JP2021082964A - Information providing device, information providing method, and computer program - Google Patents

Abstract

To appropriately determine a protection margin to avoid radio interference in a shared frequency band.SOLUTION: An information provision device includes a predicted value storage unit that stores the predicted radio wave propagation status that indicates the radio wave propagation status predicted in the past for a shared frequency band, a prediction accuracy determination unit that determines the prediction accuracy of the radio wave propagation status prediction value on the basis of the radio wave propagation status prediction value and the radio wave propagation status measurement value actually measured for a common frequency band, and a protection margin determination unit that determines a protection margin to avoid radio wave interference in the shared frequency band on the basis of the prediction accuracy.SELECTED DRAWING: Figure 1

Description

The present invention relates to an information providing device, an information providing method, and a computer program.

In recent years, it has been studied that a plurality of different wireless communication systems share the same frequency band. For example, it is being studied to enable another wireless communication system (secondary system) to secondarily use the frequency band assigned to the existing wireless communication system (primary system). For example, Patent Document 1 describes an interference avoidance technique for avoiding radio wave interference in a frequency band (shared frequency band) shared by a plurality of wireless communication systems. In the interference avoidance technique described in Patent Document 1, one or more secondary systems that secondarily utilize a frequency channel protected for the primary system should be allocated including a reference transmit power and an interference avoidance margin. The calculation unit that calculates the transmission power is made to adjust the margin for avoiding interference based on the change in the number of secondary systems.

International Publication No. 2015/025605

However, in the interference avoidance technique described in Patent Document 1 described above, there is a possibility that the margin for interference avoidance may be excessive and the utilization efficiency of the shared frequency band may be lowered.

The present invention has been made in consideration of such circumstances, and an object of the present invention is to appropriately determine a protection margin for avoiding radio wave interference in a common frequency band.

(1) One aspect of the present invention relates to a predicted value storage unit that stores a radio wave propagation status predicted value indicating a radio wave propagation status predicted in the past for a shared frequency band, the radio wave propagation status predicted value, and the shared frequency band. A prediction accuracy determination unit that determines the prediction accuracy of the radio wave propagation status prediction value based on the measured radio wave propagation status measurement value, and protection for avoiding radio wave interference in the common frequency band based on the prediction accuracy. It is an information providing device including a protection margin determining unit for determining a margin.
(2) In one aspect of the present invention, the protection margin determining unit reduces the prediction accuracy by a certain amount from the basic protection margin when the prediction accuracy is better than a certain accuracy, and the prediction accuracy is worse than a certain accuracy. The information providing device according to (1) above, which increases the protection margin by a certain amount from the basic protection margin in some cases.
(3) In one aspect of the present invention, the protection margin determination unit is more than the determination time by the time corresponding to the time from the determination time when the protection margin is determined to the scheduled usage time of the common frequency band. The information providing device according to (1) or (2), which determines the protection margin for the scheduled usage time based on the prediction accuracy based on the radio wave propagation situation predicted value predicted in the past.
(4) In one aspect of the present invention, the protection margin determination unit is based on the prediction accuracy based on the radio wave propagation situation prediction value predicted in the past corresponding to the scheduled usage time of the common frequency band. The information providing device according to (1) or (2) above, which determines the protection margin with respect to the scheduled usage time.
(5) In one aspect of the present invention, the presence or absence of free resources in the shared frequency band is determined using the protection margin and the radio wave propagation status predicted value, and the determination result of the presence or absence of free resources in the shared frequency band is performed. The information providing device according to any one of (1) to (4) above, further comprising a free resource information generation unit that generates free resource information indicating.

(6) In one aspect of the present invention, the information providing device includes a predicted value storage step for storing a radio wave propagation situation predicted value indicating a radio wave propagation situation predicted in the past for a shared frequency band, and the information providing device is described above. The prediction accuracy determination step for determining the prediction accuracy of the radio wave propagation status predicted value based on the radio wave propagation status predicted value and the radio wave propagation status measured value actually measured for the shared frequency band, and the information providing device provide the prediction accuracy. This is an information providing method including a protection margin determination step for determining a protection margin for avoiding radio wave interference in the shared frequency band based on the above.

(7) One aspect of the present invention includes a predicted value storage step for storing a radio wave propagation status predicted value indicating a radio wave propagation status predicted in the past for a shared frequency band in a computer, and the radio wave propagation status predicted value and the shared use. A prediction accuracy determination step for determining the prediction accuracy of the radio wave propagation condition predicted value based on the measured radio wave propagation condition measured value for the frequency band, and avoiding radio wave interference in the shared frequency band based on the prediction accuracy. It is a computer program for executing a protection margin determination step for determining a protection margin for.

