KR102386465B1 - Method of Performing Control for an MDT in a Mobile Communication Network - Google Patents

Abstract

A Minimization of Drive Test (MDT) control method is provided. This MDT control method, the step of selecting at least one measurement target base station in the MDT operation server (MDT Operation & Management: MDT O & M), MDT setting information for the measurement of the at least one measurement target base station in the MDT operation server ( configuration information), and transmitting the MDT configuration information from the MDT operation server to a specific base station - The specific base station is the at least one measurement target base station or a base station adjacent thereto -, the MDT in the specific base station It may include configuring an MDT measurement configuration message based on the configuration information, and transmitting the MDT measurement configuration message from the specific base station to at least one terminal that the specific base station serves. . The MDT configuration information may include information for designating the at least one measurement target base station and reference information for measurement of the at least one measurement target base station.

Description

MDT control method in a mobile communication network {Method of Performing Control for an MDT in a Mobile Communication Network}

The present invention relates to mobile communication technology.

With the gradual development of mobile communication standards, after 4G LTE, a CSON (Centralized SON) structure that determines base station operation parameters in a central SON (Self Organization Network) server based on report information of various base stations was introduced. Under the below, the Minimization of Drive Test (MDT) function is supported in the base station and the terminal. In general, during initial establishment of a wireless network or network optimization, a base station needs to collect wireless environment information on its cell coverage, and a task for this is called a drive test. The drive tester collects wireless environment information about target base stations by loading measurement equipment on the vehicle and performing repetitive measurement tasks. The information collected in this way is used to set system parameters of each base station through an analysis process. Such a drive test increases the cost of optimizing the wireless network and operating cost, and takes a lot of time. Therefore, a technology has been developed that minimizes such a drive test and provides an automation function in the analysis of the wireless environment and operation of the base station, and this technology is called MDT. If the MDT function is supported in the terminal, the terminal is in the call standby state (idle mode) or the call state (connected mode) regardless of whether the GPS (Global Positioning System) location, time and serving base station and surrounding base station of the corresponding terminal RSRP (Reference Signal Received Power), RSRQ (Reference Signal Received Quality), and/or SINR (Signal to Interference plus Noise Ratio) for signals received from them are provided to the MDT server periodically or on a trigger basis. Not only the terminal but also the base station can support the MDT function and the MDT operation server must be able to process it to provide the MDT function as a whole system.

An object of the present invention is to provide an improved MDT control and performance method that enables efficient network quality monitoring.

The problems to be solved by the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

In one aspect, a Minimization of Drive Test (MDT) control method is provided. This MDT control method, the step of selecting at least one measurement target base station in the MDT operation server (MDT Operation & Management: MDT O & M), MDT setting information for the measurement of the at least one measurement target base station in the MDT operation server ( configuration information), transmitting the MDT configuration information from the MDT operation server to a specific base station - The specific base station is the at least one measurement target base station or a base station adjacent thereto -, the MDT setting in the specific base station It may include the step of configuring an MDT measurement configuration message (MDT measurement configuration message) based on the information, and transmitting the MDT measurement configuration message from the specific base station to at least one terminal that the specific base station serves. The MDT configuration information may include information for designating the at least one measurement target base station and reference information for measurement of the at least one measurement target base station.

In an embodiment, the at least one measurement target base station is a base station supporting a beamforming method.

In an embodiment, the reference information for measurement of the at least one measurement target base station includes a beam index list listing indices of the measurement target beams among the beams transmitted from the at least one measurement target base station. do.

In an embodiment, the reference information for measurement of the at least one measurement target base station includes a synchronization signal block (SSB) and a channel state (CSI-RS) included in beams of a measurement target transmitted from the at least one measurement target base station. Information Reference Signal) further includes information indicating which one is to be measured.

In an embodiment, the reference information for the measurement of the at least one measurement target base station includes an SSB or a CSI-RS included in beams of a measurement target transmitted from the at least one measurement target base station, a certain RRM (Radio Resource Management) It further includes information indicating whether to measure according to the measurement method.

In an embodiment, the RRM measurement method includes a Reference Signal Received Power (RSRP) measurement method, a Reference Signal Received Quality (RSRQ) measurement method, and a Signal to Interference plus Noise Ratio (SINR) measurement method.

In an embodiment, the reference information for measurement of the at least one measurement target base station includes information about the maximum number of beams for which a measurement report is to be performed among beams transmitted from the at least one measurement target base station.

In an embodiment, the reference information for measurement of the at least one measurement target base station further includes information indicating which one of SSB and CSI-RS included in beams transmitted from the at least one measurement target base station to measure include

In an embodiment, the reference information for the measurement of the at least one measurement target base station determines which RRM measurement method to measure the SSB or CSI-RS included in beams transmitted from the at least one measurement target base station. It further includes information indicating.

In an embodiment, the RRM measurement method includes an RSRP measurement method, an RSRQ measurement method, and an SINR measurement method.

In an embodiment, the reference information for measurement of the at least one measurement target base station further includes information on a threshold value and information on a criterion for applying the threshold, wherein the criterion for applying the threshold is a large order criterion. and small order criteria.

In one embodiment, the step of selecting at least one measurement target base station in the MDT operation server (MDT Operation & Management: MDT O&M), MDT data received from the MDT operation server trace server (Trace Collection Entity: TCE) and selecting the at least one measurement target base station by analyzing the .

