the granularity of a flow, uses QoS Flow Identifiers (QFI) to identify different QoS flows, and a network side executes forwarding of packets based on QFI, where user plane Data with the same QFI in a Protocol Data Unit (PDU) session will obtain the same forwarding processing (such as the same scheduling, the same admission threshold, and the like). No bearer exists between the 5GC and the RAN, when a new QoS requirement exists, only a radio bearer needs to be established, for each PDU session, a single tunnel is formed between the 5GC and the RAN, and the RAN side manages a Data Radio Bearer (DRB) and mapping from QoS Flow to the DRB. The implementation of the 5G QoS guarantee is performed through the operation of the QoS Flow, which may be configured in advance or maintained through the PDU session establishment/modification procedure. However, by adopting the general technical manner, a QoS pre-configuration mechanism is used to provide customized guarantee for a user, and since the granularity of QoS for service characteristic definition is coarse, service requirements cannot be described finely, so that it is difficult to guarantee that service requirements of a vertical industry local scene with deterministic requirements on time delay, rate and reliability are met.
In order to solve the above technical problem, embodiments of the present invention provide a wireless service transmission control method, so as to implement a wireless service guarantee based on service requirements and service characteristics, and implement an intelligent guarantee for a wireless access network on services.
Fig. 1 is a schematic diagram of a system architecture of a wireless service transmission control method according to an embodiment of the present invention. The system architecture includes:
the management platform is used for realizing the management of the service and the service characteristic information provided by the wireless access network;
the industry service platform is used for providing industry services;
the wireless intelligent control platform is used for realizing the control strategy optimization of the whole data plane and the control plane of the service, the service and the data flow on the whole wireless access network;
the wireless local distribution function unit is used for realizing local distribution of base station data;
a base station: for providing radio access network services;
a core network: for end-to-end connection setup, user authentication and charging.
An embodiment of the method for controlling wireless service transmission according to the embodiment of the present invention is applied to a wireless intelligent control platform, and as shown in fig. 2, the method includes:
s210, acquiring wireless service information needing to be guaranteed, service flow identification information of a user needing to be guaranteed and first service characteristic information of the current service of the user;
s220, sending an information subscription request to a second network function entity according to the service flow identification information;
s230, receiving subscription data sent by the second network function entity according to the information subscription request; wherein the subscription data comprises wireless measurement data and/or wireless status data;
s240, generating wireless configuration information according to the first service characteristic information, the subscription data and the wireless service information;
s250, sending the radio configuration information to the second network function entity.
In this embodiment of the present invention, optionally, the first network function entity may be, but is not limited to, only be a wireless intelligent control platform; the second network functional entity may be, but is not limited to being, only capable of being a base station.
By adopting the wireless service transmission control method in the embodiment, the wireless intelligent control platform generates the wireless configuration information according to the wireless requirement to be ensured and the service characteristic information acquired in real time, and sends the wireless configuration information to the base station, so as to ensure the service certainty by the wireless access network.
In addition, optionally, in this embodiment of the present invention, in step S220, the information subscription request sent by the first network functional entity to the second network functional entity may be used to request to obtain radio measurement and status information of the second network functional entity, such as to request to obtain real-time radio status and configuration data at a cell level and/or a user level. In one embodiment, optionally, in step S210, the acquiring the wireless service information that needs to be provisioned includes:
acquiring an identifier of a user service which needs to be ensured and is sent by a third network functional entity;
determining wireless service information needing to be guaranteed according to the identification of the user service and service template information sent by a fourth network functional entity in advance;
the service template information includes an identifier corresponding to the wireless service information of the user service, which is pre-configured by the fourth network function entity.
Optionally, the wireless service information includes service requirement information and/or second service characteristic information of the required service.
In addition, optionally, the third network functional entity and the fourth network functional entity may be the same network functional entity, or may be different network functional entities.
For example, the identifier of the user service that needs to be provisioned may be sent by the management platform or the industry service platform; the service template information may be sent by the management platform in advance.
In the method according to the embodiment of the present invention, as shown in fig. 1, a management platform sends service template information to a wireless intelligent control platform, where the service template information includes service requirement information and/or second service characteristic information. Wherein the second service characteristic information includes static/semi-static characteristic information of the service.
Optionally, each type of service requirement and the second service characteristic information have a corresponding and predefined identification ID.
Optionally, when there are multiple services in the service requirement, the service template information may further include priorities between users and/or services.
In the embodiment of the present invention, the service requirements in the wireless service information include, but are not limited to, at least one of guaranteed bandwidth, bandwidth jitter, packet delay jitter, stuck times, stuck duration, and black margin rate of the extended reality XR service. Optionally, the extended XR service includes at least one of a virtual reality service, a mixed reality service, and an augmented reality service.
Optionally, the guaranteed bandwidth, the bandwidth jitter, and the like belong to bandwidth requirements at a frame level or a second level.
Specifically, the guaranteed bandwidth includes, but is not limited to, being capable of including only at least one of an initial buffer guaranteed bandwidth, a second-level guaranteed bandwidth, a frame-level guaranteed bandwidth, and a fragment Session-level guaranteed bandwidth.