According to the present invention, it is possible to appropriately determine the protection margin for avoiding radio wave interference in the shared frequency band.

It is a block diagram which shows the structural example of the information providing apparatus which concerns on one Embodiment. It is a figure which shows the structural example of the predicted value storage part which concerns on one Embodiment. It is a graph figure for demonstrating the free resource existence determination method which concerns on one Embodiment. It is a flowchart which shows the example of the procedure of the information provision method which concerns on one Embodiment. It is explanatory drawing for demonstrating the example of the protection margin determination method which concerns on one Embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing a configuration example of an information providing device according to an embodiment. In FIG. 1, the information providing device 1 includes a predicted value storage unit 11, a prediction accuracy determination unit 12, a protection margin determination unit 13, and a free resource information generation unit 14.

Each function of the information providing device 1 is realized by the information providing device 1 having computer hardware such as a CPU (Central Processing Unit) and a memory, and the CPU executing a computer program stored in the memory. Will be done. The information providing device 1 may be configured by using a general-purpose computer device, or may be configured as a dedicated hardware device. For example, the information providing device 1 may be configured by using a server computer connected to a communication network such as the Internet. Further, each function of the information providing device 1 may be realized by cloud computing. Further, the information providing device 1 may be configured to open a website by using, for example, a WWW system or the like.

The information providing device 1 provides information on the shared frequency band used by the wireless communication system to avoid radio wave interference in the shared frequency band when another wireless communication system different from the wireless communication system uses the shared frequency band. I will provide a. As an example of the present embodiment, the information providing device 1 is used when a frequency band assigned to an existing wireless communication system (primary system) is secondarily used by another wireless communication system (secondary system). It provides information for avoiding radio wave interference in a frequency band (shared frequency band).

The predicted value storage unit 11 stores a value (radio wave propagation status predicted value) indicating a radio wave propagation status predicted in the past for the shared frequency band. As an example of this embodiment, the value indicating the radio wave propagation status (radio wave propagation status value) is the received power.

FIG. 2 is a diagram showing a configuration example of a predicted value storage unit according to the present embodiment. The predicted value storage unit 11 stores the radio wave propagation status predicted value information shown in FIG. 2 for each target location (prediction target location) for which the radio wave propagation status is predicted. In FIG. 2, the predicted value storage unit 11 predicts the radio wave propagation status at each time (predicted destination time) at which the radio wave propagation status is predicted at each time (predicted execution time) when the radio wave propagation status is predicted. To store. For example, as the predicted radio wave propagation status values at the predicted execution time “Tn-3”, the radio wave propagation status predicted value a1 at the predicted destination time “Tn-2” and the radio wave propagation status prediction at the predicted destination time “Tn-1”. The value a2, the radio wave propagation status predicted value a3 at the predicted destination time “Tn”, ..., The radio wave propagation status predicted value a7 at the predicted destination time “Tn + 4”, and the like are stored. The time flow is from the time "Tn-3" to "Tn-2", "Tn-1", "Tn", "Tn + 1", ..., "Tn + 4", ... Is. Therefore, at the predicted execution time "Tn-3", the times "Tn-2", "Tn-1", "Tn", "Tn + 1", ... For each of "Tn + 4", ..., The predicted value of the radio wave propagation situation is predicted.

The radio wave propagation situation prediction value is obtained by using, for example, a machine-learned time series propagation estimation model using various time series information at the prediction target location as input values. The time-series information is, for example, time-series information such as weather (rainfall, temperature, atmospheric pressure, etc.), traffic volume, buildings, trees, communication traffic, events, and the like. Event time series information is collected from, for example, SNS (Social Networking Service) and the like. The correct answer value used for machine learning of the time series propagation estimation model is the radio wave propagation situation value actually measured at the prediction target location. The correct answer value may include a radio wave propagation status value interpolated for a place or time that has not been actually measured based on the measured value actually measured at the predicted target location.

The explanation is returned to FIG.
The prediction accuracy determination unit 12 determines the prediction accuracy of the radio wave propagation situation prediction value based on the radio wave propagation situation measurement value A and the radio wave propagation situation prediction value stored in the prediction value storage unit 11. The radio wave propagation status measurement value A is a radio wave propagation status value actually measured for the common frequency band. The radio wave propagation status measurement value A includes the radio wave propagation status value actually measured at each prediction destination time for each prediction target location. The radio wave propagation status measurement value A may include a radio wave propagation status value interpolated for a place and time that have not been actually measured, based on the radio wave propagation status value actually measured for the common frequency band.