In one embodiment, the step of transmitting the MDT configuration information from the MDT operation server to a specific base station - The specific base station is the at least one measurement target base station or a base station adjacent thereto - is, in the MDT operation server HSS (Home Subscriber) Server) and transmitting the MDT configuration information to the specific base station through a Mobility Management Entity (MME).

In one embodiment, the method further comprises transmitting a setup (set-up) message for performing MDT from the MME to the specific base station.

In one embodiment, the step of transmitting the MDT measurement configuration message from the specific base station to the at least one terminal that the specific base station serves, the MDT measurement configuration from the specific base station to the at least one terminal served by the specific base station and transmitting the message in an RRC reconfiguration (Radio Resource Control Reconfiguration) message.

In one embodiment, the method further comprises the step of receiving an MDT measurement report from the at least one terminal in the specific base station, wherein the MDT measurement report is at the at least one measurement target base station It includes information on measurement result values obtained by measuring beams of a measurement target among the transmitted beams.

In one embodiment, the method further comprises the step of receiving the MDT measurement report from the at least one terminal in the specific base station, the application criterion of the threshold is the large order criterion, the MDT measurement report, Among the measurement result values obtained by measuring the beams transmitted from the at least one measurement target base station, the measurement result values that are larger than the threshold value and are selected to be less than or equal to the maximum number in the order in which they are larger in magnitude and the beam index of the beams corresponding to the selected measurement result values include information about

In one embodiment, the method further comprises the step of receiving the MDT measurement report from the at least one terminal in the specific base station, the application criterion of the threshold is the small order criterion, the MDT measurement report, Among the measurement result values obtained by measuring the beams transmitted from the at least one measurement target base station, the measurement result values that are smaller than the threshold value and are selected to be less than or equal to the maximum number in the order of magnitude smaller than the threshold value and beams of beams corresponding to the selected measurement result values Contains information about indices.

In one embodiment, the method further comprises transmitting the MDT measurement report from the specific base station to a trace server.

In another aspect, an MDT control method performed in a base station is provided. This MDT control method comprises the steps of configuring an MDT measurement configuration message, transmitting the MDT measurement configuration message from the base station to at least one terminal served by the base station, and receiving the MDT measurement report from the at least one terminal may include the step of The MDT measurement configuration message includes a beam index list listing the indices of the beams of the measurement object among the information for designating at least one measurement object base station and the at least one measurement object base station, the MDT measurement report, It may include information on measurement result values obtained by measuring beams of the measurement object among the beams transmitted from the at least one measurement object base station.

In another aspect, an MDT control method performed in a base station is provided. This MDT control method comprises the steps of configuring an MDT measurement configuration message, transmitting the MDT measurement configuration message from the base station to at least one terminal served by the base station, and receiving the MDT measurement report from the at least one terminal may include the step of The MDT measurement configuration message includes information for designating at least one measurement target base station, information about the maximum number of beams for which a measurement report is to be made among beams transmitted from the at least one measurement target base station, information about a threshold, and the Including information indicating that the application criterion of the threshold is a large order criterion, the MDT measurement report is larger than the threshold value among the measurement result values for measuring beams transmitted from the at least one measurement target base station and in the order of the size increase Measurement result values selected to be less than or equal to the maximum number and information about beam indices of beams corresponding to the selected measurement result values may be included.

In another aspect, an MDT control method performed in a base station is provided. This MDT control method comprises the steps of configuring an MDT measurement configuration message, transmitting the MDT measurement configuration message from the base station to at least one terminal served by the base station, and receiving the MDT measurement report from the at least one terminal may include the step of The MDT measurement configuration message includes information for designating at least one measurement target base station, information about the maximum number of beams for which a measurement report is to be made among beams transmitted from the at least one measurement target base station, information about a threshold, and the Including information indicating that the application criterion of the threshold is a small order criterion, the MDT measurement report is smaller than the threshold value among the measurement result values for measuring beams transmitted from the at least one measurement target base station and the order is smaller in size As such, it may include information about measurement result values selected less than or equal to the maximum number and beam indices of beams corresponding to the selected measurement result values.

In another aspect, a method for performing MDT in a terminal is provided. The MDT performing method may include receiving the MDT measurement setup message from the base station, configuring the MDT measurement report, and delivering the MDT measurement report to the base station. The MDT measurement setup message includes a beam index list listing the indices of the beams of the measurement object among the information for designating at least one measurement target base station and the beams transmitted from the at least one measurement target base station, and configures the MDT measurement report The performing may include measuring beams of a measurement target among beams transmitted from the at least one measurement target base station with reference to the beam index list and providing measurement result values.

In another aspect, a method for performing MDT in a terminal is provided. The MDT performing method may include receiving the MDT measurement setup message from the base station, configuring the MDT measurement report, and delivering the MDT measurement report to the base station. The MDT measurement configuration message includes information for designating at least one measurement target base station, information about the maximum number of beams for which a measurement report is to be made among beams transmitted from the at least one measurement target base station, information about a threshold, and the Including information indicating that the application criterion of the threshold is a large order criterion, and configuring the MDT measurement report, providing measurement result values measured by measuring beams transmitted from the at least one measurement target base station, the measurement Selecting, from among the result values, measurement result values that are greater than the threshold value, the number of which is equal to or less than the maximum number, in order of increasing magnitude, and the selected measurement result values and beam indices of beams corresponding to the selected measurement result values It may include providing information.

