WO2016165439A1

WO2016165439A1 - Method, device and system for determining uplink scheduling traffic

Info

Publication number: WO2016165439A1
Application number: PCT/CN2016/071622
Authority: WO
Inventors: 王转莉
Original assignee: 中兴通讯股份有限公司
Priority date: 2015-08-10
Filing date: 2016-01-21
Publication date: 2016-10-20
Also published as: CN106455089A

Abstract

Provided are a method, device and system for determining uplink scheduling traffic. The method comprises: a base station receiving a buffer status report (BSR) of a terminal, wherein the BSR is reported according to a logical channel group of the terminal, and the BSR indicates the data amount of the logical channel group; the base station conducting service scheduling according to the BSR, and sending a scheduling result to the terminal; the base station counting data received on a data bearer (DRB) of the terminal and the base station between a starting time and an ending time, wherein the starting time is a time when the base station receives a scheduling starting notification in the case where the data of the logical channel group is not fully scheduled, and the ending time is a time when the base station receives a scheduling ending notification in the case where the data of the logical channel group is fully scheduled; and the base station filtering the data according to a pre-set rule to obtain the counted data amount, thereby solving the problem that the scheduling traffic of uplink differentiated services cannot be accurately counted, and accurately counting uplink scheduling service traffic.

Description

Method, device and system for determining uplink scheduling amount

Technical field

The present invention relates to the field of communications, and in particular, to a method, apparatus, and system for determining an uplink scheduling amount.

Background technique

The 3rd Generation Partnership Project (3GPP) technical specification 36.314 is a long-term evolution (Long-Term Evolution, LTE for short) performance measurement protocol, in which the scheduled downlink IP throughput is defined (Scheduled IP Throughput) In DL), Scheduled IP Throughput in UL indicator. These two indicators require that the air traffic of the service statistics downlink or uplink data transmission be differentiated.

The detailed requirements of the indicator are:

1. The amount of data is the amount of data that is successfully transmitted in the air interface;

2. The time is from the time when the transmission buffer has data to the time when the data transmission is completed;

3. The amount and time of the last fragment in the buffer are not included in the statistics, that is, the tail packets are to be removed;

4. The QoS Class Identifier (QCI) statistics should be distinguished between the uplink and the downlink.

Because this indicator measures the scheduling capability, the general implementation idea is that the scheduler of the base station receives the Buffer Status Report (BSR), and starts counting when scheduling services. If the data of the terminal (User Equipment, UE for short) is not scheduled in a Transmission Time Interval (TTI), the recording start time T1 is recorded; if the BSR data volume of the current terminal can be once After the scheduling is completed, the end time T2 is recorded; the data is the amount of data that is successfully transmitted in the air interface during this time, and the time is T1-T2.

Downlink data transmission and scheduling are all inside the base station. The base station user plane reports the BSR to the downlink scheduler to distinguish between the UE and the QCI. The downlink scheduler scheduling can distinguish the UE and the QCI according to the BSR reported by the user. Therefore, according to the above ideas, the "scheduled downlink IP throughput" indicator can be easily implemented. However, it is more difficult to differentiate the uplink traffic because the uplink data is buffered in the UE and the uplink scheduler is in the base station. The UE reports the BSR to the base station to distinguish the UE from the logical channel group. The scheduling result of the base station uplink scheduler to the UE is given by the UE, and it is difficult to estimate how much traffic is on each QCI.

Because of these technical difficulties, vendors in the same industry provide very little scheduling traffic statistics for uplink differentiated services. The protocol also indicates that the base station can estimate the traffic on each bearer of the UE, because there is no standard to constrain, so the estimation method is also various.

In the related art, there is no effective solution for the problem that the scheduling traffic of the uplink differentiated service cannot be accurately counted.

Summary of the invention

The present invention provides a method, an apparatus, and a system for determining an uplink scheduling amount, so as to at least solve the problem that the scheduling traffic of the uplink differentiated service cannot be accurately counted in the related art.

According to an embodiment of the present invention, a method for determining an uplink scheduling amount is provided, including:

The base station receives the buffer status report BSR of the terminal, where the BSR is reported according to the logical channel group of the terminal, and the BSR indicates the data volume of the logical channel group;

The base station performs service scheduling according to the BSR, and sends a scheduling result to the terminal;

The base station counts data received on the data bearer DRB between the terminal and the base station between the start time and the end time, where the start time is when the data of the logical channel group is not scheduled, the base station receives a timing of scheduling start notification, where the end time is after the data of the logical channel group is scheduled, and the base station receives the scheduling end notification;

The base station filters the data according to a preset rule to obtain a statistical data amount.

