JP2021141509A - Frequency mapping device, frequency mapping method and computer program - Google Patents

Abstract

To appropriately map the frequency allocation amount of the shared frequency band assigned to each of multiple wireless communication systems on the frequency axis and the time axis.SOLUTION: A frequency mapping device includes: a frequency allocation amount input unit for accepting an input of frequency allocation amount information indicating a frequency allocation amount of a shared frequency band that is allocated to each of multiple wireless communication systems; a mapping calculation unit for finding a time slot and a frequency channel of the shared frequency band allocated to each wireless communication system so that a sum is maximized, using the objective function to find the sum of a time continuation value and a frequency continuation value of an allocation channel of each of the multiple wireless communication systems during a mapping calculation period; and an allocation result output unit for outputting allocation result information indicating an allocation result of the time slot and the frequency channel of the shared frequency band that is allocated to each of multiple wireless communication systems.SELECTED DRAWING: Figure 1

Description

The present invention relates to frequency mapping devices, frequency mapping methods and computer programs.

In recent years, in order to meet the increasing demand for mobile traffic, it has been considered that different wireless communication systems share the same frequency band. For example, it is being studied to enable another wireless communication system (secondary operator system) to secondarily use the frequency band assigned to the existing wireless communication system. In this frequency sharing between different systems, the secondary operator system uses free resources that are not used by the existing wireless communication system that has absolute priority. Non-Patent Documents 1 and 2 describe, for example, non-patent documents 1 and 2, for example, a frequency allocation technique for allocating a frequency band (shared frequency band) shared by an existing wireless communication system and a secondary operator system to the secondary operator system. In the frequency allocation technology described in Non-Patent Documents 1 and 2, the frequency allocation amount of the shared frequency band on the frequency axis and the time axis is dynamically determined based on the demand of the secondary operator system.

“Fair Dynamic Spectrum Management in Licensed Shared Access Systems”, IEEE Systems Journal, Volume: 13, Issue: 3, September 2019 Mirza Kibria, “Resource Allocation in Shared Spectrum Access Communications for Operators with Diverse Service Requirements”, 2016

However, in the frequency allocation technology described in Non-Patent Documents 1 and 2 described above, how to map the frequency allocation amount of the shared frequency band allocated to the secondary operator system on the frequency axis and the time axis is also included. Has not been considered. Therefore, the following problems may occur.

In the mapping of the frequency allocation amount of the shared frequency band on the frequency axis and the time axis, if the frequencies allocated to the same secondary operator system are separated, the number of guard bands between different wireless communication systems increases, and the frequency utilization efficiency increases. Decreases. Further, as the number of component carriers in carrier aggregation (CA) increases, the resource consumption in the base station and the terminal increases. Further, if the frequencies assigned to the same secondary operator system are discontinuous in time, the switching setting of the frequency used for the base station is changed, and the operation man-hours of the base station are increased.

The present invention has been made in consideration of such circumstances, and an object of the present invention is to appropriately assign a frequency allocation amount of a shared frequency band assigned to each of a plurality of wireless communication systems on the frequency axis and the time axis. The purpose is to map to.

(1) One aspect of the present invention is a frequency allocation amount input unit that accepts an input of frequency allocation amount information indicating a frequency allocation amount of a shared frequency band assigned to each of a plurality of wireless communication systems, and each in a mapping calculation period. The frequency of the shared frequency band assigned to each wireless communication system so that the total is maximized by using an objective function for obtaining the sum of the frequency continuity value and the time continuity value of the allocated channels of the wireless communication system. A frequency including a mapping calculation unit for obtaining channels and time slots, and an allocation result output unit for outputting allocation result information indicating allocation results of frequency channels and time slots of the shared frequency band assigned to each wireless communication system. It is a mapping device.
(2) One aspect of the present invention is the frequency mapping device according to (1) above, wherein the objective function is set with a weighting coefficient for the frequency continuity value and a weighting coefficient for the time continuity value.
(3) One aspect of the present invention further includes an allocation result storage unit for storing the allocation results of the frequency channels and time slots of the shared frequency band assigned to each of the wireless communication systems, and the mapping calculation period is in the past. The frequency mapping device according to any one of (1) and (2) above, which includes a period and includes the allocation result of the past period in the constraint condition of the mapping calculation period.

(4) One aspect of the present invention includes a frequency allocation amount input step in which the frequency mapping device receives an input of frequency allocation amount information indicating a frequency allocation amount of a shared frequency band assigned to each of a plurality of wireless communication systems. Each of the frequency mapping devices uses an objective function to obtain the sum of the frequency continuity value and the time continuity value of the allocated channels of each of the radio communication systems during the mapping calculation period so that the sum is maximized. The mapping calculation step for obtaining the frequency channel and time slot of the shared frequency band assigned to the wireless communication system, and the allocation result of the frequency channel and time slot of the shared frequency band assigned to each of the wireless communication systems by the frequency mapping device. It is a frequency mapping method including an allocation result output step for outputting allocation result information indicating.

