KR20210026177A - Management device for signal pattern and control method thereof - Google Patents

Abstract

The present invention realizes a signal pattern management technique of a new method which can manage a WCDMA/LTE signal pattern DB by early modernization/update in a wireless environment in which the mixed mode RRU is installed/operated. Provided is the technique, in which the time required to update/build all WCDMA/LTE signal pattern DBs is dramatically reduced compared to the conventional time, so as to early update the DB.

Description

Signal pattern management device and signal pattern management method performed by the device {MANAGEMENT DEVICE FOR SIGNAL PATTERN AND CONTROL METHOD THEREOF}

The present invention relates to a positioning technology that measures the location of a terminal, and more particularly, provides a new method of signal pattern management that can accurately manage a signal pattern (signal pattern DB) used at the time of positioning. It is to do.

Among the positioning techniques for measuring (estimating) the location of the terminal, a technique for estimating the location using the (propagation) signal measured by the terminal is a typical pattern matching technique.

In the case of the pattern matching technique, a signal pattern (signal pattern DB) is generated by synthesizing a plurality of signal data for each grid cell (point), and the reception strength of the radio signal measured at the terminal by the pattern matching algorithm (the pattern of the received signal) It is a technology that calculates the position by comparing the similarity between the signal patterns in the and signal pattern DB.

In such a pattern matching-based positioning technique, in order to provide a positioning result of the terminal, a process of generating a signal pattern in units of grid cells (points) into a DB, and the reception strength of the radio signal measured by the terminal (the pattern of the received signal) ), and a process of comparing the similarity between signal patterns for each grid cell in the signal pattern DB, and a process of generating a positioning result based on the comparison result.

After all, in the pattern matching-based positioning technique, since the positioning result is generated depending on the signal pattern DB, the accuracy of the positioning result can be improved as the latest accurate signal pattern DB is constructed/managed.

On the other hand, recently, in order to accommodate both customers (terminals) using the existing WCDMA service and customers (terminals) using the LTE service, it has evolved from the existing environment where the RF equipment of WCDMA and the RF equipment of LTE are independently operated, and is newly established/ As an RF device to be relocated, a wireless module (eg, Mixed Mode RRU) that supports both WCDMA/LTE is installed.

Such a mixed mode RRU operates the same cell identifier (e.g., WCDMA PSC) used when transmitting WCDMA radio signals and the cell identifier (e.g. LTE PCI) used when transmitting LTE radio signals, based on the basic design. Since the WCDMA radio signal and the LTE radio signal are transmitted through the equipment and the antenna, the measurement signal patterns at the terminal according to the distance from the antenna have similar characteristics.

Accordingly, in the present invention, in a wireless environment in which the mixed mode RRU is installed/operated, only one of the WCDMA signal pattern DB and the LTE signal pattern DB (e.g., LTE) is constructed or updated to the latest, the corresponding LTE signal pattern. Using the DB, we intend to realize a new technique that can build or update the signal pattern DB of the other (eg, WCDMA) early.

The present invention was created in view of the above circumstances, and an object to be reached in the present invention is to accurately manage WCDMA/LTE signal patterns (signal pattern DB) up to date in a wireless environment in which a mixed mode RRU is installed/operated. It is to provide a method (technology) to realize a new method of signal pattern management technique that can be used.

The signal pattern management apparatus according to the first aspect of the present invention to achieve the above object, in connection with the installation of a specific radio module supporting radio signals of different communication standards, the communication standard for the area in which the specific radio module is installed An update check unit for checking whether there is a signal pattern of an updated communication standard among the signal patterns of each star; And an update control unit for updating a signal pattern of the remaining communication standards among the signal patterns for each communication standard by using the signal pattern of the specific communication standard for which the update has been confirmed.

Specifically, the update control unit, in a plurality of grid cells in the signal pattern of the specific communication standard, check the grid cell in which the measured reception strength of the radio signal of the specific communication standard transmitted from the specific wireless module is updated, It is possible to update by adding an estimated reception strength of the radio signal of the remaining communication standard to be transmitted from the specific radio module to the lattice cell in the signal pattern of the remaining communication standard mapped with the checked grid cell.

Specifically, the estimated reception strength of the radio signal of the remaining communication standards is calculated by using the measured reception strength of the radio signal of the specific communication standard and a predefined conversion value reflected in a grid cell to which the estimated reception strength is to be added. Can be estimated.

Specifically, the converted value is a specific grid for each specific grid cell in which the measured and received strength of each of the wireless signals of different communication standards transmitted from the same wireless module among a plurality of grid cells in the signal pattern for each communication standard is confirmed. It may be defined by calculating a difference value between measured and received strengths for each wireless signal of the different communication standards identified in the cell.

Specifically, the converted value is determined in each specific grid cell in which the measured and received strength of each of the wireless signals of different communication standards transmitted from the same wireless module among a plurality of grid cells in the signal pattern for each communication standard is confirmed. It may be defined as an average value of difference values between measured and received strengths for each wireless signal of different communication standards.