In an embodiment of the present invention, after the base station filters the data according to a preset rule to obtain a statistical data amount, the method includes:

The base station reports the statistics data volume and the uplink scheduling time to the network management system through the performance statistics module, where the uplink scheduling time is the difference between the end time and the start time.

In an embodiment of the present invention, the base station filtering the data according to a preset rule to obtain a statistical data amount includes:

When the data received on the DRB is 0 at the start time and the end time, filtering the start time and the end time;

In the case that the uplink scheduling rate of the time period between the start time and the end time is less than the configured uplink scheduling tolerance threshold, the statistical data, the start time, and the end time are not counted, where The uplink scheduling rate is a ratio of the data amount to the time period.

According to another embodiment of the present invention, a method for determining an uplink scheduling amount is further provided, including:

The terminal sends a buffer status report BSR to the base station, where the BSR is reported according to the logical channel group of the terminal, and the BSR indicates the data volume of the logical channel group, where the BSR is used for uplink scheduling of the base station. To do business scheduling;

Receiving, by the terminal, a scheduling result sent by the base station;

Transmitting, by the terminal, data received by the terminal and the data bearer DRB of the base station to the base station according to the scheduling result, where the data is data that is measured by the base station between a start time and an end time, where the start time is When the data of the logical channel group is not scheduled, the base station receives a scheduling start notification, and the ending time is a time when the data of the logical channel group is scheduled and the base station receives the scheduling end notification.

According to another embodiment of the present invention, there is also provided a device for determining an uplink scheduling amount, which is located at a base station side, and the device includes:

a first receiving module, configured to receive a buffer status report BSR of the terminal, where the BSR is reported according to a logical channel group of the terminal, where the BSR indicates a data volume of the logical channel group;

a scheduling module, configured to perform service scheduling according to the BSR, and send a scheduling result to the terminal;

a statistics module, configured to collect data received on a data bearer DRB between the terminal and the base station between the start time and the end time, where the start time is when the data of the logical channel group is not scheduled, a time when the base station receives the scheduling start notification, where the end time is after the data of the logical channel group is scheduled, and the base station receives the scheduling end notification;

The filtering module is configured to filter the data according to a preset rule to obtain a statistical data amount.

In an embodiment of the invention, the device further includes:

The reporting module is configured to report the statistics and the uplink scheduling time to the network management system by using the performance statistics module, where the uplink scheduling time is a difference between the ending time and the starting time.

In an embodiment of the invention, the filtering module comprises:

The first filtering unit is configured to filter the start time and the end time when the data received on the DRB is 0 at the start time and the end time;

a second filtering unit, configured to: when the uplink scheduling rate of the time period between the start time and the end time is less than a configured uplink scheduling tolerance threshold, the statistical data, the starting time, and the No statistics are performed at the end time, wherein the uplink scheduling rate is a ratio of the data amount to the time period.

According to another embodiment of the present invention, an apparatus for determining an uplink scheduling amount is further provided, where the apparatus includes:

a first sending module, configured to send a buffer status report BSR to the base station, where the BSR is reported according to a logical channel group of the terminal, where the BSR indicates a data volume of the logical channel group, where the BSR is used by The uplink scheduler of the base station performs service scheduling;

a second receiving module, configured to receive a scheduling result sent by the uplink scheduler;

a second sending module, configured to send data received by the terminal and the data bearer DRB of the base station to the base station according to the scheduling result, where the data is data that is measured by the base station between a start time and an end time, where The start time is a time when the base station receives a scheduling start notification when the data of the logical channel group is not scheduled, the ending time is that the data of the logical channel group is scheduled, and the base station receives the scheduling end. The moment of notification.

According to another embodiment of the present invention, a system for determining an uplink scheduling amount is further provided, including: a base station, a terminal;

The base station is configured to receive a buffer status report BSR of the terminal, where the BSR is reported according to a logical channel group of the terminal, and the BSR indicates a data amount of the logical channel group; and according to the BSR Service scheduling, sending a scheduling result to the terminal;

The terminal is configured to send, according to the scheduling result, data received on the data bearer data DRB of the terminal and the base station to the base station;

The base station is further configured to collect data received on the DRB between a start time and an end time, where the start time is when the data of the logical channel group is not scheduled, the base station receives The timing of the scheduling start notification, which is the time when the data of the logical channel group is scheduled and the base station receives the scheduling end notification.

According to the present invention, the base station receives the buffer status report BSR of the terminal, wherein the BSR is reported according to the logical channel group of the terminal, the BSR indicates the data volume of the logical channel group, and the base station performs service scheduling according to the BSR, and The terminal sends a scheduling result, and the base station counts data received on the data bearer DRB between the terminal and the base station between the start time and the end time, where the start time is when the data of the logical channel group is not scheduled, the base station Receiving a scheduling start notification, where the ending time is when the data of the logical channel group is scheduled, and the base station receives the scheduling end notification; the base station filters the data according to the preset rule to obtain a statistical data amount, and solves the uplink differentiated service. The problem that the scheduled traffic cannot be accurately counted achieves accurate statistics of the uplink scheduled service traffic.