The bandwidth jitter includes, but is not limited to, being able to include only at least one of second-level bandwidth jitter and frame-level bandwidth jitter.
On the other hand, the second service characteristic information in the service template information includes at least one of a video encoding method, a resolution, a frame rate, an average code rate, an average view angle, a buffered state, a non-buffered state, a redundant Field of view (FOV), a video block-based adaptive transmission redundant Field of view (TWS FOV), a packet interval, a packet size, a packet average arrival time, an uplink/downlink data packet ratio, a Group of Pictures (GOP) length, an I frame interval, an I frame size, an I frame arrival time, and a mobility state of a terminal that originates a corresponding service.
In the embodiment of the present invention, optionally, the mobility state of the terminal initiating the corresponding service includes a stationary state, a moving state, and the like, where the moving state includes average moving speed and/or trajectory information, and the like.
In the method for controlling wireless service transmission according to the embodiment of the present invention, optionally, the specific attributes and corresponding values of the wireless service requirement and the second service feature information in the service template information may be identified according to predefined numbers, as shown in table 1 below:
TABLE 1
In step S210, in the method for controlling wireless service transmission according to the embodiment of the present invention, in acquiring the service flow identification information of the user needing to be provisioned, optionally, the service flow identification information is service flow identification information of a radio access network RAN side of the user, where the acquiring of the service flow identification information of the user needing to be provisioned includes:
and acquiring service flow identification information of the user needing to be ensured, which is sent by a third network functional entity (such as a management platform or an industry service platform). Specifically, a management platform or an industry service platform issues an identification ID of a user service to be guaranteed to a wireless intelligent control platform; further, the management platform or the industry service platform can also issue a user service flow source IP and a port number which need to guarantee the user to the wireless intelligent control platform. That is, the service flow identification information includes the user service flow source IP and the port number.
In step S210, the method for controlling wireless service transmission according to the embodiment of the present invention obtains first service characteristic information, including:
the method comprises the steps of obtaining first service characteristic information sent by an industry service platform to a wireless intelligent control platform.
Optionally, the first service characteristic information includes at least one of a slicing code rate, a view angle, an I-frame size, an I-frame interval, a GOP structure, a dynamic position of the terminal, a moving speed of the terminal, a moving direction of the terminal, a dynamic trajectory of the terminal, a corresponding service, and user identification information.
In this embodiment, when the business service platform sends the first service feature information to the wireless intelligent control platform, the corresponding service and address information of the user need to be indicated, that is, the corresponding service and the IP address and port number of the user need to be indicated.
By adopting the method, through the step S210, the wireless intelligent control platform acquires the service requirement sent by the management platform or the industry service platform and the identification number corresponding to the second service characteristic information, as well as the IP address and the port number (service flow identification information) of the service flow; the wireless intelligent control platform determines service requirements and second service characteristic information which need to be guaranteed according to the identification number; and determining the user ID (such as an intranet IP address) needing to be guaranteed according to the IP address and the port number.
On the basis, in step S220, the wireless intelligent control platform sends an information subscription request to the base station according to the determined user ID, for requesting or subscribing to real-time wireless status and configuration data at the cell level and/or the user level.
Optionally, the industry service platform may also send early warning information of the traffic jam and/or the traffic burst of the dynamic service layer to the wireless intelligent control platform, so as to inform the wireless intelligent control platform of processing the burst traffic in advance or prepare in advance to avoid the traffic jam. That is, the wireless intelligent control platform can acquire early warning information of dynamic service layer blockage and/or service burst sent by the industry service platform.
In step S240, the method for controlling wireless service transmission according to the embodiment of the present invention generates wireless configuration information according to the first service feature information, the wireless status real-time data, and the wireless service information, including:
predicting the service quality and/or the satisfaction condition of the service quality according to the service characteristic information, the wireless state real-time data and the wireless service information;
and generating wireless configuration information according to the service quality and/or the satisfaction condition of the service quality.
Optionally, the wireless configuration information comprises wireless real-time control information and/or wireless real-time policy information.
Specifically, when the wireless configuration information is generated according to the service quality and/or the satisfaction condition of the service quality, the following policies are satisfied:
when the preset time t can not meet the service quality requirement, at least one of Data Resource Bearer (DRB) parameter optimization, scheduling priority adjustment, starting a pre-scheduling mechanism and extra-allocation of wireless resources is adjusted according to the preset time t.
Specifically, the wireless intelligent control platform receives wireless state real-time data reported by a base station and first service characteristic information sent by an industry service platform. And predicting the service quality in real time by using the first service characteristic information and the wireless state subscription data, and also predicting the satisfaction condition of the service quality, for example, predicting the advance that the service quality cannot be satisfied at the future time t, and adjusting at least one of data bearing DRB parameter optimization, scheduling priority adjustment, starting a pre-scheduling mechanism and additionally allocating wireless resources aiming at the time t in advance.