Specifically, the estimated reception strength of the radio signal of the remaining communication standards is the measured reception strength of the radio signal of the specific communication standard reflected in the grid cell to which the estimated reception strength is to be added, and the radio signal attenuation of the specific communication standard. It can be estimated based on the characteristics and the radio signal attenuation characteristics of the remaining communication standards.

Specifically, the signal pattern for each communication standard may be used in a positioning technique for calculating the location of the terminal by comparing the reception strength of the radio signal measured by the terminal and the similarity between the signal patterns for each grid cell in the signal pattern.

Specifically, the specific radio module is a signal pattern management apparatus, characterized in that the RRU (Remote Radio Unit) for transmitting and receiving a radio signal of the LTE communication standard and a wireless signal of the WCDMA communication standard.

The signal pattern management method performed in the apparatus according to the second aspect of the present invention for achieving the above object, in connection with the installation of a specific radio module supporting radio signals of different communication standards, the area in which the specific radio module is installed An update checking step of checking whether there is a signal pattern of an updated communication standard among signal patterns for each communication standard for; And an update control step of updating a signal pattern of an unupdated communication standard among the signal patterns for each communication standard by using the signal pattern of the specific communication standard for which the update has been confirmed.

Specifically, the update control step, in a plurality of grid cells in the signal pattern of the specific communication standard, check the grid cells in which the measured reception strength of the radio signal of the specific communication standard transmitted from the specific wireless module is updated, and , To the grid cells in the signal pattern of the remaining communication standards mapped with the checked grid cells, the estimated reception strength of the radio signals of the remaining communication standards to be transmitted from the specific radio module may be added and updated.

Specifically, the estimated reception strength of the radio signal of the remaining communication standards is calculated by using the measured reception strength of the radio signal of the specific communication standard and a predefined conversion value reflected in a grid cell to which the estimated reception strength is to be added. Can be estimated.

Specifically, the converted value is a specific grid for each specific grid cell in which the measured and received strength of each of the wireless signals of different communication standards transmitted from the same wireless module among a plurality of grid cells in the signal pattern for each communication standard is confirmed. The average value of the difference between the measured and received strengths for each wireless signal of the different communication standard, which is defined by calculating a difference value between the measured and received strengths for each wireless signal of the different communication standards identified in the cell, or identified in each of the specific grid cells. Can be defined as

Accordingly, according to the signal pattern management apparatus and the signal pattern management method performed in the apparatus according to the present invention, in a wireless environment in which a mixed mode RRU is installed/operated, any one of the WCDMA signal pattern DB and the LTE signal pattern DB (e.g.: If only LTE) is built or updated to the latest, the signal pattern DB of the other (for example, WCDMA) can be built or updated early using the corresponding LTE signal pattern DB.

Accordingly, according to the present invention, in a wireless environment in which a mixed mode RRU is installed/operated, a new method of managing a WCDMA/LTE signal pattern (signal pattern DB) accurately and up-to-date is realized. It derives the effect of obtaining more accurate and reliable positioning results.

1 is an exemplary diagram showing a general pattern matching-based positioning technique.
2 is an exemplary diagram showing an environment in which a signal pattern management technique according to an embodiment of the present invention is implemented.
3 is an exemplary view showing the configuration of a signal pattern management apparatus according to an embodiment of the present invention.
4 and 5 are flowcharts illustrating an operation flow of a signal pattern management technique (method) according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

First, FIG. 1 shows a positioning technique based on pattern matching.

Among the positioning techniques for measuring (estimating) the location of the terminal, a technique for estimating the location using the (propagation) signal measured by the terminal is a typical pattern matching technique.

In the case of such a pattern matching-based positioning technique, a signal pattern (signal pattern DB) that aggregates a plurality of signal data for each grid cell (point) is generated, When positioning is requested, the best grid cell is selected according to the pattern matching algorithm by comparing the similarity between the received signal pattern (measured and received strength of each base station radio signal) of the surrounding wireless environment measured by the terminal and the signal pattern in the signal pattern DB. It is a technology that calculates the location of a terminal based on a grid cell.

Accordingly, in a GPS shaded area such as an in-building, a positioning technique based on pattern matching is used for more precise terminal positioning.

In such a pattern matching-based positioning technique, in order to provide a positioning result of the terminal, a process of generating a signal pattern in units of grid cells (points) into a DB, and the reception strength of the radio signal measured by the terminal (the pattern of the received signal) ), and the process of comparing the similarity between the signal patterns for each grid cell in the signal pattern DB, and the process of generating a positioning result based on the comparison result.

After all, in the pattern matching-based positioning technique, since the positioning result is generated depending on the signal pattern DB, the accuracy of the positioning result can be improved as the latest accurate signal pattern DB is constructed/managed.

