JP5365546B2 - Indoor wireless communication system, femtocell base station, wireless power control method, wireless power control program, and recording medium - Google Patents

Description

  The present invention relates to an indoor wireless communication system, a femtocell base station, a wireless power control method, a wireless power control program, and a program recording medium.

  In recent cellular mobile radio systems, in order to improve the radio communication quality in buildings, houses, underground malls and other places where radio waves are difficult to reach, a normal base covering an area with a radius of several hundreds to several kilometers An indoor wireless communication system is constructed by adopting an ultra-compact Femto-Cell base station that covers an area with a radius of several meters to several tens of meters that is extremely narrower than the cell size of the station (macrocell base station). Is starting to do. A femtocell base station generally has a smaller number of mobile terminals that can be accommodated and a lower maximum transmission power than a normal base station (macrocell base station), but it is easy even in a complex crowded environment. It can be installed and a stable radio wave environment can be realized.

  Here, the antenna of the femtocell base station that constitutes the indoor wireless communication system usually has no directivity, and the shape of the femtocell is disclosed in Japanese Patent Application Laid-Open No. 2009-159355, “Radio communication system, base station and As described in “Control method of base station”, the antenna is circular, and the radio wave of the same wireless power is transmitted in all directions from the antenna of the femtocell base station as shown in FIG. A region having a radius of about several meters to several tens of meters is covered as a femtocell. FIG. 4 is a schematic diagram showing the shape of a femto cell covered by a normal femto cell base station constituting an indoor wireless communication system related to the present invention.

  The femtocell base station 40 shown in FIG. 4 is installed, for example, in a house 20 having a rectangular cross section, and the antenna 41 of the femtocell base station 40 completely covers an area in which the mobile terminal moves in the house 20. The femtocell 400 having a circular shape is formed so as to cover almost the entire area of the house 20.

  Here, in the house 20, there are three rooms of ROOM 1 21, ROOM 2 22, and ROOM 3 23 in addition to the hallway 24, and it is sufficient to cover only the area that the portable terminal uses for indoor communication as a femto cell. However, since the omnidirectional antenna 41 is used, it is necessary to form a circular femtocell 400 that covers almost the entire area of the house 20, and the femtocell 400 is, for example, a user who has a mobile terminal. Covers not only the indoor ROOM3 23 and the like where the door does not go in and out, but also the area of the outdoor 25.

  In the schematic diagram of FIG. 4, the mobile terminal A 31 currently exists in the ROOM 1 21 via the corridor 24 in the house 20, and the mobile terminal B 32 currently exists in the ROOM 2 22 via the corridor 24 and the ROOM 1 21. Although both the mobile terminal A 31 and the mobile terminal B 32 are terminals that are permitted to use the indoor wireless communication system built in the house 20, they exist in the house 20. , The mobile terminal C 33 currently existing in the outdoor 25 is permitted to use the indoor wireless communication system built in the house 20. Shows the case where it is not.

JP 2009-159355 A (page 5-9, FIG. 1)

  As described above, in the normal femtocell base station 40 as shown in FIG. 4, the antenna 41 has no directivity, and the circular femtocell 400 is formed so that the user holding the mobile terminal can move. Not only indoor ROOM3 23 and the like that are not covered, but also the outdoor 25 area that does not need to be covered is covered. As a result, the result is that the wireless power of the femtocell base station 40 is wasted.

  In Patent Document 1, as a measure for saving power consumption, a plurality of femtocells set hierarchically in a macrocell are adjacently connected in a daisy chain, and each femtocell base station to a macrocell base station. When a state in which a mobile terminal does not exist in a femtocell adjacent to a certain femtocell is detected by periodically reporting state information, the femtocell base station that covers the femtocell is used for the time being As a technique that does not exist, a technique for reducing the power consumption of the femtocell base station by stopping the output of radio waves from the femtocell base station has been proposed.

  However, as shown in FIG. 4, in the case of a femtocell base station 40 that can cover almost the entire area of the house 20 with one femtocell 400, the technique as in Patent Document 1 is applied. I can't.

  Furthermore, as shown in FIG. 4, since the femtocell 400 has reached the area of the outdoor 25, any portable terminal that accidentally exists in the area where the femtocell 400 covers the outdoor 25. There is a possibility that the mobile terminal C 33 (in FIG. 4) accesses the femtocell base station 40 without obtaining the approval of the operator of the indoor wireless communication system.

  Basically, indoor wireless communication systems having femtocell base stations often have the nature of a public network infrastructure that provides communication services to an unspecified number of users. In order to provide a communication service fairly to a terminal, there is a tendency that it is difficult to retain detailed data related to wireless communication for a long period in the femtocell base station for each individual user.