In another aspect, a method for performing MDT in a terminal is provided. The MDT performing method may include receiving the MDT measurement setup message from the base station, configuring the MDT measurement report, and delivering the MDT measurement report to the base station. The MDT measurement configuration message includes information for designating at least one measurement target base station, information about the maximum number of beams for which a measurement report is to be made among beams transmitted from the at least one measurement target base station, information about a threshold, and the Including information indicating that the threshold application criterion is a small order criterion, and configuring the MDT measurement report, providing measurement result values measured by measuring beams transmitted from the at least one measurement target base station, the measurement Selecting measurement result values smaller than the threshold value, the number of which is equal to or less than the maximum number, from among the result values in order of decreasing size, and the selected measurement result values and beam indices of beams corresponding to the selected measurement result values It may include providing information.

According to embodiments of the present invention, there is a technical effect that can provide an improved MDT control and performing method that enables efficient network quality monitoring.

1 is a diagram illustrating an embodiment of a network configuration diagram including network components that cooperate to control a terminal to perform a Minimization of Drive Test (MDT).
2 is a diagram illustrating an embodiment of a flowchart for explaining a method for performing MDT control on the network side so that the terminal performs MDT.
3A and 3B are diagrams illustrating an embodiment of a flowchart for explaining a method of performing MDT in a terminal.

Advantages and features of the present invention and a method of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in a variety of different forms, and these embodiments merely allow the disclosure of the present invention to be complete and those of ordinary skill in the art to which the present invention pertains. It is provided to fully inform the person of the scope of the invention, and the present invention is only defined by the scope of the claims.

The terms used herein are used only to describe specific embodiments and are not intended to limit the present invention. For example, a component expressed in a singular should be understood as a concept including a plurality of components unless the context clearly means only the singular. In addition, in the specification of the present invention, terms such as 'include' or 'have' are only intended to designate that the features, numbers, steps, operations, components, parts, or combinations thereof described in the specification exist, and such The use of the term does not exclude the possibility of the presence or addition of one or more other features or numbers, steps, operations, components, parts, or combinations thereof. In addition, in the embodiments described in this specification, a 'module' or 'unit' may mean a functional part that performs at least one function or operation.

The term 'unit' or 'module' used in the present invention is software or ASICs (application specific integrated circuits), DSPs (digital signal processors), DSPDs (digital signal processing devices), PLDs (programmable logic devices), FPGAs (field means hardware components such as programmable gate arrays, processors, controllers, micro-controllers and microprocessors, etc. However, 'part' or 'module' refers to hardware and software The term 'unit' or 'module' may be configured to reside in an addressable storage medium, or may be configured to reproduce one or more processors. Thus, as an example, 'unit' or 'module' means components such as software components, object-oriented software components, class components and task components, and processes, functions, properties, procedures, subroutines, segments of program code; includes drivers, firmware, microcode, circuits, data, databases, data structures, tables, arrays and variables, etc. Components and the functionality provided within 'parts' or 'modules' are smaller numbers of components and 'units' ' or 'modules' or may be separated into additional components and 'parts' or 'modules'.

In addition, unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the specification of the present invention, it should be interpreted in an ideal or excessively formal meaning. doesn't happen

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. However, in the following description, if there is a risk of unnecessarily obscuring the gist of the present invention, detailed descriptions of well-known functions or configurations will be omitted.

1 is a diagram illustrating an embodiment of a network configuration diagram including network components that cooperate to control a terminal to perform a Minimization of Drive Test (MDT). The network components shown in FIG. 1 are components shown on the assumption that MDT control is performed in a 5G (5th Generation) NSA (Non-standalone) network, and when MDT control is performed in a 4G or 5G SA (Standalone) network. It should be understood that the configured components may be replaced by corresponding components in the 4G or 5G SA network.

Referring to Figure 1, MDT operation server (MDT Operation & Management: MDT O & M, 122), HSS (Home Subscriber Server, 124), MME (Mobility Management Entity, 126) in the 5G NSA network including the core network (Core Network) ) components are shown. In one embodiment, the MDT operation server 122, HSS 124 and MME 126 are components of a 4G network upgraded to perform a function in a 5G NSA network. The MDT operation server 122 generates MDT configuration information necessary to collect MDT data from the terminal 142, and performs a function of managing and controlling the MDT operation to start or end. The HSS 124 may be a database that stores subscriber profile information such as subscriber authentication information and additional service information, and policy data such as whether incoming and outgoing voice, text, and data are possible. The HSS 124 may also perform functions such as configuration storage, identity management, and user state storage. The MME 126 performs signaling and control functions to support access to the network connection of the terminal 142, allocation of network resources, tracking, paging, roaming, handover, etc. It is a network component that MME 126 controls functions related to subscriber and session management. The MME 124 manages 4G base stations and performs signaling for selection of a conventional gateway for handover to another 2G/3G network.