(5) One aspect of the present invention includes a frequency allocation amount input step for accepting an input of frequency allocation amount information indicating a frequency allocation amount of a shared frequency band assigned to each of a plurality of wireless communication systems to a computer, and a mapping calculation. The shared frequency assigned to each wireless communication system so that the total is maximized by using an objective function for obtaining the sum of the frequency continuity value and the time continuity value of the allocated channels of each wireless communication system during the period. A mapping calculation step for obtaining a frequency channel and a time slot of a band, an allocation result output step for outputting allocation result information indicating an allocation result of a frequency channel and a time slot of the shared frequency band assigned to each wireless communication system, and an allocation result output step. It is a computer program for executing.

According to the present invention, there is an effect that the frequency allocation amount of the shared frequency band assigned to each of the plurality of wireless communication systems can be appropriately mapped on the frequency axis and the time axis.

It is a block diagram which shows the structural example of the frequency mapping apparatus which concerns on one Embodiment. It is explanatory drawing which shows the comparative example of the mapping result which concerns on one Embodiment, and the conventional mapping result. It is a flowchart which shows the example of the procedure of the frequency mapping 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 a frequency mapping device according to an embodiment. In FIG. 1, the frequency mapping device 1 includes a frequency allocation amount input unit 11, a mapping calculation unit 12, an allocation result output unit 13, and an allocation result database (allocation result DB) 14.

Each function of the frequency mapping device 1 is realized by the frequency mapping 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 frequency mapping device 1 may be configured by using a general-purpose computer device, or may be configured as a dedicated hardware device.

The frequency mapping device 1 executes a frequency mapping process for mapping the frequency allocation amount of the shared frequency band assigned to each of the plurality of wireless communication systems on the frequency axis and the time axis. As an example of this embodiment, in the frequency mapping device 1, the frequency band assigned to the existing wireless communication system (existing system) is secondarily used by a plurality of other wireless communication systems (secondary operator system). In this case, the free resources of the frequency band (shared frequency band) map the frequency allocation amount of the shared frequency band allocated to each secondary operator system on the frequency axis and the time axis. In this frequency mapping process, in the present embodiment, the same secondary operator system is assigned as continuously as possible on the frequency axis and the time axis. As a result, there are problems such as a decrease in frequency utilization efficiency due to the separation of frequencies assigned to the same secondary operator system, and operational man-hours due to temporal discontinuity in the frequencies assigned to the same secondary operator system. We will try to suppress problems such as an increase in frequency.

The frequency allocation amount input unit 11 inputs the frequency allocation amount information 110 indicating the frequency allocation amount of the shared frequency band of each time slot (time slot) assigned to each of the plurality of wireless communication systems (secondary operator systems). To accept. The frequency allocation amount of the shared frequency band to each secondary operator system is the demand application of each secondary operator system, the free resource of the existing system, the free frequency axis (free resource band), and the free time axis (free). It is determined for each time slot based on the resource time). Hereinafter, the frequency allocation amount of the shared frequency band may be simply referred to as a frequency allocation amount.

The mapping calculation unit 12 maps the frequency allocation amount of each secondary operator system shown in the frequency allocation amount information 110 on the frequency axis and the time axis. In this mapping, the mapping calculation unit 12 uses an objective function to obtain the sum of the frequency continuity value and the time continuity value of the allocated channels of each secondary operator system in the mapping calculation period, and the sum is maximized. As described above, the frequency channels and time slots of the shared frequency band to be assigned to each secondary operator system are obtained. The details of this mapping calculation method will be described later.

The allocation result output unit 13 outputs allocation result information 120 indicating the allocation result of the frequency channels and time slots of the shared frequency band assigned to each secondary operator system. The allocation result information 120 of each secondary business operator system is notified to each secondary business operator system. Each secondary operator system uses the shared frequency band according to its own allocation result shown in the allocation result information 120.

The allocation result DB 14 stores the allocation results of the frequency channels and time slots of the shared frequency band assigned to each secondary operator system.

[Mapping calculation method]
The mapping calculation method according to this embodiment will be described. In addition, for example, "a" of a subscript may be written as "_a". Parameters, objective functions, and constraints used in the frequency mapping process are preset in the frequency mapping device 1.