On the other hand, recently, in order to accommodate both customers (terminals) using the existing WCDMA service and customers (terminals) using the LTE service, it has evolved from the existing environment where the RF equipment of WCDMA and the RF equipment of LTE are independently operated, and is newly established/ As an RF device to be relocated, a wireless module (eg, Mixed Mode RRU) that supports both WCDMA/LTE is installed.

Such a mixed mode RRU operates the same cell identifier (e.g., WCDMA PSC) used when transmitting WCDMA radio signals and the cell identifier (e.g. LTE PCI) used when transmitting LTE radio signals, based on the basic design. Since the WCDMA radio signal and the LTE radio signal are transmitted through the equipment and the antenna, the measurement signal patterns at the terminal according to the distance from the antenna have similar characteristics.

In a wireless environment where such a mixed mode RRU is installed/operated, when a mixed mode RRU is newly installed (newly installed) or an existing mixed mode RRU is moved and installed (relocated), a signal pattern created/built for positioning of a WCDMA terminal The DB (hereinafter, WCDMA signal pattern DB) and the signal pattern DB (hereinafter, LTE signal pattern DB) generated/built for LTE terminal positioning are updated respectively, and need to be constructed/managed up-to-date.

Construction of a general signal pattern DB is a signal pattern of the surrounding wireless environment measured by the terminal when the terminal processes LBS (Location Based Service) calls at each point (lattice cell) of the commercial network (received base station radio signals). It is a method of collecting and constructing a DB by collecting the measured reception strength), so when an RF equipment such as a Mixed Mode RRU is newly installed/relocated, it takes a certain amount of time to update/update the signal pattern DB as a whole.

Therefore, when a mixed mode RRU is newly established/relocated, it takes a considerable amount of time to independently update/update both the WCDMA signal pattern DB and the LTE signal pattern DB.

Accordingly, in the present invention, in a wireless environment in which the mixed mode RRU is installed/operated, the WCDMA radio signal transmitted by the mixed mode RRU and the measurement signal pattern at the terminal for the LTE radio signal are similar to each other. /LTE signal pattern (signal pattern DB) is trying to realize a new technique that can manage the latest/accurately early.

More specifically, in the present invention, when only one of the WCDMA signal pattern DB and the LTE signal pattern DB (e.g., LTE) is constructed or updated first, the other one (e.g., WCDMA) using the corresponding LTE signal pattern DB ), we want to realize a new signal pattern management technique that can build or update the signal pattern DB of) at an early stage.

2 shows an environment (hereinafter, referred to as a management system) in which a signal pattern management technique according to an embodiment of the present invention is realized.

As shown in Figure 2, in the management system of the present invention, a number of providing a signal pattern (measured and received strength of each received base station radio signal) of the surrounding wireless environment measured during LBS (Location Based Service) call processing. Establish a signal pattern DB directly or build a signal pattern DB (e.g., WCDMA/LTE signal pattern DB) based on the signal pattern (measured and received strength of each received base station radio signal) of the surrounding wireless environment collected from the terminal and multiple terminals. It may include a signal pattern management apparatus 100 for realizing the signal pattern management technique of the present invention in conjunction with a server (not shown) to be built.

Further, in the management system of the present invention, a positioning device for performing pattern matching-based terminal positioning using a signal pattern DB (eg, WCDMA/LTE signal pattern DB) managed by the signal pattern management device 100 ( 200) may be further included.

Hereinafter, a signal pattern management apparatus 100 for realizing a new signal pattern management technique of the present invention will be described in detail with reference to FIG. 3.

First, referring to FIG. 3, the signal pattern management apparatus 100 according to an embodiment of the present invention includes an update check unit 110 and an update control unit 120, and further includes a DB check unit 130. Can include.

And, the signal pattern management apparatus 100 according to an embodiment of the present invention, in addition to the above-described configuration, a terminal that provides a signal pattern of the surrounding wireless environment (measured and received strength of each received base station radio signal), and a pattern matching base It may further include a configuration of the communication unit 140 in charge of a practical communication function with the positioning device 200 performing the terminal positioning of the.

Here, the communication unit 140 includes, for example, an antenna system, an RF transceiver, one or more amplifiers, a tuner, one or more oscillators, a digital signal processor, a codec chipset, and a memory, but is not limited thereto. Any known circuit to perform may be included.

All or at least a part of the configuration of the signal pattern management apparatus 100 may be implemented in the form of a hardware module or a software module, or may be implemented in a form in which a hardware module and a software module are combined.

Here, the software module may be understood as, for example, a command executed by a processor that controls an operation in the signal pattern management device 100, and such a command is a form mounted in a memory in the signal pattern management device 100. You will be able to have it.

As a result, the signal pattern management apparatus 100 according to an embodiment of the present invention realizes the new signal pattern management technique proposed in the present invention through the above-described configuration, and hereinafter, the signal pattern management apparatus 100 for realizing this Each of my components will be described in more detail.

The update check unit 110 is a communication standard that is updated among signal patterns (signal pattern DB) for each communication standard for an area in which a specific wireless module is installed in connection with the installation of a specific wireless module supporting wireless signals of different communication standards. Responsible for checking whether there is a signal pattern DB of.