The base station 132 such as gNodeB in the 5G NSA network may be a base station in which the MDT function standardized in 3GPP Rel-10 is supported after 2010. In order to provide an automation function for base station operation, the MDT function periodically or trigger-based the terminal's GPS location, time and signals of the serving base station and adjacent base stations in the call standby state or the connected mode. This function provides information such as strength (RSRP, RSRQ, SINR). In one embodiment, the base station 132 is a base station that supports a beamforming scheme. The base station 132 may use the same downlink frequency and uplink frequency. The terminal (UE, 142) is a terminal supporting the MDT function, and may transmit an MDT measurement report to a serving base station to which the terminal is connected in a call waiting state or a call state. In one embodiment, the terminal 142 may transmit the MDT measurement report multiple times to the serving base station to which the corresponding terminal is connected. In one embodiment, the MDT measurement report transmitted by the terminal 142 is a PCI (Physical Cell ID) of the measured base station (serving base station and/or adjacent base stations), RS (Reference Signal) from the measuring base station. Information on reception strength (RSRP: Reference Signal Received Power, RSRQ: Reference Signal Received Power, or SINR: Signal to Interference plus Noise Ratio), time information indicating the time at which the measurement report is reported (Time Stamp) and MDT measurement report It may include information about the terminal location of the corresponding terminal sending the . In the case of the embodiment in which the base station measured by the terminal 142 is a base station supporting the beamforming method, the RS signal from the measuring base station is the SSB ( Synchronization Signal Block) or CSI-RS (Channel State Information Reference Signal) signal. As is known, the SSB is also called an SS/PBCH block, and includes a Primary Synchronization Signal (PSS), a Secondary Synchronization Signal (SSS), and a Physical Broadcast Signal (PBCH). In one embodiment, the SSB is transmitted over four orthogonal frequency division multiplexing (OFDM) symbol intervals. In an embodiment, the information about the location of the terminal includes information about the latitude and longitude of the corresponding terminal. In an embodiment, the information about the location of the terminal further includes information about the altitude of the corresponding terminal. The terminal 142 is a 5G NR (New Radio) and/or LTE/LTE-A support for various types of handheld-based wireless communication such as a tablet PC, a notebook computer, a portable terminal such as a note pad, and a smart phone. It may include a device and the like, but the type of the terminal 142 is not limited thereto.

With continued reference to FIG. 1 , a Trace Collection Entity (TCE) 152 and a Network Optimization Platform 162 are illustrated. The trace server 152 may perform a function of collecting MDT data such as an MDT measurement report from the base station 132 . The trace server 152 stores the MDT data, and may transmit data requiring analysis to the network optimization platform 162 . In one embodiment, the MDT data stored in the trace server 152 is RSRP / RSRQ / SINR information for each base station, PHR (Power Head Room) information, throughput information, packet error rate (packet error rate) information, and RACH (Random Access Channel) failure information. The network optimization platform 162 analyzes MDT data through a graphic display, etc., and creates an optimization plan for network operation based on this. The network optimization platform 162 may deliver the MDT data requiring analysis to the MDT operation server 122 .

According to the disclosed technology, the terminal 142 measures beams transmitted from a measurement target base station designated by the network, sorts beams having a measured value greater than or equal to a threshold value designated by the network in order and reports it to the network, as well as the measurement target base station MDT technology for controlling to report beams having a measurement value less than a threshold value by measuring beams transmitted from the network or reporting a measurement value of a beam of a specific index transmitted from a measurement target base station is provided. In addition, according to the disclosed technology, which one of SSB and CSI-RS included in the beam transmitted from the measurement target base station is to be measured and which RRM (Radio Resource Management) measurement method to measure the beam transmitted from the measurement target base station? By designating it in the network, it is possible to increase the degree of freedom in a method for the UE to report measurement values. Therefore, according to the disclosed technology, when equipment in the field operates abnormally, when the characteristic of a specific beam of a specific base station is deteriorated due to a change in the field environment, it is possible to detect early, and effective network quality monitoring is possible. .

2 is a diagram illustrating an embodiment of a flowchart for explaining a method for performing MDT control on the network side so that the terminal performs MDT.