For example, when the predicted rate cannot be met, the DRB scheduling priority of users and services to be guaranteed may be increased, and/or the GFBR and PBR parameter values may be increased;
when the delay cannot be met, a pre-Scheduling mechanism can be started, and/or uplink Scheduling Request (SR) period setting, configuration authorized configured grant, and Semi-Persistent Scheduling (SPS) period setting are reduced;
when the reliability cannot be met, the downlink transmission power of the UE is increased, and/or the Modulation and Coding Scheme (MCS) level is reduced, the upper limit of the MCS scheduled by the user is set, and/or the Block Error rate (BLER) threshold is increased.
In the method for controlling wireless service transmission according to the embodiment of the present invention, in step S240, the wireless intelligent control platform sends the generated wireless configuration information to the base station. Optionally, when the radio configuration information is sent, the radio configuration information also carries a terminal identifier ID of the RAN side corresponding to the radio configuration information.
Optionally, the wireless configuration information includes at least one of the following information:
the configuration parameters of the logic channel corresponding to the DRB mapped by the service flow;
configuration parameter information of Configured Grant resources;
configuration parameter information of SPS resources;
pre-scheduling switch indication and pre-scheduling corresponding cycle parameter configuration;
UE power enhancement configuration;
indication information for lowering the MCS level;
and improving the indication information of the initial BLER threshold.
Specifically, the wireless configuration information includes one or more of the following information:
1) Scheduling priority, physical layer priority, guaranteed Flow Bit Rate (GFBR), maximum Flow Bit Rate (MFBR), prioritized Bit Rate (PBR), whether Discontinuous Reception (DRX) configuration is selected, MCS-Table selection, and other parameters of a logical channel corresponding to a DRB to which a service Flow is mapped;
2) Configuration parameter information of Configured Grant resources and SPS resources, such as period, start position, etc.;
3) Indicating and pre-scheduling the corresponding cycle parameter configuration by a pre-scheduling switch, such as the cycle parameter configuration corresponding to the pre-scheduling and the pre-scheduling;
4) The UE power enhancement configuration is used for starting the power enhancement characteristic aiming at the UE needing to be guaranteed and increasing the uplink or downlink sending power of a user;
5) And reducing the MCS level or improving the initial BLER threshold so as to improve the transmission reliability of the user.
Optionally, after step S240, the method further comprises:
and the wireless intelligent control platform also determines a forwarding strategy of the wireless local shunting function unit according to the received wireless service information, namely according to the received service requirement and/or service characteristic information, and sends the forwarding strategy to the wireless local shunting function unit.
Specifically, the wireless intelligent control platform determines a forwarding policy of the wireless local offloading function unit, such as a forwarding priority and a delay guarantee of a target UE session, according to the received service requirement and/or static/semi-static service characteristic information.
As shown in fig. 1, the wireless local offload function unit performs a local offload forwarding operation according to the received forwarding policy.
Optionally, after receiving the wireless configuration information sent by the wireless intelligent control platform, the base station performs corresponding service scheduling and algorithm optimization according to the wireless configuration information.
Referring now to fig. 3, and in conjunction with fig. 1 and 2, a specific implementation of the method of the present invention is illustrated.
For example, in this embodiment, considering real-time guarantee for XR service remote guidance, industrial vision, and PLC remote control service in a factory scenario, the main steps of using the wireless service transmission control method include:
s310, the management platform issues service requirements and/or second service characteristic information which are predefined according to a wireless network and an industry client to the wireless intelligent control platform, namely the management platform sends service template information to the wireless intelligent control platform; optionally, the management platform sends the service requirement and/or the identification number corresponding to the service characteristic information to the wireless intelligent control platform through the service template information, and sends the service requirement and/or the second service characteristic information to the wireless intelligent control platform. For example, the issued service template information may include any one of the table forms of table 2 and table 3 below:
TABLE 2
TABLE 3
S320a, the management platform sends user service ID information needing to be guaranteed and corresponding user service flow source IP and port number to the wireless intelligent control platform;
for example, the service ID number of the user 1 is 1 (corresponding to the AR polling service), the IP address of the corresponding user is 192.168.1.100, and the port number is: 5300; the service ID number of the user 2 is 2, the IP address of the corresponding user is 192.168.1.156, and the port number is: 5302;
in another embodiment, after step S310, S320b may also be executed, where the industry service platform issues user service ID information and corresponding user service stream source IP and port number to be guaranteed to the wireless intelligent control platform;
s330, the industry service platform sends second service characteristic information (dynamic service characteristic information) of the AR service corresponding to the user 1 to the wireless intelligent control platform in a second period, for example, the second service characteristic information includes fragmentation code rate and/or field angle information, and the specific information content is in the following form 4:
TABLE 4
S340, the wireless intelligent control platform receives the service requirement in the step S320a or S320b and the identification number corresponding to the second service characteristic information, the IP address and the port number of the service flow; determining wireless service requirements and service characteristic information which need to be guaranteed by a wireless side based on the identification number;
s350, the wireless intelligent control platform determines an intranet IP address of a user on the RAN side of the user needing service guarantee based on the IP address and the port number;
optionally, the wireless intelligent control platform may interact with the local offloading function unit through the user IP address and the port number, and request to obtain an intranet IP address of the user;
s360, the wireless intelligent control platform sends an information subscription request to a base station based on the RAN side user ID of the user, and requests or subscribes real-time wireless state and configuration data of a cell level and a user level; optionally, the real-time wireless status and configuration data of the cell level and the user level may be reported based on a subscription period, or may be reported based on a defined event of the cell level or the user level;
and S370, the base station sends wireless state real-time data to the wireless intelligent control platform according to the information subscription request, namely reports data content to the wireless intelligent control platform, and sends the subscribed or requested real-time wireless state and configuration data.