Here, the radio signals of different communication standards refer to radio signals supported by networks of different mobile communication standards, and for example, radio signals of the LTE communication standard and wireless signals of the WCDMA communication standard may be referred to.

Hereinafter, for convenience of explanation, as radio signals of different communication standards, a radio signal of an LTE communication standard (hereinafter, an LTE radio signal) and a radio signal of a WCDMA communication standard (hereinafter, a WCDMA radio signal) will be described.

Assuming this, a specific radio module that supports radio signals of different communication standards refers to RF equipment capable of simultaneously transmitting and receiving LTE and WCDMA radio signals, and for example, an RRU supporting both WCDMA/LTE (hereinafter , Mixed Mode RRU).

That is, the update check unit 110, in relation to the installation of a mixed mode RRU supporting both LTE and WCDMA radio signals (eg, new installation or relocation, etc.), signals for each WCDMA/LTE for the area where the mixed mode RRU is installed. Among the pattern DBs, it is possible to check whether there is a signal pattern DB of the updated communication standard.

Specifically, for example, it may be described on the assumption that a new mixed mode RRU is newly installed.

In this case, after the newly installed Mixed Mode RRU, due to LBS call processing in a specific or unspecified LTE terminal within the coverage of the newly installed Mixed Mode RRU, the signal pattern of the surrounding radio environment measured by the LTE terminal (received LTE radio As the measurement and reception strength of the signal) is collected, it may be assumed that the LTE signal pattern DB for the area in which the mixed mode RRU is installed is updated.

That is, it can be assumed that the LTE signal pattern DB is updated before the WCDMA signal pattern DB for the newly installed mixed mode RRU, and the latest LTE signal pattern DB is generated/built.

The DB verification unit 130 can check the signal pattern DB for each WCDMA/LTE for each area, and thus, can check the signal pattern DB for each WCDMA/LTE even for the area in which the mixed mode RRU is newly installed.

For example, the DB check unit 130 may check the signal pattern DB for each WCDMA/LTE completed until the signal pattern DB update by the update control unit 120 to be described later as a signal pattern DB for each WCDMA/LTE. The signal pattern DB for each WCDMA/LTE may be acquired/confirmed from an equipment (not shown) in a commercial network that separately manages the signal pattern DB for each WCDMA/LTE that has been completed until the signal pattern DB update by the update control unit 120 is completed.

The update check unit 110 sets the signal pattern DB for each WCDMA/LTE checked by the DB check unit 130 as a reference, and the signal pattern for each WCDMA/LTE checked later by the DB check unit 130 based on this reference. When an update is confirmed in any one of the DBs, the signal pattern DB (e.g., LTE signal pattern DB) that has been updated is updated in relation to the mixed mode RRU installation (e.g., new installation) in the area. It can be confirmed as a pattern DB.

The update control unit 120 is responsible for a function of updating a signal pattern of the remaining communication standards, which has not been updated, among signal patterns for each communication standard, using a signal pattern of a specific communication standard for which the update has been confirmed.

That is, according to the above assumption, the update control unit 120 may update the remaining unupdated WCDMA signal pattern DB by using the LTE signal pattern DB for which the update has been confirmed.

Of course, if the updated signal pattern DB is a WCDMA signal pattern DB, the update control unit 120 may update the remaining LTE signal pattern DB that has not been updated using the WCDMA signal pattern DB.

Hereinafter, it will be described in detail on the assumption that the WCDMA signal pattern DB is updated using the updated LTE signal pattern DB.

Specifically, the update control unit 120, in a plurality of grid cells in the LTE signal pattern DB for which the update has been confirmed, the grid cells in which the measured reception strength of the LTE radio signal transmitted from the newly installed Mixed Mode RRU is updated. Confirm.

In addition, the update control unit 120 checks the lattice cells in the WCDMA signal pattern DB to which the measured reception strength in the LTE signal pattern DB is mapped to the updated lattice cell.

The information constituting the grid cell in the signal pattern DB is a cell identifier (PSC in case of WCDMA, PCI in case of LTE) and measurement signal strength of the radio signal measured by the terminal (RSCP in case of WCDMA, RSRP in case of LTE).

RSCP (Received Signal Code Power) is a value that the terminal measures the code power of the primary CPICH channel of the WCDMA base station, and RSRP (Received Signal Received Power) is the average of the power distribution of the resource element including the Cell Specific Reference Signal within the measurement bandwidth. It's one value.

Since the PSC of WCDMA and the RSRP of LTE are linearly reduced by the distance from the base station (RF equipment), the WCDMA radio signal and LTE radio transmitted from one Mixed Mode RRU (same RF equipment and antenna) For signals, measurement signal patterns to be measured by the terminal at the same point (lattice cell) have similar characteristics.