  Therefore, in a normal femtocell base station, a process for limiting the cell range or setting the wireless power during communication to an optimum wireless power is applied to each individual user unit, and a specific femtocell base station is applied. The efficiency of the femtocell base station cannot be achieved as an optimum operation mode for each user. In other words, the normal femtocell base station up to now performs a wireless power control process with a large load on the assumption that the cell range and the variation of the wireless power loss are large as in the case of the macro cell base station covering a wider area. Inevitably, there is also an aspect in which an individual indoor radio communication system user cannot provide an indoor radio communication system that realizes an optimum operation mode for the user.

(Object of the present invention)
The present invention has been made in view of such circumstances, and it is an optimum operation mode for each user of an indoor wireless communication system, and at the same time, periodic wireless power is periodically generated every predetermined time. Provided are an indoor wireless communication system, a femtocell base station, a wireless power control method, a wireless power control program, and a program recording medium capable of reducing processing for ensuring wireless quality without performing measurement / setting processing The purpose is to do.

  In order to solve the above-described problems, the indoor wireless communication system according to the present invention employs the following characteristic configuration.

  (1) An indoor wireless communication system including a femtocell base station that performs wireless communication with a mobile terminal permitted to perform indoor communication among mobile terminals existing in an indoor femtocell, the femtocell base station Is a directional antenna having directivity for radiating radio waves, and radio power is supplied to each individual cell in which the femtocell is divided into a plurality of regions according to the direction of the radio waves radiated from the directional antenna. Power control means for controlling, wherein the power control means covers an area covered by radio waves radiated from the directional antenna indoors where the femtocell base station is installed, and the femto An indoor wireless communication system in which a portable terminal permitted to perform indoor communication with a cell base station is restricted to the range of the individual cell in the indoor where the mobile terminal has existed in the past.

  According to the indoor radio communication system, femtocell base station, radio power control method, radio power control program, and program recording medium of the present invention, the following effects can be obtained.

  The first effect is that the radio power of the femtocell base station is individually controlled based on the usage history for each user, that is, unlike the conventional normal indoor radio communication system, the femtocell base station The wireless power control is not performed periodically at all times, and only when the user who owns the mobile terminal moves from the outdoor to the indoor individual cell or between indoor individual cells. Since optimum wireless power is set based on the past usage history, it is possible to reduce the processing load for wireless power control and efficiently save power.

  The second effect is that by adopting a directional antenna as the antenna of the femtocell base station, the area of the femtocell covered by the femtocell base station is limited in the house, regardless of the shape of the house. Therefore, unauthorized access to the indoor wireless communication system from any portable terminal existing outdoors can be prevented.

It is a schematic diagram which shows an example of the shape of the separate cell which the directional antenna of the femtocell base station which comprises the indoor radio | wireless communications system which concerns on this invention covers as a femtocell. It is a block block diagram which shows an example of the internal structure of the femtocell base station applied to the indoor radio | wireless communications system shown in FIG. FIG. 3 is an operation explanatory diagram for describing an example of an operation of the femtocell base station illustrated in FIG. 2. It is a schematic diagram which shows the shape of the femtocell which the normal femtocell base station which comprises an indoor radio | wireless communications system covers.

  Hereinafter, preferred embodiments of an indoor wireless communication system, a femtocell base station, a wireless power control method, a wireless power control program, and a program recording medium according to the present invention will be described with reference to the accompanying drawings. In the following description, an indoor wireless communication system, a femtocell base station, and a wireless power control method according to the present invention will be described. However, the wireless power control method is implemented as a wireless power control program that can be executed by a computer. Needless to say, the wireless power control program may be recorded on a computer-readable recording medium.

(Features of the present invention)
Prior to the description of the embodiments of the present invention, an outline of the features of the present invention will be described first. The present invention relates to a technique for controlling the radio power of a femtocell base station applied to an indoor radio communication system, and employs a directional antenna as an antenna of the femtocell base station, and through the antenna, Each time a movement to a cell is detected by acquiring the cell range and wireless power used for each user and recording the usage history of the acquired cell range and wireless power for each user, that is, movement between cells The wireless power of the radio wave radiated in the direction of the antenna is set on the basis of the recorded content (usage history) each time the signal is detected, and the wireless power is efficiently controlled.

  In other words, when a mobile terminal possessed by each user moves indoors from the outdoors or when movement between indoor cells is detected, it is individually recorded for each mobile terminal possessed by each user. By referring to the history of transmission / reception wireless power corresponding to each direction of the antenna being used, the wireless power transmitted / received by the femtocell base station is determined for each mobile terminal of each user according to the location where the mobile terminal exists. It is characterized in that control is performed to set the wireless power optimal for transmission / reception with the terminal.

  As described above, according to the present invention, when it is detected that the femtocell base station has moved from the outdoor to the indoor without constantly performing the control of the wireless power of the femtocell base station, or the indoor cell. For the first time when the inter-movement is detected, it is possible to reduce the processing load for wireless power control and to efficiently save power by performing individually based on the usage history for each user. .