Optionally, the data reporting content, that is, the radio status real-time data includes one or more of the following information:
cell level state: at least one of load information, packet loss rate, time delay and the like is included; user characteristic statistical distribution;
user-level measurement: the method includes at least one of Reference Signal Receiving Power (RSRP), reference Signal Receiving Quality (RSRQ), signal to Interference plus Noise Ratio (SINR), packet Data Convergence Protocol (PDCP) buffer, medium Access Control (MAC) Ratio rate, CQI, MCS, and the like;
cell level configuration: including at least one of neighbor configuration and handover/reselection parameters;
user-level configuration: at least one of DRB QoS, SR, SPS/CG and Logical Channel, etc.;
if the reporting is required based on event triggering, possible triggering events include one or more of the following:
at a cell level: the method comprises the steps of obtaining a cell load condition (including RRC connection number and/or uplink and downlink PRB occupation) and a Service Data Unit (SDU) disconnection rate of a cell;
user level: including at least one of measurement information of the user (e.g., including at least one of RSRP, RSRQ, and SINR), PRB occupancy of the user, user PDCP buffering, packet delay status, etc.
Optionally, the method further includes step S380, the industry service platform sends early warning information of dynamic service layer blocking and/or service burst to the wireless intelligent control platform;
s390, the wireless intelligent control platform receives the wireless state real-time data reported by the base station and the service characteristic information sent by the industry service platform, and predicts the second-level blockage situation (namely, service quality) of the AR service in real time by using the service characteristic information and the wireless state real-time data; dynamically adjusting GFBR parameters of the DRB bearing the user service according to the katon prediction result; when the user is predicted to be jammed, calculating to obtain the size of the dynamic GFBR according to the AR field angle and the fragment code rate information of the user so as to ensure that the user is not jammed, and generating wireless configuration information;
s391, the wireless intelligent control platform sends the generated wireless configuration information to a base station, wherein the wireless configuration information carries a UE ID of the RAN side corresponding to the control strategy and the dynamic GFBR value for bearing the UE in the step S390;
s392, the base station receives the wireless configuration information sent by the wireless intelligent control platform, and executes corresponding scheduling and related optimization algorithms according to the wireless configuration information;
s393, the wireless intelligent control platform determines a forwarding strategy of the wireless local shunting function unit according to the received service requirement and/or service characteristic information, such as the forwarding priority of the target UE session, the forwarding priority of the user 2 being higher than that of the user 1, and the like;
s394, the wireless intelligent control platform sends the forwarding strategy of the data plane generated in the step S393 to the wireless local shunting function unit;
and S395, the wireless local offloading function unit receives the forwarding policy and performs the local offloading forwarding operation according to the forwarding policy.
By adopting the wireless service transmission control method provided by the embodiment of the invention, the service of a local scene can be oriented, the service requirement and the service characteristic can be more finely defined, and the wireless intelligent control platform can realize more dynamic and real-time user-level and DRB-level wireless experience guarantee based on the acquired service requirement and service characteristic and real-time data of a wireless side. In addition, by adopting the method of the embodiment of the invention, the wireless network capability can be quickly customized according to the localized service characteristics and the requirements of the vertical industry without changing the core network, thereby having great flexibility.
An embodiment of the present invention further provides a method for controlling wireless service transmission, which is applied to a second network function entity, and as shown in fig. 4, the method includes:
s410, acquiring an information subscription request sent by a first network functional entity;
s420, sending subscription data to the first network function entity in response to the information subscription request;
s430, acquiring wireless configuration information sent by the first network function entity according to the subscription data;
s440, according to the wireless configuration information, service scheduling and/or algorithm optimization are/is carried out.
In this embodiment of the present invention, optionally, the first network function entity may be, but is not limited to, only be a wireless intelligent control platform; the second network functional entity may be, but is not limited to being, only capable of being a base station.
By adopting the method of the embodiment, the base station carries out service scheduling and/or algorithm optimization according to the wireless configuration information sent by the wireless intelligent control platform, and more dynamic and real-time user-level and DRB-level wireless experience guarantee can be realized.
Optionally, the radio service transmission control method, wherein the radio configuration information includes at least one of the following information:
the configuration parameters of the logical channel corresponding to the data bearing DRB mapped by the service flow;
configuring configuration parameter information of authorized Configured Grant resources;
configuration parameter information of semi-persistent scheduling (SPS) resources;
pre-scheduling switch indication and pre-scheduling corresponding cycle parameter configuration;
UE power enhancement configuration;
reducing the indication information of the modulation and coding strategy MCS level;
and improving the indication information of the initial transmission block error rate BLER threshold.