DRAWINGS

The drawings described herein are intended to provide a further understanding of the invention, and are intended to be a part of the invention. In the drawing:

FIG. 1 is a flowchart 1 of a method for determining an uplink scheduling amount according to an embodiment of the present invention;

2 is a second flowchart of a method for determining an uplink scheduling amount according to an embodiment of the present invention;

3 is a structural block diagram 1 of an apparatus for determining an uplink scheduling amount according to an embodiment of the present invention;

4 is a structural block diagram 2 of an apparatus for determining an uplink scheduling amount according to an embodiment of the present invention;

FIG. 5 is a structural block diagram 3 of an apparatus for determining an uplink scheduling amount according to an embodiment of the present invention; FIG.

6 is a schematic diagram of a relationship between a module of a statistical uplink scheduling traffic system according to an embodiment of the present invention;

FIG. 7 is a schematic flow chart of collecting uplink scheduling traffic according to a preferred embodiment of the present invention.

detailed description

The invention will be described in detail below with reference to the drawings in conjunction with the embodiments. It should be noted that the embodiments in the present application and the features in the embodiments may be combined with each other without conflict.

It is to be understood that the terms "first", "second" and the like in the specification and claims of the present invention are used to distinguish similar objects, and are not necessarily used to describe a particular order or order.

In this embodiment, a method for determining an uplink scheduling amount is provided. FIG. 1 is a flowchart 1 of a method for determining an uplink scheduling amount according to an embodiment of the present invention. As shown in FIG. 1 , the process includes the following steps:

In step S102, the base station receives the buffer status report BSR of the terminal, where the BSR is reported according to the logical channel group of the terminal, and the BSR indicates the data volume of the logical channel group;

Step S104: The base station performs service scheduling according to the BSR, and sends a scheduling result to the terminal.

Step S106, the base station counts data received on the data bearer DRB between the terminal and the base station between the start time and the end time, where the start time is that the base station receives the schedule if the data of the logical channel group is not scheduled. a time when the notification is started, the end time is a time when the data of the logical channel group is scheduled, and the base station receives the scheduling end notification;

Step S108: The base station filters the data according to a preset rule to obtain a statistical data amount.

Through the above steps, the base station receives the buffer status report BSR of the terminal, where the BSR is reported according to the logical channel group of the terminal, the BSR indicates the data volume of the logical channel group, and the base station performs service scheduling according to the BSR, and The terminal sends a scheduling result, and the base station counts data received on the data bearer DRB between the terminal and the base station between the start time and the end time, where the start time is when the data of the logical channel group is not scheduled, the base station Receiving a scheduling start notification, where the ending time is when the data of the logical channel group is scheduled, and the base station receives the scheduling end notification; the base station filters the data according to the preset rule to obtain a statistical data amount, and solves the uplink differentiated service. The problem that the scheduled traffic cannot be accurately counted achieves accurate statistics of the uplink scheduled service traffic.

In this embodiment, the uplink scheduler of the base station receives the buffer status report BSR of the terminal, and the uplink scheduler of the base station performs service scheduling according to the BSR, and sends a scheduling result to the terminal.

In this embodiment, after the base station filters the data according to the preset rule to obtain the statistical data volume, the base station reports the statistic data volume and the uplink scheduling time to the network management device through the performance statistics module, where the uplink scheduling time is The difference between the end time and the start time. In the above embodiment, the media access control (MAC) module of the base station counts the data received on the DRB between the terminal and the base station between the start time and the end time. The data, the data volume of the MAC filtering statistics, realizes that the base station distinguishes the data collected by the service and the uplink scheduling time, and reports the statistical data amount to the performance statistics module.

In this embodiment, the base station filtering the data according to the preset rule to obtain the statistical data amount includes: filtering the start time and the end time when the data received on the DRB is 0 at the start time and the end time If the uplink scheduling rate of the time period between the start time and the end time is less than the configured uplink scheduling tolerance threshold, the statistics, the start time, and the end time are not counted, where the uplink scheduling is performed. Rate is the amount of data and The ratio of the time period is because the uplink BSR is based on the logical channel, and the uplink scheduler is according to the terminal, so the data is filtered.