The parameters shown in the following equation (1) are preset in the frequency mapping device 1.

i is a secondary operator system number that identifies the secondary operator system. M is a set of secondary operator system numbers. f is a frequency channel number that identifies a frequency channel in the shared frequency band. F is a set of frequency channel numbers of the shared frequency band. t is a time slot number that identifies the time slot to which the shared frequency band is assigned. T is a set of time slot numbers. In this embodiment, the set T corresponds to the mapping calculation period. This means that all time slot numbers t included in the set T are subject to mapping calculation. α is a weighting coefficient of frequency continuity. β is a weighting coefficient of time continuity. For x_i, f, and t, the mapping result (allocation result) of the frequency channel (f) with respect to the secondary operator system (i) in the time slot (t) is "1 is allocated, 0 is not allocated".

In the present embodiment, as an example of a value (frequency continuity value) representing the frequency continuity of the channel (allocated channel) assigned to the secondary operator system, the frequency channel assigned to the same secondary operator system in the same time slot. Use the number of consecutive numbers. Further, as an example of a value representing the time continuity of the allocated channel (time continuity value), the number of consecutive time slots allocated to the same secondary operator system within the same frequency channel is used.

The objective function shown in the following equation (2) is preset in the frequency mapping device 1.

The objective function shown in the equation (2) is to obtain the sum of the frequency continuity value and the time continuity value of the assigned channels of each secondary operator system in the mapping calculation period (T). In the equation (2), the frequency continuity value is the mapping result x_i, f-1, t of a certain frequency channel (f-1) in the same secondary operator system (i) and the same time slot (t). It is calculated by the product of the mapping results x_i, f, and t of the frequency channel (f) in which the frequency channel (f-1) is shifted by one in the frequency axis direction. Further, the time continuity value is the mapping result x_i, f, t-1 of a certain time slot (t-1) and the time slot (in the same secondary operator system (i) and the same frequency channel (f). It is calculated by the product of the mapping results x_i, f, and t of the time slot (t) in which t-1) is shifted by one in the time axis direction.

Further, the objective function shown in Eq. (2) can adjust the weighting of the frequency continuity value and the time continuity value by the frequency continuity weighting coefficient α and the time continuity weighting coefficient β. Is.

In the frequency mapping device 1, the constraint conditions shown in the following equations (3), (4), and (5) are set in advance.

The constraint condition of the equation (3) is that the total of the frequency channels (f) allocated in the secondary operator system (i) and the time slot (t) is the secondary operator system (i) and the time slot ( It is to match the frequency allocation amounts fa_i and t with respect to t). The frequency allocation amounts fa_i and t of each time slot (t) with respect to the secondary operator system (i) are included in the frequency allocation amount information 110.

The constraint condition of the equation (4) is that the allocation channels of the same frequency channel (f) and the same time slot (t) are allocated only to one secondary operator system (i).

The constraint condition of the equation (5) is that x_i, f, and t are "1: with allocation" or "0: without allocation".

The mapping calculation unit 12 obtains a solution "mapping result (x_i, f, t)" that satisfies the constraints of Eqs. (3), (4) and (5) and maximizes the objective function of Eq. (2). Perform the desired calculation. Conventional optimization tools and search algorithms for solving optimization problems can be applied to this calculation.

The mapping calculation period (T), which is the period for which the objective function of Eq. (2) is calculated, can be variably set according to the requirements such as the calculation time related to the frequency mapping process and the accuracy of mapping. ..

Further, the mapping calculation period (T) may be set to include the past time slot (t). When the mapping calculation period (T) includes the past time slot (t), the mapping result (x_i, f, t) in the past time slot (t) is added as a constraint condition. As a result, mapping can be performed in consideration of frequency continuity and time continuity with the mapping result (x_i, f, t) in the past time slot (t). The mapping results (x_i, f, t) in the past time slot (t) are stored in the allocation result DB 14.

FIG. 2 is an explanatory diagram showing a comparative example between the mapping result according to the present embodiment and the conventional mapping result. FIG. 2 (1) shows an example of a conventional mapping result. FIG. 2 (2) shows an example of the mapping result of this embodiment.

In the example of the conventional mapping result of FIG. 2 (1), frequency continuity and time continuity are not considered in the mapping of the frequency allocation amount, and the frequencies assigned to the same secondary operator system are separated or the same. The frequencies assigned to the secondary operator system are discontinuous in time. Therefore, in the conventional mapping result, the frequency utilization efficiency is lowered due to the separation of the frequencies assigned to the same secondary operator system, and the frequencies assigned to the same secondary operator system are discontinuous in time. This can cause problems such as an increase in man-hours for operating the base station.

On the other hand, in the example of the mapping result of the present embodiment of FIG. 2 (2), since frequency continuity and time continuity are taken into consideration in the mapping of the frequency allocation amount, the frequencies assigned to the same secondary operator system are separated. In addition, it is possible to prevent the frequencies assigned to the same secondary operator system from being discontinuous in time. As a result, the frequency utilization efficiency decreases due to the separation of the frequencies assigned to the same secondary operator system, and the operation man-hours of the base station due to the temporal discontinuity of the frequencies assigned to the same secondary operator system. It becomes possible to prevent the occurrence of problems such as an increase in frequency.