An embodiment of the present invention further provides a network function entity, where the network function entity is a first network function entity, as shown in fig. 5, and includes a transceiver 510 and a processor 520, where:
the transceiver 510 is configured to obtain wireless service information that needs to be provisioned, service flow identification information of a user that needs to be provisioned, and first service feature information of a current service of the user;
the processor 520 is configured to send an information subscription request to a second network function entity according to the service flow identification information;
the transceiver 510 is further configured to receive subscription data sent by the second network function entity according to the information subscription request; wherein the subscription data comprises wireless measurement data and/or wireless status data;
the processor 520 is further configured to generate wireless configuration information according to the first service feature information, the subscription data, and the wireless service information;
the transceiver 510 is further configured to send the radio configuration information to the second network function entity.
Optionally, the wireless intelligent control platform, wherein the transceiver 510 acquires wireless service information that needs to be guaranteed, including:
acquiring an identifier of a user service which needs to be ensured and is sent by a third network functional entity;
determining wireless service information needing to be guaranteed according to the identification of the user service and service template information sent by a fourth network functional entity in advance;
the service template information includes an identifier corresponding to the wireless service information of the user service, which is pre-configured by the fourth network function entity.
Optionally, the wireless intelligent control platform, wherein the wireless service information includes service requirement information and/or second service characteristic information of a required service.
Optionally, the wireless intelligent control platform, wherein the service requirement information includes at least one of guaranteed bandwidth, bandwidth jitter, packet delay jitter, video stuck time, stuck proportion, and black edge rate of the extended reality XR service.
Optionally, the wireless intelligent control platform, wherein the second service characteristic information includes at least one of a video encoding mode, a resolution, a frame rate, an average bit rate, an average factory angle, a buffered state, a non-buffered state, a redundant field angle FOV, a video block-based adaptive transmission redundant field angle TWS FOV, a packet interval, a packet size, a packet average arrival time, an uplink/downlink data packet ratio, a group of pictures GOP length, an I frame interval, an I frame size, an I frame arrival time, and a mobility state of a terminal initiating a corresponding service.
Optionally, the wireless intelligent control platform, wherein the transceiver 510 acquires service flow identification information of a radio access network RAN side of a user that needs to be ensured, and the service flow identification information includes:
and acquiring the service flow identification information of the user needing to be ensured, which is sent by the third network functional entity.
Optionally, the wireless intelligent control platform, wherein the first service characteristic information includes at least one of a fragmentation code rate, a view angle, an I-frame size, an I-frame interval, a GOP structure, a dynamic position of the terminal, a moving speed of the terminal, a moving direction of the terminal, a dynamic trajectory of the terminal, a corresponding service, and user identification information.
Optionally, the wireless intelligent control platform, wherein the wireless configuration information includes at least one of the following information:
the configuration parameters of the logic channel corresponding to the data bearing DRB mapped by the service flow;
configuring configuration parameter information of authorized Configured Grant resources;
configuration parameter information of semi-persistent scheduling (SPS) resources;
pre-scheduling switch indication and pre-scheduling corresponding cycle parameter configuration;
UE power enhancement configuration;
reducing the indication information of the modulation and coding strategy MCS level;
and improving the indication information of the initial block error rate (BLER) threshold.
Optionally, the wireless intelligent control platform, wherein the processor 520 generates wireless configuration information according to the first service feature information, the subscription data, and the wireless service information, and includes:
predicting service quality and/or a meeting condition of the service quality according to the first service characteristic information, the subscription data and the wireless service information;
and generating wireless configuration information according to the service quality and/or the satisfaction condition of the service quality.
Optionally, the wireless intelligent control platform, wherein the processor 520 is further configured to: according to the service quality and/or the satisfaction condition of the service quality, the following strategies are met when the wireless configuration information is generated:
and when the preset time t can not meet the service quality requirement, at least one of the optimization of data bearing DRB parameters, the adjustment of scheduling priority, the starting of a pre-scheduling mechanism and the adjustment of additionally allocated wireless resources is carried out aiming at the preset time t.
Optionally, the wireless intelligent control platform, wherein the transceiver 510 is further configured to:
and acquiring early warning information of dynamic service layer blockage and/or service burst sent by a third network functional entity.
Optionally, the wireless intelligent control platform, wherein the processor 520 is further configured to:
determining a forwarding strategy of a wireless local shunting function unit according to the wireless service information;
and sending the forwarding strategy to a wireless local shunting function unit.
An embodiment of the present invention further provides a network function entity, where the network function entity is a second network function entity, as shown in fig. 6, and includes a transceiver 610 and a processor 620, where:
the transceiver 610 is configured to obtain an information subscription request sent by a first network function entity;
responding to the information subscription request, and sending subscription data to the first network functional entity; wherein the subscription data comprises wireless measurement data and/or wireless status data;
acquiring wireless configuration information sent by the first network functional entity;
the processor 620 is configured to perform service scheduling and/or algorithm optimization according to the radio configuration information.