Referring to Figure 2, this MDT control method starts from the step (S205) of selecting at least one measurement target base station in the MDT operation server (122). In this step, it is possible to receive MDT data from the trace server 152 through the network optimization platform 162 and analyze it to detect that the performance of a certain base station suddenly deteriorates or has a problem, and selects such a base station as a measurement target base station. For example, the MDT operation server 122 may detect that the performance of the beam of the beam index 3, which is transmitted from the base station having an ID of xxx, is deteriorated. For another example, the MDT operation server 122 may detect that the performance of the beams of the beam index 2 to the beam index 7, which is transmitted from the base station having an ID of yyy, has deteriorated. In step (S210), the MDT operation server 122 selects a specific base station 132 to perform measurement on the measurement target base station. The specific base station 132 may be set based on the geographic location of the measurement target base station. In an embodiment, a specific base station may be selected as a measurement target base station. In an embodiment, a specific base station may be selected as a base station adjacent to the measurement target base station. In step S215, the MDT operation server 122 transmits the parameters for initial setting to the trace server 152 and the specific base station 132 to perform the initial setting for the MDT. In this step, the MDT operation server 122 may transmit a setup (set-up) message for performing MDT to a specific base station 132 through the HSS 124 and the MME 126 . In step S220, the MDT operation server configures MDT setting information for measurement of the target base station. The MDT configuration information may include information for designating a measurement target base station and reference information for measurement of the measurement target base station. In an embodiment, the reference information for measurement of the measurement target base station includes a beam index list listing indices of the measurement target beams among beams transmitted from the measurement target base station. This is so that beams designated by beam indices included in the beam index list among beams transmitted from the measurement target base station are measured. In this embodiment, the reference information for measurement of the measurement target base station further includes measurement target signal information indicating which of SSB and CSI-RS included in beams of the measurement target transmitted from the measurement target base station to measure. In addition, in this embodiment, the reference information for measurement of the measurement target base station is RRM measurement method information indicating which RRM measurement method the SSB or CSI-RS included in the measurement target beams transmitted from the measurement target base station will be measured. further includes The RRM measurement method information may indicate any one of an RSRP measurement method, an RSRQ measurement method, and an SINR measurement method. In an embodiment, the reference information for measurement of the measurement target base station includes information about the maximum number of beams for which a measurement report is to be performed among beams transmitted from the measurement target base station. This is to ensure that only the maximum number of beams or less among the beams transmitted from the measurement target base station are measured. In this embodiment, the reference information for measurement of the measurement target base station further includes measurement target signal information indicating which of SSB and CSI-RS included in beams of the measurement target transmitted from the measurement target base station to measure. In this embodiment, the reference information for measurement of the measurement target base station includes RRM measurement method information indicating which RRM measurement method to measure the SSB or CSI-RS included in beams of the measurement object transmitted from the measurement target base station. include more In addition, in this embodiment, the reference information for measurement of the measurement target base station further includes information on the threshold value and information on the threshold value application criterion. Here, the threshold value application criterion may be any one of a large order criterion and a small order criterion. In the above, it has been described that the step (S220) of configuring the MDT setting information is performed after the step (S215) of performing the initial setting for MDT is performed, but the step (S215) after performing the step (S220) first It should be recognized that the embodiment to be performed is also possible, and such an embodiment is also included in the scope of the disclosed technology.

In step S225, the MDT setting information is transferred from the MDT operation server 122 to the specific base station 132. In this step, the MDT operation server 122 may deliver the MDT configuration information to the specific base station 132 through the HSS 124 and the MME 126 . In step S230, a specific base station 132 configures an MDT measurement configuration message based on the MDT configuration information. In one embodiment, the MDT measurement configuration message may be configured to include the information included in the MDT configuration information as it is. In step S235, the MDT measurement configuration message configured in step S230 is transferred from the specific base station 132 to the at least one terminal 142 that the specific base station 132 serves. In this step, the specific base station 132 may transmit the MDT measurement configuration message to at least one terminal 142 served by the specific base station 132 in an RRC reconfiguration (Radio Resource Control Reconfiguration) message. In step S240, the specific base station 132 receives an MDT measurement report (MDT measurement report) from at least one terminal 142. In the case of an embodiment in which the reference information for measurement of the measurement target base station includes a beam index list listing the indices of the beams of the measurement target, the MDT measurement report measures beams specified by the beam indexes included in the beam index list. Contains information about the resulting values. In this embodiment, when the measurement target signal information indicates that the SSB is measured, the measured measurement result values are the measurement result values of the SSB included in the designated beams, and the measurement target signal information indicates that the CSI-RS is measured. When indicated, the measured measurement result values are measurement result values obtained by measuring the CSI-RS included in the designated beams. In this embodiment, the measured measurement result values are the SSB or CSI-RS included in the designated beams in any one RRM measurement method specified by the RRM measurement method information among the RSRP measurement method, the RSRQ measurement method, and the SINR measurement method. These are the measurement result values measured accordingly. On the other hand, the reference information for measurement of the measurement target base station includes information about the maximum number of beams for which a measurement report is to be made among the beams transmitted from the measurement target base station, information about the threshold, and information about the application standard of the threshold, , in the case of an embodiment in which the application criterion of the threshold is specified in a large order, the MDT measurement report is larger than the threshold value among the measurement result values measured by the beams transmitted from the measurement target base station, and the maximum number is selected in the order of magnitude. Information on the result values and beam indices of beams corresponding to the selected measurement result values is included. In this embodiment, when the measurement target signal information indicates that the SSB is measured, the selected measurement result values are the measurement result values of the SSB included in the corresponding beams, and when the measurement target signal information indicates that the CSI-RS is measured The selected measurement result values are measurement result values obtained by measuring the CSI-RS included in the corresponding beams. In this embodiment, the selected measurement result values measure the SSB or CSI-RS included in the corresponding beams according to any one RRM measurement method specified by the RRM measurement method information among the RSRP measurement method, the RSRQ measurement method, and the SINR measurement method These are the measurement results. On the other hand, the reference information for measurement of the measurement target base station includes information about the maximum number of beams for which a measurement report is to be made among beams transmitted from the measurement target base station, information about the threshold, and information about the application standard of the threshold. Including, in the case of an embodiment in which the application criteria of the threshold value is specified in a small order standard, the MDT measurement report is smaller than the threshold value among the measurement result values for measuring beams transmitted from the measurement target base station and is less than the maximum number in the order of magnitude smaller It includes information about measurement result values selected as , and beam indices of beams corresponding to the selected measurement result values. In this embodiment, when the measurement target signal information indicates that the SSB is measured, the selected measurement result values are the measurement result values of the SSB included in the corresponding beams, and when the measurement target signal information indicates that the CSI-RS is measured The selected measurement result values are measurement result values obtained by measuring the CSI-RS included in the corresponding beams. In this embodiment, the selected measurement result values measure the SSB or CSI-RS included in the corresponding beams according to any one RRM measurement method specified by the RRM measurement method information among the RSRP measurement method, the RSRQ measurement method, and the SINR measurement method These are the measurement results. In step S245, the specific base station 132 transmits the MDT measurement report to the trace server 152. The trace server 152 receives the MDT measurement report, stores it in the database, and transmits the data requiring analysis to the network optimization platform 162 . The network optimization platform 162 analyzes MDT data through a graphic display, etc., creates an optimization plan for network operation based on this, and can deliver MDT data requiring analysis to the MDT operation server 122 .