Due to this characteristic, the update control unit 120, the newly installed mixed mode RRU in the LTE signal pattern DB, the measured reception strength (measurement RSRP) of the grid cell in the WCDMA signal pattern DB is mapped to the updated grid cell, this time. It is to find the received strength (RSCP) for the WCDMA radio signal to be transmitted from the newly installed Mixed Mode RRU as a grid cell to be updated.

And, the update control unit 120, the grid cell in the WCDMA signal pattern DB identified as described above, that is, the grid cell found to update the reception strength (RSCP) for the WCDMA radio signal to be transmitted from the newly installed Mixed Mode RRU, It can be updated by adding the estimated reception strength (estimated RSCP) for the WCDMA radio signal to be transmitted from the newly installed Mixed Mode RRU.

At this time, the update control unit 120, when updating by adding the estimated RSCP to the lattice cells in the WCDMA signal pattern DB, the cell identifier of the WCDMA identical to the cell identifier (PCI) of the LTE mapped to the measured RSRP in the LTE signal pattern DB ( PSC) will be added together and updated.

According to an embodiment, the estimated reception strength (eg, estimated RSCP) for a radio signal of the remaining communication standards (eg, WCDMA) is a specific communication standard reflected in a grid cell to which the estimated reception strength (eg, estimated RSCP) is added. It can be estimated using the measured reception strength (measured RSRP) and a predefined conversion value (Delta) for a radio signal of (eg, LTE).

That is, the update control unit 120, for each lattice cell in the WCDMA signal pattern DB checked as described above, the estimated RSCP estimated using the measurement RSRP of the LTE radio signal reflected in the corresponding lattice cell and a predefined conversion value (Delta). By adding and updating the WCDMA signal pattern DB, it is possible to update/update the WCDMA signal pattern DB.

According to a specific first embodiment, the converted value (Delta) is a specific grid in which the measured and received strength of each of the wireless signals of different communication standards transmitted from the same wireless module among a plurality of grid cells in the signal pattern for each communication standard is confirmed. For each cell, it may be a value defined by calculating a difference value between measured reception strengths for each radio signal of different communication standards identified in a specific grid cell.

That is, according to the above assumption, the update control unit 120 sets the signal pattern DB for each WCDMA/LTE checked by the DB check unit 130 as a reference, and among a plurality of grid cells in the reference WCDMA/LTE signal pattern DB A specific grid cell in which the measurement RSCP/RSRP for each of the WCDMA/LTE radio signals transmitted from the same mixed mode RRU is confirmed can be identified.

And, the update control unit 120, as described above, for each specific lattice cell identified among a plurality of lattice cells in the Reference WCDMA/LTE signal pattern DB, the difference between the measured RSCP and the measured RSRP for the same mixed mode RRU identified in the specific lattice cell. By calculating, it is possible to define a conversion value (Delta) for each specific grid cell.

In this case, when updating the WCDMA signal pattern DB using the LTE signal pattern DB, the update control unit 120 corresponds to the grid cell in the WCDMA signal pattern DB found to update the RSCP for the WCDMA radio signal as described above. The measured RSRP of the LTE radio signal reflected in the lattice cell and the estimated RSCP for the WCDMA radio signal using the transform value (Delta) defined in the corresponding lattice cell may be estimated according to Equation 1 below, and then added and updated.

If there is no pre-calculated and defined conversion value (Delta) for the grid cell in the WCDMA signal pattern DB found to update the RSCP for the WCDMA radio signal, the update control unit 120 Use the estimated transform value (Delta) calculated based on the defined transform value (Delta), or convert the average value of the transform value (Delta) defined for each specific grid cell for the signal pattern DB of the area into the transform value (Delta) It is also possible to estimate and add the estimated RSCP for the WCDMA radio signal by using as.

According to another second implementation, the converted value (Delta) is a specific measurement and reception strength for each of the wireless signals of different communication standards transmitted from the same wireless module among a plurality of grid cells in the signal pattern for each communication standard. It can be defined as an average value of the difference between measured and received strengths for each wireless signal of different communication standards identified in each of the grid cells.

That is, according to the above assumption, the update control unit 120 sets a signal pattern DB for each WCDMA/LTE identified by the DB verification unit 130 as a reference, as in the first embodiment, and such a reference WCDMA/LTE signal A specific grid cell in which the measured RSCP/RSRP for each WCDMA/LTE radio signal transmitted from the same mixed mode RRU among a plurality of grid cells in the pattern DB is confirmed can be identified.

And, the update control unit 120, as described above, for each specific lattice cell identified among a plurality of lattice cells in the Reference WCDMA/LTE signal pattern DB, the difference between the measured RSCP and the measured RSRP for the same mixed mode RRU identified in the specific lattice cell. After calculating, the average value of the difference value calculated for each specific grid cell can be defined as the transformed value (Delta) of the corresponding area.