In this embodiment, a method for determining an uplink scheduling amount is provided. FIG. 2 is a second flowchart of a method for determining an uplink scheduling amount according to an embodiment of the present invention. As shown in FIG. 2, the process includes the following steps:

In step S202, the terminal sends a buffer status report BSR to the base station, where the BSR is reported according to the logical channel group of the terminal, and the BSR indicates the data volume of the logical channel group, where the BSR is used by the uplink scheduler of the base station. Business scheduling

Step S204, the terminal receives the scheduling result sent by the base station;

Step S206, the terminal sends data received by the terminal and the data carrier DRB of the base station to the base station according to the scheduling result, where the data is data that is measured between the start time and the end time of the base station, where the start time is on the logical channel. When the data of the group is not scheduled, the base station receives the scheduling start notification, and the ending time is the time when the data of the logical channel group is scheduled and the base station receives the scheduling end notification.

Through the above steps, the terminal sends a buffer status report BSR to the base station, where the BSR is reported according to the logical channel group of the terminal, and the BSR indicates the data volume of the logical channel group, where the BSR is used for the uplink scheduler of the base station. Performing service scheduling; the terminal receives the scheduling result sent by the base station; the terminal sends data received by the terminal and the data carrier DRB of the base station to the base station according to the scheduling result, where the data is statistics between the start time and the end time of the base station. Data, the start time is a time when the base station receives the scheduling start notification when the data of the logical channel group is not scheduled, the end time is that the data of the logical channel group is scheduled, and the base station receives the scheduling end notification. At the moment, the problem that the scheduled traffic of the uplink differentiated service cannot be accurately counted is solved, and accurate statistics of the uplink scheduled service traffic are realized.

The terminal receives the scheduling result sent by the uplink scheduler that can receive the base station.

In this embodiment, a device for determining an uplink scheduling amount is further provided, and the device is used to implement the foregoing embodiments and preferred embodiments, and details are not described herein. As used below, the term "module" may implement a combination of software and/or hardware of a predetermined function. Although the apparatus described in the following embodiments is preferably implemented in software, hardware, or a combination of software and hardware, is also possible and contemplated.

FIG. 3 is a structural block diagram 1 of an apparatus for determining an uplink scheduling amount, which is located at a base station side, as shown in FIG. 3, and includes:

The first receiving module 32 is configured to receive a buffer status report BSR of the terminal, where the BSR is reported according to the logical channel group of the terminal, and the BSR indicates the data volume of the logical channel group;

The scheduling module 34 is connected to the first receiving module 32, configured to perform service scheduling according to the BSR, and send a scheduling result to the terminal.

The statistics module 36 is connected to the scheduling module 34, and is configured to collect data received on the data bearer DRB between the terminal and the base station between the start time and the end time, wherein the start time is that the data in the logical channel group is not scheduled. In the case where the base station receives the scheduling start notification, the end time is that the data of the logical channel group is scheduled, a time when the base station receives the scheduling end notification;

The filtering module 38 is connected to the statistics module 36, and is configured to filter the data according to a preset rule to obtain a statistical data amount.

The base station uplink scheduler receives the buffer status report BSR of the terminal, where the BSR is reported according to the logical channel group of the terminal, the BSR indicates the data volume of the logical channel group, and the uplink scheduler performs the service according to the BSR. Scheduling, the uplink scheduler sends a scheduling result to the terminal, and the base station counts data received on the data bearer data DRB of the terminal and the base station between the start time and the end time, wherein the start time is that the data of the logical channel group is not The time at which the record is scheduled to be recorded is the time when the data of the logical channel group is scheduled to be recorded. The base station filters the data according to the preset rule to obtain the statistical data amount, and solves the problem that the scheduled traffic of the uplink differentiated service cannot be accurately counted. The accurate statistics of the uplink scheduling service traffic are realized.

FIG. 4 is a structural block diagram 2 of an apparatus for determining an uplink scheduling amount according to an embodiment of the present invention, which is located at a base station side, as shown in FIG. 4, except for the module shown in FIG. 3, the apparatus includes:

The reporting module 42 is configured to report the statistic data volume and the uplink scheduling time to the network management system through the performance statistics module, where the uplink scheduling time is the difference between the ending time and the starting time.

In this embodiment, the filtering module 38 includes:

The second filtering unit is configured to: when the uplink scheduling rate of the time period between the start time and the end time is less than the configured uplink scheduling tolerance threshold, the statistics data, the start time, and the end time are not counted. The uplink scheduling rate is a ratio of the data amount to the time period.

FIG. 5 is a structural block diagram 3 of an apparatus for determining an uplink scheduling amount according to an embodiment of the present invention, which is located on a terminal side, as shown in FIG. 5, the apparatus includes:

The first sending module 52 is configured to send a buffer status report BSR to the base station, where the BSR is reported according to the logical channel group of the terminal, where the BSR indicates the data volume of the logical channel group, where the BSR is used by the base station. The uplink scheduler performs service scheduling;

The second receiving module 54 is configured to receive a scheduling result sent by the uplink scheduler.