3A and 3B are diagrams illustrating an embodiment of a flowchart for explaining a method of performing MDT in a terminal.

This MDT performing method starts from the step (S305) of receiving the MDT measurement configuration message from the base station (132). The MDT measurement configuration message may include a first information group or a second information group. The first information group may include information for designating a measurement target base station, a beam index list, measurement target signal information, and RRM measurement method information. The second information group includes information for designating a measurement target base station, information on the maximum number of beams for which a measurement report is to be made among beams transmitted from the measurement target base station, information on threshold values, information on threshold application standards, and measurement It may include target signal information and RRM measurement method information. In step S310, it is checked whether the MDT measurement configuration message includes the first information group. If the check result MDT measurement setup message in step S310 includes the first information group, refer to information for designating a measurement target base station in step S315, a beam index list, measurement target signal information, and RRM measurement method information To measure the beams designated by the beam indexes included in the beam index list among the beams transmitted from the measurement target base station to provide measurement result values, and use this to configure the MDT measurement report. In this step, when the measurement target signal information indicates that the SSB is measured, measurement result values obtained by measuring the SSB included in the designated beams are provided, and when the measurement target signal information indicates that the CSI-RS is measured, it is applied to the designated beams. It provides measurement result values of the included CSI-RS. In addition, in this step, the SSB or CSI-RS included in the designated beams is measured according to any one RRM measurement method indicated by the RRM measurement method information among the RSRP measurement method, the RSRQ measurement method, and the SINR measurement method. .

On the other hand, if the MDT measurement setting message does not include the first information group as a result of the inspection in step S310, that is, when the MDT measurement setting message includes the second information group, the application criterion of the threshold in step S320 is Checks whether or not it is a large order criterion. If the criterion for applying the threshold value of the inspection result in step S320 is a large order criterion, the measurement target base station transmits information specifying the measurement target base station in step S325, the measurement target signal information, and the RRM measurement method information with reference to the measurement target base station It provides measurement result values of measuring beams. In this step, when the measurement target signal information indicates that SSB is measured, measurement result values obtained by measuring the SSB included in beams transmitted from the measurement target base station are provided, and when the measurement target signal information indicates that the CSI-RS is measured Measurement result values obtained by measuring the CSI-RS included in beams transmitted from the measurement target base station are provided. In addition, in this step, the SSB or CSI-RS included in the beams transmitted from the measurement target base station is measured according to any one RRM measurement method indicated by the RRM measurement method information among the RSRP measurement method, the RSRQ measurement method, and the SINR measurement method. provide values. In step S330, the maximum number of measurement result values obtained by measuring in step S325 with reference to information about the maximum number of beams for which a measurement report is to be made, information about a threshold, and information about a criterion for applying a threshold value is less than or equal to the maximum number in step S330 Measurement result values that are larger than the threshold value of the number of are selected in order of increasing magnitude. In step S335, the MDT measurement report is configured using the selected measurement result values and information about the beam indices of the beams corresponding to the selected measurement result values.

On the other hand, if the criterion for applying the threshold value of the inspection result in step S320 is a small order criterion, in step S340, the measurement target base station refers to information specifying the measurement target base station, the measurement target signal information, and the RRM measurement method information. Measurement result values of the transmitted beams are provided. In this step, when the measurement target signal information indicates that SSB is measured, measurement result values obtained by measuring the SSB included in beams transmitted from the measurement target base station are provided, and when the measurement target signal information indicates that the CSI-RS is measured Measurement result values obtained by measuring the CSI-RS included in beams transmitted from the measurement target base station are provided. In addition, in this step, the SSB or CSI-RS included in the beams transmitted from the measurement target base station is measured according to any one RRM measurement method indicated by the RRM measurement method information among the RSRP measurement method, the RSRQ measurement method, and the SINR measurement method. provide values. In step S345, the maximum number of measurement result values obtained by measuring in step S340 with reference to information about the maximum number of beams for which a measurement report is to be made, information about a threshold, and information about a criterion for applying a threshold is less than or equal to the maximum number of beams in step S345 Measurement result values smaller than the threshold value of the number of are selected in order of decreasing size. In step S350, the MDT measurement report is configured by using the selected measurement result values and information about beam indices of beams corresponding to the selected measurement result values. In step S355, the MDT measurement report is transferred to the base station 132.