In this case, when updating the WCDMA signal pattern DB using the LTE signal pattern DB, the update control unit 120 corresponds to the grid cell in the WCDMA signal pattern DB found to update the RSCP for the WCDMA radio signal as described above. The measured RSRP of the LTE radio signal reflected in the lattice cell and the estimated RSCP for the WCDMA radio signal using the same defined conversion value (Delta) for the entire area are estimated according to Equation 1 above, and then added and updated. .

On the other hand, according to another embodiment, the estimated reception strength (eg, estimated RSCP) for the radio signal of the remaining communication standards (eg, WCDMA) is reflected in a grid cell to which the estimated reception strength (eg, estimated RSCP) is added. Based on the measurement and reception strength (measured RSRP) of radio signals of communication standards (e.g. LTE), radio signal attenuation characteristics of specific communication standards (e.g. LTE), and radio signal attenuation characteristics of other communication standards (e.g., WCDMA) Can be estimated.

In this embodiment, in the signal pattern management apparatus 100 (update control unit 120), in relation to the installation (new installation, relocation, etc.) of this mixed mode RRU, the transmission strength of the mixed mode RRU radio signal (the same as WCDMA/LTE) It is assumed that it is possible to grasp.

Accordingly, according to the above assumption, when updating the WCDMA signal pattern DB using the LTE signal pattern DB, the WCDMA signal pattern DB found to update the RSCP for the WCDMA radio signal as described above. For each of my grid cells, the measurement of the LTE radio signal reflected in the corresponding grid cell is calculated by calculating the location of the mixed mode RRU and the distance between the corresponding grid cells using the attenuation characteristics of the RSRP and the LTE radio signal, and the LTE radio signal transmission strength previously identified. I can do it.

Thereafter, the update control unit 120, for each grid cell in the WCDMA signal pattern DB found to update the RSCP for the WCDMA radio signal as described above, the location of the mixed mode RRU calculated as described above and the distance between the corresponding grid cells, WCDMA After estimating the estimated RSCP for the WCDMA radio signal using the radio signal attenuation characteristic and the WCDMA radio signal transmission strength, it can be updated by adding.

The signal pattern DB for each WCDMA/LTE completed until the signal pattern DB update by the update control unit 120 is completed is an indirect method or directly transmitted through an equipment (not shown) in a commercial network that separately manages the signal pattern DB for each WCDMA/LTE. It can be transferred and utilized to the positioning device 200 in a direct manner.

As described above, according to the signal pattern management apparatus of the present invention, in a wireless environment in which a mixed mode RRU is installed/operated, only one of the WCDMA signal pattern DB and the LTE signal pattern DB (e.g., LTE) is built or updated. If updated first, it is possible to build or update the signal pattern DB of the other (eg, WCDMA) early using the corresponding LTE signal pattern DB.

Accordingly, according to the present invention, in a wireless environment in which a mixed mode RRU is installed/operated, both WCDMA/LTE signal pattern DBs are updated to the latest and accurate compared to the existing method of independently updating/building WCDMA/LTE signal pattern DBs. It is possible to realize a new method of signal pattern management technique that can dramatically reduce the time used to construct /, and by this, the effect of obtaining more accurate and reliable positioning results can be derived.

Hereinafter, a signal pattern management technique (method) according to an embodiment of the present invention will be described with reference to FIGS. 4 and 5.

For convenience of explanation, hereinafter, reference numerals of the signal pattern management apparatus 100 will be described.

First, with reference to FIG. 4, an overall operation flow of a signal pattern management technique (method) according to an embodiment of the present invention will be described.

According to the signal pattern management technique (method) of the present invention, the signal pattern management apparatus 100 can check the signal pattern DB for each WCDMA/LTE for each area (S10).

Accordingly, according to the signal pattern management technique (method) of the present invention, the signal pattern management apparatus 100 relates to the installation (eg, new installation or relocation) of a mixed mode RRU supporting both LTE and WCDMA radio signals, It is possible to check whether there is a signal pattern DB of the updated communication standard among the signal pattern DBs for each WCDMA/LTE for the area where the mixed mode RRU is installed (S40).

Specifically, for example, it may be described on the assumption that a new mixed mode RRU is newly installed (S20).

In this case, after the newly installed Mixed Mode RRU, due to LBS call processing in a specific or unspecified LTE terminal within the coverage of the newly installed Mixed Mode RRU, the signal pattern of the surrounding radio environment measured by the LTE terminal (received LTE radio As the measurement and reception strength of the signal) is collected, it may be assumed that the LTE signal pattern DB for the area in which the mixed mode RRU is installed is updated (S30).

That is, it can be assumed that the LTE signal pattern DB is updated before the WCDMA signal pattern DB for the newly installed mixed mode RRU, and the latest LTE signal pattern DB is generated/built.

According to the signal pattern management technique (method) of the present invention, the signal pattern management apparatus 100 sets the signal pattern DB for each WCDMA/LTE checked in step S10 as a reference, and based on this reference, When an update is confirmed in any one of the signal pattern DBs (S40 Yes), install the corresponding signal pattern DB (e.g., LTE signal pattern DB) confirmed to be updated in a mixed mode RRU in the relevant area (e.g., new installation) It can be confirmed as the updated signal pattern DB in relation to.