Optionally, the base station, wherein the radio configuration information includes at least one of the following information:
the configuration parameters of the logical channel corresponding to the data bearing DRB mapped by the service flow;
configuring configuration parameter information of authorized Configured Grant resources;
configuration parameter information of semi-persistent scheduling (SPS) resources;
pre-scheduling switch indication and pre-scheduling corresponding cycle parameter configuration;
UE power enhancement configuration;
reducing the indication information of the modulation and coding strategy MCS level;
and improving the indication information of the initial transmission block error rate BLER threshold.
An embodiment of the present invention further provides a wireless service transmission control apparatus, which is applied to a first network function entity, and as shown in fig. 7, the apparatus includes:
a first obtaining module 710, configured to obtain wireless service information that needs to be guaranteed, service flow identification information of a radio access network RAN side of a user that needs to be guaranteed, and first service feature information of a current service of the user;
a first sending module 720, configured to send an information subscription request to the second network function entity according to the service flow identification information;
a second obtaining module 730, configured to receive subscription data sent by the second network function entity according to the information subscription request;
a first processing module 740, configured to generate wireless configuration information according to the first service feature information, the subscription data, and the wireless service information;
a second sending module 750, configured to send the radio configuration information to the second network function entity.
Optionally, the apparatus for controlling wireless service transmission, wherein the acquiring module 710 acquires the wireless service information that needs to be guaranteed, includes:
acquiring an identifier of a user service which needs to be ensured and is sent by a third network functional entity;
determining wireless service information needing to be guaranteed according to the identification of the user service and service template information sent by a fourth network functional entity in advance;
the service template information includes an identifier, which is configured in advance by the fourth network function entity and corresponds to the wireless service information of the user service.
Optionally, the wireless service transmission control apparatus, wherein the wireless service information includes a service requirement and/or second service characteristic information of a required service.
Optionally, the wireless service transmission control apparatus, wherein the service requirement includes at least one of a guaranteed bandwidth, a bandwidth jitter, a packet delay jitter, a stuck time, a stuck proportion, and a black edge rate of an extended reality XR service.
Optionally, the wireless service transmission control apparatus, wherein the second service characteristic information includes at least one of a video encoding method, a resolution, a frame rate, an average bit rate, an average view angle, a buffered state, a non-buffered state, a redundant view angle FOV, a video block-based adaptive transmission redundant view angle TWS FOV, a packet interval, a packet size, a packet average arrival time, an uplink/downlink data packet ratio, a group of pictures GOP length, an I frame size, an I frame interval, an I frame arrival time, and a mobility state of a terminal that initiates a corresponding service.
Optionally, the apparatus for controlling wireless service transmission, wherein the obtaining, by the first obtaining module 710, service flow identification information of a radio access network RAN side of a user that needs to be provisioned includes:
and acquiring the service flow identification information of the user needing to be ensured, which is sent by the third network functional entity.
Optionally, the wireless service transmission control apparatus, wherein the first service characteristic information includes at least one of a slicing code rate, a view angle, an I-frame size, an I-frame interval, a GOP structure, a dynamic position of the terminal, a moving speed of the terminal, a moving direction of the terminal, a dynamic trajectory of the terminal, a corresponding service, and user identification information.
Optionally, the radio service transmission control apparatus, wherein the radio configuration information includes at least one of the following information:
the configuration parameters of the logical channel corresponding to the data bearing DRB mapped by the service flow;
configuring configuration parameter information of authorized Configured Grant resources;
configuration parameter information of semi-persistent scheduling (SPS) resources;
pre-scheduling switch indication and pre-scheduling corresponding cycle parameter configuration;
UE power enhancement configuration;
reducing the indication information of the modulation and coding strategy MCS level;
and improving the indication information of the initial transmission block error rate BLER threshold.
Optionally, in the apparatus for controlling wireless service transmission, the generating, by the first processing module 740, the wireless configuration information according to the first service feature information, the subscription data, and the wireless service information includes:
predicting service quality and/or a meeting condition of the service quality according to the first service characteristic information, the subscription data and the wireless service information;
and generating wireless configuration information according to the service quality and/or the service quality satisfying condition.
Optionally, in the wireless service transmission control apparatus, when the first processing module 740 generates the wireless configuration information according to the service quality and/or the satisfaction condition of the service quality, the following policy is satisfied:
and when the preset time t can not meet the service quality requirement, at least one of the parameters of the data bearing DRB, the scheduling priority adjustment, the starting of the pre-scheduling mechanism and the additional allocation of the wireless resources is adjusted aiming at the preset time t.
Optionally, in the wireless service transmission control apparatus, the first obtaining module 710 is further configured to:
and acquiring early warning information of dynamic service layer blockage and/or service burst sent by a third network functional entity.
Optionally, the wireless service transmission control apparatus, wherein the first processing module 740 is further configured to:
determining a forwarding strategy of a wireless local shunting function unit according to the wireless service information;
and sending the forwarding strategy to a wireless local shunting function unit.