The second sending module 56 is configured to send, according to the scheduling result, data received on the data bearer DRB of the terminal and the base station to the base station, where the data is data that is measured by the base station between a start time and an end time, where the start time is When the data of the logical channel group is not scheduled, the base station receives the scheduling start notification, and the ending time is the time when the data of the logical channel group is scheduled and the base station receives the scheduling end notification.

The terminal sends a buffer status report BSR to the base station, where the BSR is reported according to the logical channel group of the terminal, and the BSR indicates the data volume of the logical channel group, where the BSR is used for the uplink scheduler of the base station. Performing service scheduling; the terminal receives the scheduling result sent by the base station; the terminal sends the terminal to the base station according to the scheduling result The data of the base station carries data received on the DRB, and the data is data that is measured by the base station between the start time and the end time. The start time is when the data of the logical channel group is not scheduled, the base station receives the scheduling start. The time of the notification is that when the data of the logical channel group is scheduled and the base station receives the scheduling end notification, the problem that the scheduling traffic of the uplink differentiated service cannot be accurately counted is solved, and accurate statistics of the uplink scheduling service traffic are realized. .

In another implementation of the present invention, a system for determining an uplink scheduling amount is further provided, including: a base station, a terminal;

The base station is configured to receive a buffer status report BSR of the terminal, where the BSR is reported according to the logical channel group of the terminal, the BSR indicates the data volume of the logical channel group, and performs service scheduling according to the BSR to the terminal. Send the scheduling result;

The base station is further configured to collect data received on the DRB between the start time and the end time, where the start time is a time when the base station receives the scheduling start notification if the data of the logical channel group is not scheduled. The end time is the time when the data of the logical channel group is scheduled and the base station receives the scheduling end notification.

In this embodiment, the uplink scheduler of the base station receives the buffer status report BSR of the terminal, and the uplink scheduler of the base station performs service scheduling according to the BSR, and sends a scheduling result to the terminal, where the MAC statistics start time and end of the base station The data of the terminal and the base station between the times carries the data received on the DRB, and the data amount of the MAC filtering statistics realizes that the base station distinguishes the data collected by the service and the uplink scheduling time, and reports the statistical data amount to the performance statistics module.

In this embodiment, the base station filtering the data according to the preset rule to obtain the statistical data amount includes: filtering the start time and the end time when the data received on the DRB is 0 at the start time and the end time ;

If the uplink scheduling rate of the time period between the start time and the end time is less than the configured uplink scheduling tolerance threshold, the statistics, the start time, and the end time are not counted, where the uplink scheduling rate is not performed. The ratio of the amount of data to the time period.

The invention will now be described in detail in conjunction with the preferred embodiments and embodiments.

The preferred embodiment first provides a method for estimating the UE buffer to be empty in the uplink scheduler, by which the start and end times of the statistical time can be determined. At the same time, the MAC module provides a method for distinguishing the data collected by the service, and is responsible for reporting the statistical data to the performance module.

FIG. 6 is a schematic diagram of a relationship between a module of a statistical uplink scheduling traffic system according to an embodiment of the present invention. As shown in FIG. 6, the method includes: a base station (eNodeB) 62, a terminal (UE) 64, an uplink scheduler (scheduler) 66 of the base station, and a medium. The access control (Media Access Control, MAC for short) module 68, the relationship between the above modules includes the following contents:

1. The performance module of the base station (eNodeB) 62 (corresponding to the performance statistics module in the above embodiment) defines two types of counters, including: uplink scheduling data amount (QCI) and uplink scheduling time (QCI).

2. Uplink scheduling: When the uplink scheduler 66 of the base station 62 receives the BSR of the UE 64, the BSR is reported according to the logical channel group of the UE 64. How much data amount per logical channel group per UE64 is reflected in the BSR. Upstream The scheduler 66 performs service scheduling according to the BSR of the UE 64, and gives a final scheduling result for each UE 64 (the scheduled result is according to the UE). If the data of all the logical channel groups reported by the UE 64 is not scheduled, the statistical start time is recorded; if it is scheduled, the statistical end time is recorded.

3. Uplink reception: The MAC module 68 collects data received on each DRB between the start and end times of the statistics, and filters the collected data according to the service characteristics. Considering that the uplink BSR is in the logical channel group, the uplink scheduler 66 is scheduled according to the UE 64. Therefore, data filtering is performed to remove the statistics of the DRB without data transmission. The filtering methods include:

a) If the data of the DRB is 0 at the start time and the end time, the time is not included in the statistics;

b), if the rate in this period (the period between the start time and the end time) is less than the uplink scheduling tolerance threshold, the data amount and time are not included in the statistics;

c) The uplink scheduling tolerance threshold is configurable, and the empirical data tested is: 500 kbit/s, wherein each cell has a configuration value.