  In addition, by adopting a directional antenna as the antenna of the femtocell base station, it becomes possible to limit the femtocell area covered by the femtocell base station within the house, regardless of the shape of the house. Unauthorized access to the indoor wireless communication system from any portable terminal existing outdoors can be prevented.

More specifically, the femtocell base station according to the present invention includes at least the following four means.
(1) Use a directional antenna having directivity as an antenna. (2) Provide mobile terminal monitoring means for detecting movement of a mobile terminal to each individual cell in units of individual cells divided by the directional antenna. ) Providing power control means for controlling radio power in units of individual cells divided by directional antennas (4) Individual data for recording / aggregating radio power usage history data in each used cell range for each individual user Providing recording means

  The femtocell base station uses the above-mentioned four means, and with respect to the portable terminal of each user who is permitted to use the indoor wireless communication system in the house, the portable terminal monitoring means performs an individual Whenever the movement of the mobile terminal between the individual cells including the movement to the cell is detected, the wireless power is controlled for each individual user in accordance with the individual cell range where the mobile terminal exists. Here, unlike a macro cell base station, a femto cell base station installed indoors is generally compatible with a communication environment that changes from moment to moment because the movement distance of mobile terminals, radio loss, and fluctuation range of loss are small. Thus, there is little need to optimize the wireless power for maintaining the wireless quality by periodic or immediate processing.

  Therefore, in the power control means, search the usage history data individually recorded / aggregated for each user by the recording / aggregation means, and transmit / receive radio for each individual cell from past transmission / reception radio power for each individual cell. By extracting the maximum value of power and setting the extracted maximum value of transmission / reception radio power as a fixed value as the optimum radio power to be transmitted / received in each individual cell for each user unit, wireless power control While reducing the load, it is possible to efficiently realize power saving.

(Embodiment of the present invention)
Next, an example of an embodiment of a femtocell base station applied to the indoor wireless communication system according to the present invention will be described with reference to FIG. FIG. 1 is a schematic diagram showing an example of the shape of an individual cell covered as a femto cell by a directional antenna of a femto cell base station constituting an indoor wireless communication system according to the present invention. FIG. 4 shows a state where the mobile terminal A 31 shown in FIG. 4 is moving indoors as a technology, and FIG. 1B shows a state where the mobile terminal B 32 shown in FIG. 4 is moving as a background technology. Shown together.

  The femtocell base station 10 shown in FIG. 1 is installed in a house 20 having a rectangular cross section having the same shape as that shown in FIG. 4, and the antenna 11 of the femtocell base station 10 is shown in FIG. Unlike the antenna 41 of the femtocell base station 40 in this case, it is a directional antenna having directivity in the radiation direction of the radio wave so that the area where the mobile terminal moves in the house 20 can be covered. By appropriately controlling the wireless power of the radio wave radiated from the directional antenna 11 according to the location of the mobile terminal A 31 or the mobile terminal B 32, so as to cover the movement range of the mobile terminal in the house 20, A plurality of individual cells 101, 102, 103, 104 are formed as femtocells.

Here, in the house 20, there are three rooms of ROOM 1 21, ROOM 2 22, and ROOM 3 23 in addition to the corridor 24 as in the case shown in FIG. In FIG. 1 (A), the mobile terminal A 31 that has moved into the house 20 has moved from the mobile terminal A ₁ 31-1 that is moving in the hallway 24 to the lower left area of the ROOM 1 21 that is a large room. The mobile terminal A ₂ 31-2 changes to the mobile terminal A ₃ 31-3 that has moved to the right center area of the ROOM1 21, but does not move to the remaining ROOM2 22, ROOM3 23 Is shown.

When the mobile terminal A 31 is in the state of the mobile terminal A ₁ 31-1 moving in the corridor 24 according to the movement status of the mobile terminal A 31 in the house 20, the directional antenna 11 A radio wave of wireless power that communicates with the mobile terminal A ₁ 31-1 in an optimum state in the direction indicated by the individual cell 101 is output to perform wireless communication with the mobile terminal A ₁ 31-1. In the state of the mobile terminal A ₂ 31-2 that has moved to the lower left area of the ROOM 1 21, the mobile terminal A ₂ 31-2 and the optimal state with respect to the direction indicated by the individual cell 102 from the directional antenna 11 A radio wave of wireless power for performing communication is output, and wireless communication is performed with the portable terminal A ₂ 31-2. When the mobile terminal A ₃ 31-3 has moved to the right center area of the ROOM 1 21, the mobile terminal A ₃ 31-3 is optimal for the direction indicated by the individual cell 103 from the directional antenna 11. Control is performed so that wireless radio waves of wireless power for performing communication in the state are output and wireless communication is performed with the mobile terminal A ₃ 31-3.