In the above description, the meaning of the description that a component is connected to or coupled to another component does not only mean that the component is directly connected or coupled to the other component, but also means that one or more other components are interposed therebetween. It should be understood to include the meaning that may be connected or coupled via an element. In addition, terms for describing the relationship between the elements (eg, 'between', 'between', etc.) should also be interpreted with similar meanings.

In the embodiments disclosed herein, the arrangement of the illustrated components may vary depending on the environment or requirements in which the invention is implemented. For example, some components may be omitted or some components may be integrated and implemented as one. Also, the arrangement order and connection of some components may be changed.

In the above, various embodiments of the present invention have been shown and described, but the present invention is not limited to the specific embodiments described above, and the above-described embodiments depart from the gist of the present invention as claimed in the appended claims. Without this, various modifications may be made by those of ordinary skill in the art to which the present invention pertains, and these modified embodiments should not be understood separately from the technical spirit or scope of the present invention. Accordingly, the technical scope of the present invention should be defined only by the appended claims.

122: MDT operation server
124: HSS
126: MME
132: base station
142: terminal
152: trace server
162: Network Optimization Platform

Claims (25)

A method for controlling a Minimization of Drive Test (MDT), comprising:
Selecting at least one measurement target base station from the MDT operation server (MDT Operation & Management: MDT O&M);
Configuring the MDT setting information (configuration information) for the measurement of the at least one measurement target base station in the MDT operation server,
Transmitting the MDT configuration information from the MDT operation server to a specific base station - The specific base station is the at least one measurement target base station or a base station adjacent thereto -,
Configuring an MDT measurement configuration message (MDT measurement configuration message) based on the MDT configuration information in the specific base station, and
Comprising the step of transmitting the MDT measurement configuration message from the specific base station to at least one terminal served by the specific base station,
The MDT configuration information includes information for designating the at least one measurement target base station and reference information for measurement of the at least one measurement target base station, MDT control method.
According to claim 1,
The at least one measurement target base station is a base station supporting a beamforming (beamforming) method, the MDT control method.
3. The method of claim 2,
The reference information for measurement of the at least one measurement target base station includes a beam index list listing indices of the measurement target beams among the beams transmitted from the at least one measurement target base station, MDT control method .
4. The method of claim 3,
The reference information for measurement of the at least one measurement target base station may include a synchronization signal block (SSB) and a channel state information reference signal (CSI-RS) included in beams of a measurement target transmitted from the at least one measurement target base station. Further comprising information indicating which one is to be measured, MDT control method.
5. The method of claim 4,
The reference information for measurement of the at least one measurement target base station measures the SSB or CSI-RS included in beams of the measurement target transmitted from the at least one measurement target base station according to a certain RRM (Radio Resource Management) measurement method. Further comprising information indicating whether to do, MDT control method.
6. The method of claim 5,
The RRM measurement method includes a Reference Signal Received Power (RSRP) measurement method, a Reference Signal Received Quality (RSRQ) measurement method, and a Signal to Interference plus Noise Ratio (SINR) measurement method, MDT control method.
3. The method of claim 2,
The reference information for measurement of the at least one measurement target base station includes information about the maximum number of beams for which a measurement report is to be made among beams transmitted from the at least one measurement target base station, MDT control method.
8. The method of claim 7,
The reference information for measurement of the at least one measurement target base station further includes information indicating which one of SSB and CSI-RS included in beams transmitted from the at least one measurement target base station is to be measured, MDT control Way.
9. The method of claim 8,
The reference information for measurement of the at least one measurement target base station further includes information indicating which RRM measurement method to measure the SSB or CSI-RS included in beams transmitted from the at least one measurement target base station. which, MDT control method.
10. The method of claim 9,
The RRM measurement method includes an RSRP measurement method, an RSRQ measurement method and an SINR measurement method, MDT control method.
8. The method of claim 7,
The reference information for measurement of the at least one measurement target base station further includes information on a threshold value and information on an application criterion for the threshold value, and the threshold value application criterion is one of a large order criterion and a small order criterion. Any one, MDT control method.
According to claim 1,
The step of selecting at least one measurement target base station from the MDT operation server (MDT Operation & Management: MDT O&M) is to analyze the MDT data received from the trace server (Trace Collection Entity: TCE) in the MDT operation server and the at least Including the step of selecting one measurement target base station, MDT control method.
According to claim 1,
The step of delivering the MDT configuration information from the MDT operation server to a specific base station - the specific base station is the at least one measurement target base station or a base station adjacent thereto - is, in the MDT operation server HSS (Home Subscriber Server) and MME ( Mobility Management Entity) through the step of transmitting the MDT configuration information to the specific base station, MDT control method.
14. The method of claim 13,
Further comprising the step of transmitting a setup (set-up) message for performing MDT from the MME to the specific base station, MDT control method.
According to claim 1,
The step of transmitting the MDT measurement configuration message from the specific base station to at least one terminal served by the specific base station is to reset the MDT measurement configuration message to at least one terminal served by the specific base station from the specific base station ( Radio Resource Control Reconfiguration), including the step of carrying and delivering a message, MDT control method.
4. The method of claim 3,
Further comprising the step of receiving an MDT measurement report (MDT measurement report) from the at least one terminal in the specific base station,
The MDT measurement report, the MDT control method including information about the measurement result values of the measurement target beams among the beams transmitted from the at least one measurement target base station.
12. The method of claim 11,
Further comprising the step of receiving the MDT measurement report from the at least one terminal in the specific base station,