FIG. 7 is a schematic flowchart of collecting uplink scheduling traffic according to a preferred embodiment of the present invention. As shown in FIG. 7, the implementation process of the preferred embodiment includes the following steps:

Step S702, the terminal receives the service data, and reports the BSR;

In step S704, the uplink scheduler of the eNodeb receives the BSR reported by the UE, and starts to perform the service scheduling to give the final result of each UE, and determines whether the statistics are triggered according to the relationship between the reported BSR and the scheduling result, where the eNodeB is The performance module defines two types of counters, including: uplink scheduling data volume (QCI) and uplink scheduling time (QCI).

Step S706: If all the data of the logical channel group reported by the UE is removed, if the signaling is not scheduled, the statistical time T1 is recorded, and the T1 is notified to the MAC module; if all the data of the logical channel group reported by the UE is removed, the letter is removed. Therefore, when this time is scheduled, the statistical time T2 is recorded, and T2 is notified to the MAC module; if T1 is not recorded on one UE, T2 is not recorded, and T2 is not notified to the MAC module.

Step S708, when the MAC module of the eNodeB receives the T1 notified by the uplink scheduler, the UE is marked to start the statistical time. After the time T1, the MAC module receives the data of each DRB of the UE and collects the received Packet Data Convergence Protocol (PDCP) service data unit (server data unit, SDU for short) on the corresponding entity. The amount of data.

Step S710: When the MAC module of the eNodeB receives the T2 notified by the uplink scheduler, the UE marks the UE to end the statistical time and stops collecting data. The determined statistic is: uplink scheduling data amount (QCI) = collected data amount (QCI); uplink scheduling time (QCI) = (T2-T1) (QCI).

In step S712, the MAC module performs data filtering according to the statistical result. The data filtering includes: if the collected data volume=0, the T2-T1 is not included in the statistics; if the uplink scheduling rate in this period is less than the configured threshold, the data volume and time No statistics are included, where the uplink scheduling rate = the amount of data collected / (T2-T1).

Step S714: The MAC module reports the filtered data to the performance module of the base station.

The preferred embodiment can distinguish the traffic statistics uplink scheduling traffic, and more accurately measure the ability of the base station to schedule different types of uplink services.

The present invention will be described in detail below in conjunction with specific application scenarios.

Scenario 1: The following is a 20M cell accessing a UE, a default bearer on the UE, an uplink scheduling redundancy threshold of 500 kbit/s, and a BSR reporting period of 5 ms. A preferred embodiment of scenario one includes the following steps:

Step S802: On the default bearer of the UE, initiate an uplink irrigation service, and the rate is 30 M/s.

In step S804, the UE reports the BSR to the reporting period of the BSR, and the data volume is 150 kbit.

Step S806, after receiving the BSR of the UE, the uplink scheduler of the eNodeB starts scheduling the service, and the scheduling result is 75 kbit. Since the data is not scheduled, the uplink scheduling module notifies the MAC module T1 to indicate.

Step S808: After receiving the T1 indication, the MAC module of the 5eNodeB starts to collect data on the default bearer of the UE.

Step S810, after receiving the scheduling result of the eNodeB, the UE sends the uplink data 75 kbit.

Step S812, the MAC module receives the data reported by the UE, and the collected data volume is 75 kbit.

In step S814, the uplink scheduler of the eNodeB continues to schedule data in the next transmission time interval (TTI), and the last remaining data is 75 kbit. The scheduling result given this time is 75kbit. Since the data is scheduled, the uplink scheduling module notifies the MAC module of the T2 indication.

Step S816, after receiving the T2 indication, the MAC module of the eNodeB waits for 4 ms and ends collecting data. According to the filtering rule, the data volume is not 0, and the rate is greater than the threshold, then the data volume statistics = 150 Kbit; the time is equal to T2-T1 = 2 ms;

Scenario 2, below, accessing 1 UE with a 20M cell. A QCI7 bearer on the UE, a bearer of QCI2, and an uplink scheduling redundancy threshold of 500 kbit/s, and a reporting period of the BSR is set to 5 ms. A preferred embodiment of scenario 2 includes the following steps:

Step S902: On the QCI7 bearer of the UE, initiate an uplink packet-sending service at a rate of 30 M/s, and initiate a time-time service on the QCI2 bearer of the UE, and the rate is 128 Kbit/s.

Step S904: The UE reports a BSR to the reporting period of the BSR, where the logical channel group 1 data volume is 150 kbits; and the logical channel group 2 data volume is 640 bits.