The above is the description of the mapping calculation method according to this embodiment.

Next, the frequency mapping method according to the present embodiment will be described with reference to FIG. FIG. 3 is a flowchart showing an example of the procedure of the frequency mapping method according to the present embodiment.

(Step S1) The frequency mapping device 1 accepts the input of the frequency allocation amount information 110 indicating the frequency allocation amount of the shared frequency band of each time slot assigned to each of the plurality of secondary operator systems. The frequency mapping device 1 sets each parameter of the above equation (1), the objective function of the above equation (2), and constraint conditions such as the above equations (3) and (4) based on the frequency allocation amount information 110. ..

(Step S2) The frequency mapping device 1 executes a calculation for obtaining a solution “mapping result (x_i, f, t)” that satisfies the constraint condition set in step S1 and maximizes the objective function set in step S1. do.

(Step S3) The frequency mapping device 1 transmits the mapping results (x_i, f, t) of the frequency channels and time slots of the shared frequency band assigned to each secondary operator system obtained in step S2 to the allocation result DB14. Store.

(Step S4) The frequency mapping device 1 outputs the allocation result information 120 indicating the allocation result of the frequency channel and the time slot of the shared frequency band allocated to each secondary operator system obtained in step S2.

According to the present embodiment, since frequency continuity and time continuity are taken into consideration in the mapping of the frequency allocation amount of the shared frequency band, the frequencies assigned to the same secondary operator system may be separated, or the same secondary enterprise may be used. It is possible to prevent the frequencies assigned to the human system from being discontinuous in time. This has the effect that the frequency allocation amount of the shared frequency band assigned to each of the plurality of secondary operator systems can be appropriately mapped on the frequency axis and the time axis.

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, it may be a so-called difference file (difference program) that can realize the above-mentioned function in combination with a program already recorded in the computer system.

1 ... Frequency mapping device, 11 ... Frequency allocation amount input unit, 12 ... Mapping calculation unit, 13 ... Allocation result output unit, 14 ... Allocation result database (allocation result DB)

Claims (5)

A frequency allocation amount input unit that accepts input of frequency allocation amount information indicating the frequency allocation amount of the shared frequency band assigned to each of a plurality of wireless communication systems, and a frequency allocation amount input unit.
Allocate to each wireless communication system so that the total is maximized by using an objective function for obtaining the total frequency continuity value and time continuity value of the allocated channels of each wireless communication system during the mapping calculation period. A mapping calculation unit that obtains frequency channels and time slots in the shared frequency band,
An allocation result output unit that outputs allocation result information indicating an allocation result of a frequency channel and a time slot of the shared frequency band assigned to each wireless communication system, and an allocation result output unit.
A frequency mapping device comprising. In the objective function, a weighting coefficient for the frequency continuity value and a weighting coefficient for the time continuity value are set.
The frequency mapping device according to claim 1. Further, an allocation result storage unit for storing the allocation results of the frequency channels and time slots of the shared frequency band assigned to each of the wireless communication systems is provided.
The mapping calculation period includes a past period.
The allocation result of the past period is included in the constraint condition of the mapping calculation period.
The frequency mapping device according to any one of claims 1 or 2. A frequency allocation input step in which the frequency mapping device accepts input of frequency allocation information indicating the frequency allocation of the shared frequency band assigned to each of the plurality of wireless communication systems.
Each of the frequency mapping devices uses an objective function to obtain the sum of the frequency continuity value and the time continuity value of the allocated channels of each of the radio communication systems during the mapping calculation period so that the sum is maximized. A mapping calculation step for obtaining a frequency channel and a time slot of the shared frequency band to be assigned to the wireless communication system, and
An allocation result output step in which the frequency mapping device outputs allocation result information indicating an allocation result of a frequency channel and a time slot of the shared frequency band assigned to each wireless communication system.
Frequency mapping method including. On the computer
A frequency allocation amount input step that accepts input of frequency allocation amount information indicating the frequency allocation amount of the shared frequency band assigned to each of the plurality of wireless communication systems, and a frequency allocation amount input step.
Allocate to each wireless communication system so that the total is maximized by using an objective function for obtaining the total frequency continuity value and time continuity value of the allocated channels of each wireless communication system during the mapping calculation period. Mapping calculation step to find the frequency channel and time slot of the shared frequency band,
An allocation result output step for outputting allocation result information indicating an allocation result of a frequency channel and a time slot of the shared frequency band assigned to each wireless communication system, and an allocation result output step.
A computer program to run.

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