An embodiment of the present invention further provides a wireless service transmission control apparatus, which is applied to a second network function entity, and as shown in fig. 8, the apparatus includes:
a third obtaining module 810, configured to obtain an information subscription request sent by a first network function entity;
a third sending module 820, configured to send subscription data to the first network function entity in response to the information subscription request; wherein the subscription data comprises wireless measurement data and/or wireless status data;
a fourth obtaining module 830, configured to obtain the radio configuration information sent by the first network function entity;
a second processing module 840, configured to perform service scheduling and/or algorithm optimization according to the wireless configuration information.
Optionally, the radio service transmission control apparatus, wherein the radio configuration information includes at least one of the following information:
the configuration parameters of the logic channel corresponding to the data bearing DRB mapped by the service flow;
configuring configuration parameter information of authorized Configured Grant resources;
configuration parameter information of semi-persistent scheduling (SPS) resources;
pre-scheduling switch indication and pre-scheduling corresponding cycle parameter configuration;
UE power enhancement configuration;
reducing the indication information of the modulation and coding strategy MCS level;
and improving the indication information of the initial transmission block error rate BLER threshold.
An embodiment of the present invention further provides a network device, including: a processor, a memory and a program stored on the memory and executable on the processor, the program, when executed by the processor, implementing a wireless traffic transmission control method as claimed in any one of the above.
Specifically, the network is configured as a wireless intelligent control platform or a base station for executing the wireless service transmission control method, and the wireless service transmission control method implemented when the specific program is executed by the processor is as described above and will not be described in detail herein.
In addition, the present invention also provides a computer-readable storage medium, on which a computer program is stored, where the program is executed by a processor to implement the steps in the wireless service transmission control method as described in any one of the above.
Specifically, the computer readable storage medium is applied to the wireless intelligent control platform or the base station, and when the computer readable storage medium is applied to the wireless intelligent control platform or the base station, the execution steps in the corresponding wireless service transmission control method are described in detail above, and are not described herein again.
In the several embodiments provided in the present application, it should be understood that the disclosed method and apparatus may be implemented in other manners. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the units is only one logical division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.
In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may be physically included alone, or two or more units may be integrated into one unit. The integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.
The integrated unit implemented in the form of a software functional unit may be stored in a computer readable storage medium. The software functional unit is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute some steps of the transceiving method according to various embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a portable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other media capable of storing program codes.
While the preferred embodiments of the present invention have been described, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.
Claims (20)
1. A wireless service transmission control method is applied to a first network function entity, and is characterized in that the method comprises the following steps:
acquiring wireless service information needing to be guaranteed, service flow identification information of a user needing to be guaranteed and first service characteristic information of the current service of the user;
sending an information subscription request to a second network function entity according to the service flow identification information;
receiving subscription data sent by the second network functional entity according to the information subscription request; wherein the subscription data comprises wireless measurement data and/or wireless status data;
generating wireless configuration information according to the first service characteristic information, the subscription data and the wireless service information;
sending the radio configuration information to the second network function entity.
2. The method of claim 1, wherein obtaining information of the wireless service to be provisioned comprises:
acquiring an identifier of a user service which needs to be ensured and is sent by a third network functional entity;
determining wireless service information needing to be guaranteed according to the user service identification and service template information sent by a fourth network functional entity in advance;
the service template information includes an identifier, which is configured in advance by the fourth network function entity and corresponds to the wireless service information of the user service.
3. The method according to claim 1 or 2, wherein the wireless service information comprises service requirement information and/or second service characteristic information of the required service.
4. The method according to claim 3, wherein the service requirement information includes at least one of guaranteed bandwidth, bandwidth jitter, packet delay jitter, stuck times, stuck duration, stuck proportion, and black edge rate of the extended reality XR service.
5. The wireless service transmission control method according to claim 3, wherein the second service characteristic information includes at least one of a video encoding scheme, a resolution, a frame rate, an average code rate, an average view angle, a buffered state, a non-buffered state, a redundant view angle FOV, an adaptive transmission redundant view angle TWS FOV based on video blocking, a packet interval, a packet size, a packet average arrival time, an uplink/downlink data packet ratio, a group of pictures GOP length, an I frame interval, an I frame size, an I frame arrival time, and a mobility state of a terminal that originates a corresponding service.
6. The method of claim 1, wherein obtaining the service flow identification information of the user needing provisioning comprises:
and acquiring the service flow identification information of the user needing to be ensured, which is sent by the third network functional entity.
7. The method according to claim 1, wherein the first service characteristic information includes at least one of a slicing code rate, a view angle, an I-frame size, an I-frame interval, a GOP structure, a dynamic position of the terminal, a moving speed of the terminal, a moving direction of the terminal, a dynamic trajectory of the terminal, a corresponding service, and user identification information.
8. The wireless service transmission control method according to claim 1, wherein the wireless configuration information includes at least one of the following information:
the configuration parameters of the logic channel corresponding to the data bearing DRB mapped by the service flow;
configuring configuration parameter information of authorized Configured Grant resources;
configuration parameter information of semi-persistent scheduling (SPS) resources;
pre-scheduling switch indication and pre-scheduling corresponding cycle parameter configuration;
UE power enhancement configuration;
reducing the indication information of the modulation and coding strategy MCS level;
and improving the indication information of the initial block error rate (BLER) threshold.