Further, according to the signal pattern management technique (method) of the present invention, the signal pattern management apparatus 100 may update the remaining WCDMA signal pattern DB that has not been updated using the LTE signal pattern DB whose update has been confirmed (S50). .

According to the signal pattern management technique (method) of the present invention, the signal pattern management apparatus 100 operates to update the signal pattern DB consisting of steps S10, S40, and S50 described above as long as the signal pattern management function is not terminated (S60 No). Can be performed repeatedly.

Next, referring to FIG. 5, in the signal pattern management technique (method) according to an embodiment of the present invention, the process of updating the remaining unupdated WCDMA signal pattern DB using the LTE signal pattern DB whose update has been confirmed (S50) I will explain in detail.

For convenience of explanation, first, it will be described in detail on the assumption that the WCDMA signal pattern DB is updated using the updated LTE signal pattern DB.

According to the signal pattern management technique (method) of the present invention, the signal pattern management apparatus 100 is used for the LTE radio signal transmitted from the newly installed Mixed Mode RRU in a plurality of grid cells in the LTE signal pattern DB for which the update has been confirmed. Check the grid cell in which the measured reception strength has been updated (S52).

And, according to the signal pattern management technique (method) of the present invention, the signal pattern management apparatus 100 checks the grid cells in the WCDMA signal pattern DB that are mapped to the grid cells in which the measured reception strength in the LTE signal pattern DB is updated ( S54).

That is, in the present invention, the grid cells in the WCDMA signal pattern DB, in which the measured reception strength (measurement RSRP) of the mixed mode RRU newly installed in the LTE signal pattern DB is mapped to the updated grid cells, will be transmitted from the newly installed Mixed Mode RRU. It is to find the reception strength (RSCP) for the WCDMA radio signal as a grid cell to be updated.

In addition, according to the signal pattern management technique (method) of the present invention, the signal pattern management apparatus 100 provides a grid cell in the WCDMA signal pattern DB checked as described above, that is, the WCDMA radio signal to be transmitted from the newly installed Mixed Mode RRU. To the grid cell found to update the reception strength (RSCP), the estimated reception strength (estimated RSCP) for the WCDMA radio signal to be transmitted from the newly installed Mixed Mode RRU may be added and updated (S56, S58).

At this time, according to the signal pattern management technique (method) of the present invention, the signal pattern management apparatus 100 is mapped with the measured RSRP in the LTE signal pattern DB when updating by adding the estimated RSCP to the grid cell in the WCDMA signal pattern DB. It will be updated by adding a cell identifier (PSC) of WCDMA that is the same as the cell identifier (PCI) of LTE together.

According to an embodiment, the signal pattern management apparatus 100 uses a measurement RSRP of the LTE radio signal reflected in the corresponding grid cell and a predefined conversion value (Delta) for each grid cell in the WCDMA signal pattern DB checked in step S54. Thus, by estimating the estimated RSCP according to Equation 1 (S56) and adding the estimated RSCP to the corresponding lattice cell, the WCDMA signal pattern DB can be updated/updated (S58).

According to another embodiment, the signal pattern management apparatus 100 uses the measurement RSRP of the LTE radio signal reflected in the corresponding grid cell and the attenuation characteristic of the WCDMA/LTE repair signal in each of the grid cells in the WCDMA signal pattern DB identified in step S54. Thus, by estimating the estimated RSCP (S56) and adding the estimated RSCP to the corresponding lattice cell, the WCDMA signal pattern DB can be updated/updated (S58).

As described above, according to the present invention, in a wireless environment in which a mixed mode RRU is installed/operated, only one of the WCDMA signal pattern DB and the LTE signal pattern DB (e.g., LTE) is constructed or updated to the latest first, Using the LTE signal pattern DB, the other signal pattern DB (eg, WCDMA) can be built or updated early.

Accordingly, according to the present invention, in a wireless environment in which a mixed mode RRU is installed/operated, both WCDMA/LTE signal pattern DBs are updated to the latest and accurate compared to the existing method of independently updating/building WCDMA/LTE signal pattern DBs. It is possible to realize a new method of signal pattern management technique that can dramatically reduce the time used to construct /, and by this, the effect of obtaining more accurate and reliable positioning results can be derived.

The signal pattern management technique (method) according to an embodiment of the present invention described above may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like alone or in combination. The program instructions recorded on the medium may be specially designed and configured for the present invention, or may be known and usable to those skilled in computer software. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic media such as floptical disks. -A hardware device specially configured to store and execute program instructions such as magneto-optical media, and ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine language codes such as those produced by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as one or more software modules to perform the operation of the present invention, and vice versa.

Until now, the present invention has been described in detail with reference to preferred embodiments, but the present invention is not limited to the above-described embodiments, and the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the following claims. Anyone of ordinary skill in the art will say that the technical idea of the present invention extends to the range in which various modifications or modifications are possible.