The prediction accuracy determination unit 12 determines the prediction accuracy of the radio wave propagation situation prediction value for each prediction target location. The prediction accuracy determination unit 12 compares the radio wave propagation status predicted value at the predicted destination time with the radio wave propagation status measured value A for each predicted destination time, and predicts the radio wave propagation status predicted value at the predicted destination time based on the comparison result. Judge the accuracy. As an example of the present embodiment, the judgment of the prediction accuracy of the radio wave propagation situation prediction value is a three-stage evaluation for a predetermined reference accuracy, "better than the reference accuracy", "equivalent to the reference accuracy", or "worse than the reference accuracy". is there.

The protection margin determination unit 13 determines the protection margin B for avoiding radio wave interference in the common frequency band based on the prediction accuracy of the radio wave propagation situation prediction value. The protection margin determination unit 13 determines the protection margin B for each prediction target location based on the determination result of the prediction accuracy of the radio wave propagation situation prediction value by the prediction accuracy determination unit 12. The information providing device 1 outputs the protection margin B determined by the protection margin determination unit 13. The protection margin B is used, for example, to avoid radio wave interference in the frequency band (shared frequency band) when the secondary system secondarily uses the frequency band assigned to the primary system.

The free resource information generation unit 14 predicts the radio wave propagation status of the protection margin B determined by the protection margin determination unit 13 and the prediction destination time stored in the prediction value storage unit 11 for each prediction destination time for each prediction target location. Use the value and to determine if there are free resources in the shared frequency band. The free resource information generation unit 14 generates free resource information C indicating the determination result of the presence or absence of free resources in the shared frequency band for each prediction destination time for each prediction target location.

FIG. 3 is a graph for explaining a method for determining the presence or absence of free resources according to the present embodiment. In the graph of FIG. 3, the horizontal axis represents time and the vertical axis represents received power. In the example of FIG. 3, the received power W exceeds the interference power threshold value THa during the period from time t2 to time t3. The interference power threshold value THa is a threshold value indicating the received power at which radio wave interference occurs. Therefore, since it is assumed that radio wave interference will occur during the period from time t2 to time t3, sharing of the shared frequency band is prohibited.

In the method for determining the presence or absence of free resources according to the present embodiment, the free resource determination threshold THb in which the protection margin B is added to the interference power threshold THa is used. The period in which the received power W exceeds the free resource determination threshold THb is determined to be a period in which sharing of the shared frequency band is not permitted and cannot be shared. As a result, radio wave interference in the shared frequency band can be avoided with a margin.

In the example of FIG. 3, the period from time t1 to time t4 includes the period “time t1 to time t2” and “time t3 to time t4” in which the received power W is less than the interference power threshold THa, but the received power. Since W exceeds the free resource determination threshold THb, it is a period during which the shared frequency band cannot be shared. The period during which the received power W does not exceed the free resource determination threshold THb is a period during which sharing is permitted to share the shared frequency band.

The free resource information generation unit 14 determines that there are no free resources in the shared frequency band during the period during which the shared frequency band cannot be shared. On the other hand, the free resource information generation unit 14 determines that there are free resources in the shared frequency band during the period in which the shared frequency band can be shared.

The information providing device 1 outputs the free resource information C generated by the free resource information generation unit 14. The free resource information C is stored in, for example, an external database (free resource information database) of the information providing device 1. The free resource information database is used, for example, to check the status of free resources in the shared frequency band when the secondary system secondarily uses the frequency band assigned to the primary system. This makes it easier for the secondary system to formulate a usage plan and investment plan for the shared frequency band. In addition, the secondary system can smoothly carry out procedures for using the shared frequency band, such as reserving free resources in the shared frequency band.

Next, the information providing method according to the present embodiment will be described with reference to FIG. FIG. 4 is a flowchart showing an example of the procedure of the information providing method according to the present embodiment. A basic protection margin is set in advance in the information providing device 1.

(Step S1) The information providing device 1 stores the radio wave propagation situation predicted value in the predicted value storage unit 11.

(Step S2) The information providing device 1 determines the prediction accuracy of the radio wave propagation status predicted value based on the radio wave propagation status predicted value and the radio wave propagation status measured value A. As an example here, the judgment of the prediction accuracy of the radio wave propagation situation prediction value is a three-stage evaluation for a predetermined reference accuracy, "better than the reference accuracy", "equivalent to the reference accuracy", or "worse than the reference accuracy". ..

(Step S3) When the determination result of the prediction accuracy of the radio wave propagation situation predicted value is “equivalent to the reference accuracy”, the process of FIG. 4 is terminated. In this case, the protection margin B remains the basic protection margin.