The application criterion of the threshold is the large order criterion,
The MDT measurement report is larger than the threshold value among the measurement result values for measuring the beams transmitted from the at least one measurement target base station, and the selected measurement result values and the selected measurement result values in the order of magnitude larger than the maximum number MDT control method, including information about the beam indices of the corresponding beams.
12. The method of claim 11,
Further comprising the step of receiving the MDT measurement report from the at least one terminal in the specific base station,
The application criterion of the threshold is the small order criterion,
The MDT measurement report is smaller than the threshold value among the measurement result values measured by the beams transmitted from the at least one measurement target base station and the selected measurement result values and the selected measurement result values in the order of decreasing the size to the maximum number Including information about the beam indexes of the beams corresponding to, MDT control method.
19. The method according to any one of claims 16 to 18,
Further comprising the step of transmitting the MDT measurement report from the specific base station to a trace server, MDT control method.
As an MDT control method performed in a base station,
configuring the MDT measurement setup message;
Transmitting the MDT measurement configuration message from the base station to at least one terminal served by the base station, and
Receiving the MDT measurement report from the at least one terminal,
The MDT measurement configuration message includes information for designating at least one measurement target base station and a beam index list listing the indices of the measurement target beams among the beams transmitted from the at least one measurement target base station,
The MDT measurement report, the MDT control method including information about the measurement result values of the measurement target beams among the beams transmitted from the at least one measurement target base station.
As an MDT control method performed in a base station,
configuring the MDT measurement setup message;
Transmitting the MDT measurement configuration message from the base station to at least one terminal served by the base station, and
Receiving the MDT measurement report from the at least one terminal,
The MDT measurement configuration message includes information for designating at least one measurement target base station, information about the maximum number of beams for which a measurement report is to be made among beams transmitted from the at least one measurement target base station, information about a threshold, and the and information indicating that the application criterion of the threshold is a large order criterion;
The MDT measurement report is larger than the threshold value among the measurement result values for measuring the beams transmitted from the at least one measurement target base station, and the selected measurement result values and the selected measurement result values in the order of magnitude larger than the maximum number MDT control method, including information about the beam indices of the corresponding beams.
As an MDT control method performed in a base station,
configuring the MDT measurement setup message;
Transmitting the MDT measurement configuration message from the base station to at least one terminal served by the base station, and
Receiving the MDT measurement report from the at least one terminal,
The MDT measurement configuration message includes information for designating at least one measurement target base station, information about the maximum number of beams for which a measurement report is to be made among beams transmitted from the at least one measurement target base station, information about a threshold, and the It contains information indicating that the application criterion of the threshold is a small order criterion,
The MDT measurement report is smaller than the threshold value among the measurement result values measured by the beams transmitted from the at least one measurement target base station and the selected measurement result values and the selected measurement result values in the order of decreasing the size to the maximum number Including information about the beam indexes of the beams corresponding to, MDT control method.
As a method of performing MDT in the terminal,
Receiving the MDT measurement configuration message from the base station,
constructing an MDT measurement report; and
Comprising the step of transmitting the MDT measurement report to the base station,
The MDT measurement configuration message includes information for designating at least one measurement target base station and a beam index list listing the indices of the measurement target beams among the beams transmitted from the at least one measurement target base station,
The step of configuring the MDT measurement report comprises measuring beams of a measurement object among beams transmitted from the at least one measurement object base station with reference to the beam index list and providing measurement result values, MDT performing method .
As a method of performing MDT in the terminal,
Receiving the MDT measurement configuration message from the base station,
constructing an MDT measurement report; and
Comprising the step of transmitting the MDT measurement report to the base station,
The MDT measurement configuration message includes information for designating at least one measurement target base station, information about the maximum number of beams for which a measurement report is to be made among beams transmitted from the at least one measurement target base station, information about a threshold, and the and information indicating that the application criterion of the threshold is a large order criterion;
The step of configuring the MDT measurement report is,
providing measurement result values obtained by measuring beams transmitted from the at least one measurement target base station;
selecting, from among the measurement result values, the measurement result values greater than the threshold value in the number less than or equal to the maximum number in the order of magnitude, and
Including the step of providing information about the selected measurement result values and beam indices of beams corresponding to the selected measurement result values, MDT performing method.
As a method of performing MDT in the terminal,
Receiving the MDT measurement configuration message from the base station,
constructing an MDT measurement report; and
Comprising the step of transmitting the MDT measurement report to the base station,
The MDT measurement configuration message includes information for designating at least one measurement target base station, information about the maximum number of beams for which a measurement report is to be made among beams transmitted from the at least one measurement target base station, information about a threshold, and the It contains information indicating that the application criterion of the threshold is a small order criterion,
The step of configuring the MDT measurement report is,
providing measurement result values obtained by measuring beams transmitted from the at least one measurement target base station;
selecting measurement result values smaller than the threshold value in the number less than or equal to the maximum number from among the measurement result values in order of decreasing size; and
Including the step of providing information about the selected measurement result values and beam indices of beams corresponding to the selected measurement result values, MDT performing method.

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