Step S906, the uplink scheduler of the eNodeB starts to schedule the service after receiving the BSR of the UE, and the scheduling result is that the amount of data that the UE can schedule is 75 kbit. Since the data is not scheduled, the uplink scheduling module notifies the MAC module to start the statistics moment. T1.

Step S908: After receiving the T1 indication, the MAC module of the eNodeB starts to prepare to collect data on the bearer of the UE.

Step S910: After receiving the scheduling result of the eNodeB, the UE sends the uplink data 640bit of QCI2 and 74kbit of QCI7 according to the priority relationship.

Step S912, the MAC module receives the data reported by the UE, and the collected data quantity is QCI2=640bit, and QCI7=75kbit.

In step S914, the uplink scheduler of the eNodeB continues to schedule data in the next TTI, and the last remaining data is 75 kbit, and the scheduling result given this time is 75 kbit. Since the data has not been scheduled, T1 has been notified and is no longer notified.

Step S916, the uplink scheduler of the eNodeB continues to schedule data in the next TTI, schedules the uplink data, and notifies T2.

Step S918, after receiving the T2 indication, the MAC module of the eNodeB waits for 4 ms and ends collecting data. According to the filtering rule, the QCI7 data volume is not 0, the rate is greater than the threshold, then the data volume statistics = 150Kbit; the time is equal to T2-T1 = 2ms; QCI2 is not included in the statistics.

Through the description of the above embodiments, those skilled in the art can clearly understand that the method according to the above embodiment can be implemented by means of software plus a necessary general hardware platform, and of course, by hardware, but in many cases, the former is A better implementation. Based on such understanding, the technical solution of the present invention, which is essential or contributes to the prior art, may be embodied in the form of a software product stored in a storage medium (such as ROM/RAM, disk, The optical disc includes a number of instructions for causing a terminal device (which may be a cell phone, a computer, a server, or a network device, etc.) to perform the methods described in various embodiments of the present invention.

It should be noted that each of the above modules may be implemented by software or hardware. For the latter, the foregoing may be implemented by, but not limited to, the foregoing modules are all located in the same processor; or, the modules are located in multiple In the processor.

Embodiments of the present invention also provide a storage medium. Optionally, in the embodiment, the storage medium may be configured to store program code for performing the method steps of the above embodiment:

Optionally, the storage medium is further arranged to store program code for performing the method steps of the above-described embodiments:

Optionally, in this embodiment, the foregoing storage medium may include, but not limited to, a USB flash drive, a Read-Only Memory (ROM), a Random Access Memory (RAM), a mobile hard disk, and a magnetic memory. A variety of media that can store program code, such as a disc or a disc.

Optionally, in this embodiment, the processor performs the method steps of the foregoing embodiments according to the stored program code in the storage medium.

It will be apparent to those skilled in the art that the various modules or steps of the present invention described above can be implemented by a general-purpose computing device that can be centralized on a single computing device or distributed across a network of multiple computing devices. Alternatively, they may be implemented by program code executable by the computing device such that they may be stored in the storage device by the computing device and, in some cases, may be different from the order herein. The steps shown or described are performed, or they are separately fabricated into individual integrated circuit modules, or a plurality of modules or steps thereof are fabricated as a single integrated circuit module. Thus, the invention is not limited to any specific combination of hardware and software.

The above description is only the preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes can be made to the present invention. Any modifications, etc. made within the spirit and principles of the present invention The same substitutions, improvements, and the like are intended to be included in the scope of the present invention.

Industrial applicability

Based on the foregoing technical solution provided by the embodiment of the present invention, the base station receives the buffer status report BSR of the terminal, where the BSR is reported according to the logical channel group of the terminal, and the BSR indicates the data volume of the logical channel group, and the base station according to the BSR Performing service scheduling, and sending a scheduling result to the terminal, the base station statistics data received on the data bearer DRB between the terminal and the base station between the start time and the end time, wherein the start time is that the data in the logical channel group is not scheduled. If the base station receives the scheduling start notification, the end time is when the data of the logical channel group is scheduled, and the base station receives the scheduling end notification; the base station filters the data according to the preset rule to obtain statistical data. The problem solves the problem that the scheduled traffic of the uplink differentiated service cannot be accurately counted, and the accurate statistics of the uplink scheduled service traffic are realized.