If the determination result of the prediction accuracy of the radio wave propagation situation prediction value is "better than the reference accuracy", the process proceeds to step S4. If the determination result of the prediction accuracy of the radio wave propagation situation prediction value is "worse than the reference accuracy", the process proceeds to step S5.

(Step S4) When the judgment result of the prediction accuracy of the radio wave propagation situation prediction value is "better than the reference accuracy", the information providing device 1 determines the value obtained by reducing a certain amount from the basic protection margin as the protection margin B. To do. As a result, it is possible to prevent an excessive protection margin from being taken and contribute to improving the utilization efficiency of the shared frequency band.

(Step S5) When the judgment result of the prediction accuracy of the radio wave propagation situation prediction value is "worse than the reference accuracy", the information providing device 1 determines the value obtained by increasing a certain amount from the basic protection margin as the protection margin B. To do. As a result, it is possible to prevent a shortage of the protection margin and contribute to more reliably avoiding radio wave interference in the common frequency band.

Next, the protection margin determination method according to the present embodiment will be described with reference to FIG. FIG. 5 is an explanatory diagram for explaining an example of the protection margin determination method according to the present embodiment.
In the protection margin determination method shown in FIG. 5, the protection margin determination unit 13 determines the protection margin B for the time corresponding to the time from the determination time “Tn” at which the determination is made to the scheduled usage time of the shared frequency band. The protection margin B for the scheduled usage time is determined based on the prediction accuracy based on the radio wave propagation situation predicted value predicted in the past than the time.

In FIG. 5, in step S101, the protection margin B used for determining the free resource of the shared frequency band with respect to the scheduled usage time “Tn + 3” of the shared frequency band is determined for the predicted target location. In the determination of the protection margin B for the scheduled usage time "Tn + 3", the determination is made for the time corresponding to the time from the determination time "Tn" at which the protection margin B is determined to the scheduled usage time "Tn + 3" of the shared frequency band. The protection margin B for the scheduled usage time “Tn + 3” is determined based on the prediction accuracy based on the radio wave propagation situation predicted value predicted in the past (predicted execution time “Tn-3”) than the time “Tn”.

In step S102, the protection margin B used for determining the free resource of the shared frequency band with respect to the scheduled usage time “Tn + 2” of the shared frequency band is determined for the predicted target location. In the determination of the protection margin B for the scheduled usage time "Tn + 2", the determination is made for the time corresponding to the time from the determination time "Tn" at which the protection margin B is determined to the scheduled usage time "Tn + 2" of the shared frequency band. The protection margin B for the scheduled usage time “Tn + 2” is determined based on the prediction accuracy based on the predicted value of the radio wave propagation situation predicted in the past (predicted execution time “Tn-2”) than the time “Tn”.

In step S103, the protection margin B used for determining the free resource of the shared frequency band with respect to the scheduled usage time “Tn + 1” of the shared frequency band is determined for the predicted target location. In the determination of the protection margin B for the scheduled usage time "Tn + 1", the determination is made for the time corresponding to the time from the determination time "Tn" at which the protection margin B is determined to the scheduled usage time "Tn + 1" of the shared frequency band. The protection margin B for the scheduled usage time “Tn + 1” is determined based on the prediction accuracy based on the predicted value of the radio wave propagation situation predicted in the past (prediction execution time “Tn-1”) than the time “Tn”.

The protection margin B for the scheduled usage time determined by the protection margin determination method shown in FIG. 5 predicts the past radio wave propagation status by the time corresponding to the time from the determination time “Tn” of the protection margin B to the scheduled usage time. It reflects the prediction accuracy based on the value.

The protection margin determination unit 13 sets the protection margin B for the scheduled usage time based on the prediction accuracy based on the predicted value of the radio wave propagation situation predicted in the past corresponding to the scheduled usage time of the free resource in the shared frequency band. You may decide. For example, the protection margin used to determine the free resources of the shared frequency band for the scheduled usage time based on the prediction accuracy based on the radio wave propagation status prediction value predicted in the past on the same day as the scheduled usage time or at the same time. B may be determined.

According to the above-described embodiment, the prediction accuracy of the radio wave propagation status predicted value used for determining the free resource of the shared frequency band is reflected in the protection margin B used for determining the free resource of the shared frequency band. , The protection margin B can be appropriately determined. For example, when the prediction accuracy is better than the reference accuracy, the protection margin B is determined to be a value reduced by a certain amount from the basic protection margin to prevent excessive protection margin from being taken and to prevent the common frequency band from being taken excessively. It can contribute to the improvement of utilization efficiency. In addition, when the prediction accuracy is worse than the reference accuracy, the protection margin B is determined to be a value that is increased by a certain amount from the basic protection margin to prevent the protection margin from becoming insufficient and to prevent radio wave interference in the shared frequency band. It can contribute to avoidance surely.