According to the signal pattern management apparatus of the present invention and the signal pattern management method performed in the apparatus, a new WCDMA/LTE signal pattern DB can be updated/updated early and managed in a wireless environment in which a mixed mode RRU is installed/operated. In terms of realizing the technique of the method, as it exceeds the limitations of the existing technology, the possibility of marketing or sales of the applied device is sufficient, as well as the degree to be practically obvious, so that it is not only the use of the related technology, but also industrially. It is a possible invention.

100: signal pattern management device
110: update check unit 120: update control unit
130: DB verification unit

Claims (12)

In connection with the installation of a specific wireless module supporting wireless signals of different communication standards, an update check unit for checking whether there is a signal pattern of an updated communication standard among signal patterns for each communication standard for an area in which the specific wireless module is installed; And
And an update control unit for updating a signal pattern of the remaining communication standard among the signal patterns for each communication standard by using the signal pattern of the specific communication standard for which the update has been confirmed. The method of claim 1,
The update control unit,
In a plurality of grid cells in the signal pattern of the specific communication standard, check the grid cell in which the measured reception strength of the radio signal of the specific communication standard transmitted from the specific wireless module is updated,
Signal pattern management, characterized in that, to the grid cells in the signal pattern of the remaining communication standards mapped with the checked grid cells, the estimated reception strength of the radio signals of the remaining communication standards to be transmitted from the specific radio module is added and updated. Device. The method of claim 2,
Estimated reception strength for the radio signal of the remaining communication standards,
The signal pattern management apparatus, characterized in that it is estimated by using the measured reception strength and a predefined converted value for the radio signal of the specific communication standard reflected in a grid cell to which the estimated reception strength is to be added. The method of claim 3,
The conversion value is,
For each specific grid cell in which the measured reception strength of each of the wireless signals of different communication standards transmitted from the same wireless module among a plurality of grid cells in the signal pattern for each communication standard is confirmed,
A signal pattern management apparatus, characterized in that it is defined by calculating a difference value between measured and received strengths for each wireless signal of the different communication standards identified in a specific grid cell. The method of claim 3,
The conversion value is,
The radio signals of the different communication standards identified in each of the specific lattice cells in which the measurement and reception strength of each of the radio signals of the different communication standards transmitted from the same radio module among a plurality of grid cells in the signal pattern for each communication standard is confirmed A signal pattern management device, characterized in that it is defined as an average value of difference values between measured and received strengths. The method of claim 2,
Estimated reception strength for the radio signal of the remaining communication standards,
It is estimated based on the measured reception strength of the radio signal of the specific communication standard reflected in the grid cell to which the estimated reception strength is to be added, the radio signal attenuation characteristic of the specific communication standard, and the radio signal attenuation characteristic of the remaining communication standard. Signal pattern management device, characterized in that. The method of claim 1,
The signal patterns for each communication standard,
A signal pattern management apparatus, characterized in that it is used in a positioning technique that calculates the location of the terminal by comparing the reception strength of the radio signal measured by the terminal and the similarity between signal patterns for each grid cell in the signal pattern. The method of claim 1,
The specific wireless module,
A signal pattern management apparatus, characterized in that it is a remote radio unit (RRU) that transmits and receives a wireless signal of an LTE communication standard and a wireless signal of a WCDMA communication standard. In the signal pattern management method performed in the device,
In connection with the installation of a specific wireless module supporting wireless signals of different communication standards, an update checking step of checking whether there is a signal pattern of an updated communication standard among signal patterns for each communication standard for an area in which the specific wireless module is installed; And
And an update control step of updating a signal pattern of the remaining communication standards among the signal patterns for each communication standard by using the signal pattern of the specific communication standard for which the update has been confirmed. The method of claim 9,
The update control step,
In a plurality of grid cells in the signal pattern of the specific communication standard, check the grid cell in which the measured reception strength of the radio signal of the specific communication standard transmitted from the specific wireless module is updated,
Signal pattern management, characterized in that, to the grid cells in the signal pattern of the remaining communication standards mapped with the checked grid cells, the estimated reception strength of the radio signals of the remaining communication standards to be transmitted from the specific radio module is added and updated. Way. The method of claim 10,
Estimated reception strength for the radio signal of the remaining communication standards,
The signal pattern management method, characterized in that it is estimated by using the measured reception strength and a predefined converted value for the radio signal of the specific communication standard reflected in a grid cell to which the estimated reception strength is to be added. The method of claim 11,
The conversion value is,
The different communication identified in a specific grid cell for each specific grid cell in which the measurement and reception strength of each of the wireless signals of different communication standards transmitted from the same wireless module among a plurality of grid cells in the signal pattern for each communication standard is confirmed. It is defined by calculating the difference between the measured and received strength for each wireless signal of the standard, or
The method of managing a signal pattern, characterized in that it is defined as an average value of a difference value between measured and received strengths for each wireless signal of the different communication standards identified in each of the specific grid cells.

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