Claims

A method for determining an uplink scheduling amount, comprising:

The base station receives the buffer status report BSR of the terminal, where the BSR is reported according to the logical channel group of the terminal, and the BSR indicates the data volume of the logical channel group;

The base station performs service scheduling according to the BSR, and sends a scheduling result to the terminal;

The base station counts data received on the data bearer DRB between the terminal and the base station between the start time and the end time, where the start time is when the data of the logical channel group is not scheduled, the base station receives a timing of scheduling start notification, where the end time is after the data of the logical channel group is scheduled, and the base station receives the scheduling end notification;

The base station filters the data according to a preset rule to obtain a statistical data amount.
The method according to claim 1, wherein after the base station filters the data according to a preset rule to obtain a statistical data amount, the method includes:

The base station reports the statistics data volume and the uplink scheduling time to the network management system through the performance statistics module, where the uplink scheduling time is the difference between the end time and the start time.
The method according to claim 1, wherein the base station filters the data according to a preset rule to obtain a statistical data amount, including:

When the data received on the DRB is 0 at the start time and the end time, filtering the start time and the end time;

In the case that the uplink scheduling rate of the time period between the start time and the end time is less than the configured uplink scheduling tolerance threshold, the statistical data, the start time, and the end time are not counted, where The uplink scheduling rate is a ratio of the data amount to the time period.
A method for determining an uplink scheduling amount, comprising:

The terminal sends a buffer status report BSR to the base station, where the BSR is reported according to the logical channel group of the terminal, and the BSR indicates the data volume of the logical channel group, where the BSR is used for uplink scheduling of the base station. To do business scheduling;

Receiving, by the terminal, a scheduling result sent by the base station;

Transmitting, by the terminal, data received by the terminal and the data bearer DRB of the base station to the base station according to the scheduling result, where the data is data that is measured by the base station between a start time and an end time, where the start time is When the data of the logical channel group is not scheduled, the base station receives a scheduling start notification, and the ending time is a time when the data of the logical channel group is scheduled and the base station receives the scheduling end notification.
A device for determining an uplink scheduling quantity, located at a base station side, the device includes:

a first receiving module, configured to receive a buffer status report BSR of the terminal, where the BSR is according to the terminal Reported by the logical channel group, the BSR indicates the amount of data of the logical channel group;

a scheduling module, configured to perform service scheduling according to the BSR, and send a scheduling result to the terminal;

a statistics module, configured to collect data received on a data bearer DRB between the terminal and the base station between the start time and the end time, where the start time is when the data of the logical channel group is not scheduled, a time when the base station receives the scheduling start notification, where the end time is after the data of the logical channel group is scheduled, and the base station receives the scheduling end notification;

The filtering module is configured to filter the data according to a preset rule to obtain a statistical data amount.
The device of claim 5, wherein the device further comprises:

The reporting module is configured to report the statistics and the uplink scheduling time to the network management system by using the performance statistics module, where the uplink scheduling time is a difference between the ending time and the starting time.
The apparatus of claim 5 wherein said filtering module comprises:

The first filtering unit is configured to filter the start time and the end time when the data received on the DRB is 0 at the start time and the end time;

a second filtering unit, configured to: when the uplink scheduling rate of the time period between the start time and the end time is less than a configured uplink scheduling tolerance threshold, the statistical data, the starting time, and the No statistics are performed at the end time, wherein the uplink scheduling rate is a ratio of the data amount to the time period.
A device for determining an uplink scheduling quantity is located on a terminal side, and the device includes:

a first sending module, configured to send a buffer status report BSR to the base station, where the BSR is reported according to a logical channel group of the terminal, where the BSR indicates a data volume of the logical channel group, where the BSR is used by The uplink scheduler of the base station performs service scheduling;

a second receiving module, configured to receive a scheduling result sent by the uplink scheduler;

a second sending module, configured to send data received by the terminal and the data bearer DRB of the base station to the base station according to the scheduling result, where the data is data that is measured by the base station between a start time and an end time, where The start time is a time when the base station receives a scheduling start notification when the data of the logical channel group is not scheduled, the ending time is that the data of the logical channel group is scheduled, and the base station receives the scheduling end. The moment of notification.
A system for determining an uplink scheduling amount, comprising: a base station, a terminal;

The base station is configured to receive a buffer status report BSR of the terminal, where the BSR is reported according to a logical channel group of the terminal, and the BSR indicates a data amount of the logical channel group; and according to the BSR Service scheduling, sending a scheduling result to the terminal;

The terminal is configured to send data bearer data of the terminal and the base station to the base station according to the scheduling result. Data received on the DRB;

The base station is further configured to collect data received on the DRB between a start time and an end time, where the start time is when the data of the logical channel group is not scheduled, the base station receives The timing of the scheduling start notification, which is the time when the data of the logical channel group is scheduled and the base station receives the scheduling end notification.
The system according to claim 9, wherein the base station filters the data according to a preset rule to obtain a statistical data amount, including:

When the data received on the DRB is 0 at the start time and the end time, filtering the start time and the end time;

In the case that the uplink scheduling rate of the time period between the start time and the end time is less than the configured uplink scheduling tolerance threshold, the statistical data, the start time, and the end time are not counted, where The uplink scheduling rate is a ratio of the data amount to the time period.