Although the embodiments of the present invention have been described in detail with reference to the drawings, the specific configuration is not limited to this embodiment, and design changes and the like within a range not deviating from the gist of the present invention are also included.

Further, a computer program for realizing the functions of the above-described devices may be recorded on a computer-readable recording medium, and the program recorded on the recording medium may be read by the computer system and executed. The "computer system" referred to here may include hardware such as an OS and peripheral devices.
The "computer-readable recording medium" is a writable non-volatile memory such as a flexible disk, a magneto-optical disk, a ROM, or a flash memory, a portable medium such as a DVD (Digital Versatile Disc), or a built-in computer system. A storage device such as a hard disk.

Furthermore, the "computer-readable recording medium" is a volatile memory inside a computer system that serves as a server or client when a program is transmitted via a network such as the Internet or a communication line such as a telephone line (for example, DRAM (Dynamic)). It also includes those that hold the program for a certain period of time, such as Random Access Memory)).
Further, the program may be transmitted from a computer system in which this program is stored in a storage device or the like to another computer system via a transmission medium or by a transmission wave in the transmission medium. Here, the "transmission medium" for transmitting a program refers to a medium having a function of transmitting information, such as a network (communication network) such as the Internet or a communication line (communication line) such as a telephone line.
Further, the above program may be for realizing a part of the above-mentioned functions. Further, a so-called difference file (difference program) may be used, which can realize the above-mentioned functions in combination with a program already recorded in the computer system.

1 ... Information providing device, 11 ... Predicted value storage unit, 12 ... Prediction accuracy judgment unit, 13 ... Protection margin determination unit, 14 ... Free resource information generation unit

Claims (7)

A predicted value storage unit that stores the predicted radio wave propagation status that indicates the radio wave propagation status predicted in the past for the shared frequency band,
A prediction accuracy determination unit that determines the prediction accuracy of the radio wave propagation situation prediction value based on the radio wave propagation situation prediction value and the radio wave propagation situation measurement value actually measured for the common frequency band.
A protection margin determining unit that determines a protection margin for avoiding radio wave interference in the shared frequency band based on the prediction accuracy.
Information providing device including. The protection margin determination unit
When the prediction accuracy is better than a certain accuracy, it is reduced by a certain amount from the basic protection margin.
When the prediction accuracy is worse than a certain accuracy, it is increased by a certain amount from the basic protection margin.
The information providing device according to claim 1. The protection margin determination unit predicts the radio wave propagation situation predicted in advance of the determination time by the time corresponding to the time from the determination time when the protection margin is determined to the scheduled usage time of the common frequency band. The protection margin for the scheduled usage time is determined based on the prediction accuracy based on the value.
The information providing device according to any one of claims 1 or 2. The protection margin determining unit determines the protection margin for the scheduled usage time based on the prediction accuracy based on the previously predicted radio wave propagation situation predicted value corresponding to the scheduled usage time of the shared frequency band. ,
The information providing device according to any one of claims 1 or 2. A free resource that determines the presence or absence of free resources in the shared frequency band using the protection margin and the radio wave propagation status predicted value, and generates free resource information indicating the judgment result of the presence or absence of free resources in the shared frequency band. Further equipped with an information generation unit,
The information providing device according to any one of claims 1 to 4. A predictive value storage step in which the information providing device stores a radio wave propagation status predicted value indicating a radio wave propagation status predicted in the past for a shared frequency band, and
A prediction accuracy determination step in which the information providing device determines the prediction accuracy of the radio wave propagation situation prediction value based on the radio wave propagation situation prediction value and the radio wave propagation situation measurement value actually measured for the common frequency band.
A protection margin determination step in which the information providing device determines a protection margin for avoiding radio wave interference in the common frequency band based on the prediction accuracy.
Information provision method including. On the computer
A predictive value storage step for storing a radio wave propagation status predicted value indicating a radio wave propagation status predicted in the past for a shared frequency band, and a predicted value storage step.
A prediction accuracy determination step for determining the prediction accuracy of the radio wave propagation status predicted value based on the radio wave propagation status predicted value and the radio wave propagation status measured value actually measured for the shared frequency band, and a prediction accuracy determination step.
A protection margin determination step for determining a protection margin for avoiding radio wave interference in the common frequency band based on the prediction accuracy, and a protection margin determination step.
A computer program to run.

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