9. The method of claim 1, wherein generating radio configuration information according to the first service feature information, the subscription data, and the radio service information comprises:
predicting service quality and/or a satisfying condition of the service quality according to the first service characteristic information, the subscription data and the wireless service information;
and generating wireless configuration information according to the service quality and/or the satisfaction condition of the service quality.
10. The method of claim 9, wherein the method further comprises:
when the wireless configuration information is generated according to the service quality and/or the satisfaction condition of the service quality, the following strategies are satisfied:
and when the preset time t can not meet the service quality requirement, at least one of the optimization of data bearing DRB parameters, the adjustment of scheduling priority, the starting of a pre-scheduling mechanism and the adjustment of additionally allocated wireless resources is carried out aiming at the preset time t.
11. The method of claim 1, wherein the method further comprises:
and acquiring early warning information of dynamic service layer blockage and/or service burst sent by a third network functional entity.
12. The method of claim 1, wherein the method further comprises:
determining a forwarding strategy of a wireless local shunting function unit according to the wireless service information;
and sending the forwarding strategy to a wireless local shunting function unit.
13. A wireless service transmission control method applied to a second network function entity is characterized in that the method comprises the following steps:
acquiring an information subscription request sent by a first network functional entity;
responding to the information subscription request, and sending subscription data to the first network functional entity; wherein the subscription data comprises wireless measurement data and/or wireless status data;
acquiring wireless configuration information sent by the first network functional entity according to the subscription data;
and performing service scheduling and/or algorithm optimization according to the wireless configuration information.
14. The wireless service transmission control method according to claim 13, wherein the wireless configuration information includes at least one of the following information:
the configuration parameters of the logic channel corresponding to the data bearing DRB mapped by the service flow;
configuring configuration parameter information of authorized Configured Grant resources;
configuration parameter information of semi-persistent scheduling (SPS) resources;
pre-scheduling switch indication and pre-scheduling corresponding cycle parameter configuration;
UE power enhancement configuration;
reducing the indication information of the modulation and coding strategy MCS level;
and improving the indication information of the initial transmission block error rate BLER threshold.
15. A network function entity, the network function entity being a first network function entity, comprising a transceiver and a processor, wherein:
the transceiver is used for acquiring wireless service information needing to be guaranteed, service flow identification information of a user needing to be guaranteed and first service characteristic information of the current service of the user;
the processor is used for sending an information subscription request to a second network function entity according to the service flow identification information;
the transceiver is further configured to receive subscription data sent by the second network function entity according to the information subscription request; wherein the subscription data comprises wireless measurement data and/or wireless status data;
the processor is further configured to generate wireless configuration information according to the first service feature information, the subscription data, and the wireless service information;
the transceiver is further configured to send the radio configuration information to the second network function entity.
16. A network function entity, the network function entity being a second network function entity comprising a transceiver and a processor, characterized in that:
the transceiver is used for acquiring an information subscription request sent by a first network function entity;
responding to the information subscription request, and sending subscription data to the first network functional entity; wherein the subscription data comprises wireless measurement data and/or wireless status data;
acquiring wireless configuration information sent by the first network functional entity according to the subscription data;
the processor is used for carrying out service scheduling and/or algorithm optimization according to the wireless configuration information.
17. A wireless service transmission control apparatus applied to a first network function entity, the apparatus comprising:
the system comprises a first acquisition module, a second acquisition module and a first service processing module, wherein the first acquisition module is used for acquiring wireless service information needing to be guaranteed, service flow identification information of a user needing to be guaranteed and first service characteristic information of the current service of the user;
the first sending module is used for sending an information subscription request to a second network function entity according to the service flow identification information;
a second obtaining module, configured to receive subscription data sent by the second network function entity according to the information subscription request; wherein the subscription data comprises wireless measurement data and/or wireless status data;
the first processing module is used for generating wireless configuration information according to the first service characteristic information, the subscription data and the wireless service information;
a second sending module, configured to send the radio configuration information to the second network function entity.
18. A wireless service transmission control apparatus applied to a second network function entity, the apparatus comprising:
a third obtaining module, configured to obtain an information subscription request sent by the first network function entity;
a third sending module, configured to send subscription data to the first network function entity in response to the information subscription request; wherein the subscription data comprises wireless measurement data and/or wireless status data;
a fourth obtaining module, configured to obtain the wireless configuration information sent by the first network function entity according to the subscription data;
and the second processing module is used for carrying out service scheduling and/or algorithm optimization according to the wireless configuration information.
19. A network device, comprising: a processor, a memory and a program stored on the memory and executable on the processor, the program, when executed by the processor, implementing the wireless traffic transmission control method according to any one of claims 1 to 12 or implementing the wireless traffic transmission control method according to any one of claims 13 to 14.
20. A readable storage medium, characterized in that the readable storage medium has stored thereon a program which, when executed by a processor, implements the steps in the wireless traffic transmission control method according to any one of claims 1 to 12, or implements the steps in the wireless traffic transmission control method according to any one of claims 13 to 14.
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