On the other hand, in FIG. 1 (B), the mobile terminal B 32 that has moved into the house 20 moves from the mobile terminal B ₁ 32-1 that is moving in the hallway 24 to the lower left area of the ROOM 1 21 that is a large room. After changing to the mobile terminal B ₃ 32-3 in the state moved to the right center area of the ROOM 1 21 via the mobile terminal B ₂ 32-2 in the moved state, the mobile in the state moved further to the ROOM 2 22 This shows a case where the terminal changes to terminal B ₄ 32-4 but does not move to the remaining ROOM 3 23.

When the mobile terminal B 32 is in the state of the mobile terminal B ₁ 32-1 moving in the corridor 24 according to the movement status of the mobile terminal B 32 in the house 20, the directional antenna 11 A radio wave of wireless power that communicates with the mobile terminal B ₁ 32-1 in an optimum state with respect to the direction indicated by the individual cell 101 is output, and wireless communication is performed with the mobile terminal B ₁ 32-1. When the mobile terminal B ₂ 32-2 has moved to the lower left area of the ROOM 1 21, the mobile terminal B ₂ 32-2 is in an optimum state with respect to the direction indicated by the individual cell 102 from the directional antenna 11. Control is performed so that wireless radio waves of wireless power for communication are output and wireless communication is performed with the mobile terminal B ₂ 32-2.

When the mobile terminal B ₃ 32-3 has moved to the right center area of the ROOM 1 21, the mobile terminal B ₃ 32-3 is optimal for the direction indicated by the individual cell 103 from the directional antenna 11. Control is performed so as to perform wireless communication with the mobile terminal B ₃ 32-3 by outputting a radio wave of wireless power for performing communication in the state. Further, when the mobile terminal B ₄ 32-4 has moved to the area of the ROOM 2 22, it communicates with the mobile terminal B ₄ 32-4 in an optimal state in the direction indicated by the individual cell 104 from the directional antenna 11. Control is performed so as to perform wireless communication with the portable terminal B ₄ 32-4 by outputting a radio wave of wireless power for performing the above.

  Note that the wireless power amount of the radio wave output from the directional antenna 11 is used for indoor communication in the house 20 as viewed from the installation environment of the directional antenna 11 according to the direction of the directional antenna 11. It is divided by individual cells 101, 102, 103, 104,... So as to prevent useless radio waves from reaching areas that completely cover the area and are not used for indoor communication, such as outdoors in the house 20. Have been adjusted.

  In FIG. 1, for both the mobile terminal A 31 and the mobile terminal B 32 that are permitted to use indoor communication in the house 20, the hallway 24, the lower left area of the ROOM 1 21, and the right center area of the ROOM 1 21 Each of the mobile terminals A 31 and B 32, the individual cells 101, 102, and 103 are covered by the same amount of wireless power. The wireless power amount may be different for each mobile terminal (user), and the optimal wireless power amount may be controlled for each of the mobile terminal A 31 and the mobile terminal B 32 in each communication environment.

(Configuration example of femtocell base station)
Next, a configuration example of the femtocell base station 10 applied to the indoor wireless communication system illustrated in FIG. 1 will be described with reference to FIG. FIG. 2 is a block configuration diagram showing an example of the internal configuration of the femtocell base station 10 applied to the indoor wireless communication system shown in FIG. As shown in FIG. 2, the femtocell base station 10 includes at least a directional antenna 11, a mobile terminal monitoring unit 12, an individual cell control unit 13, and an individual data management unit 14.

  In FIG. 2, the directional antenna 11 is an antenna having directivity of radio waves as described above, and changes the radio power of radio waves radiated for each direction from the antenna to change the radio wave. The radiation shape can be changed. The mobile terminal monitoring unit 12 is based on the wireless communication quality state with mobile terminals such as the mobile terminal A 31 and the mobile terminal B 32 that perform indoor wireless communication indoors in the house 20. Is transmitted to the individual cell control unit 13 and the individual data management unit 14 for each individual cell divided by the directional antenna 11. The mobile terminal monitoring means for detecting the movement of the mobile terminal to each individual cell is provided.

  Further, the individual cell control unit 13 is based on the location information acquired by the mobile terminal monitoring unit 12 and is within the range covered by the individual cells such as the individual cells 101, 102, 103, 104,. The wireless power of the radio wave of the directional antenna 11 is controlled so that the terminal exists, and the optimum wireless power is calculated for each portable terminal in units of individual cells divided by the directional antenna 11. Power control means for controlling individual cells is provided. The individual data management unit 14 records and aggregates the location information for each portable terminal acquired by the portable terminal monitoring unit 12 and the wireless power for each individual cell calculated by the individual cell control unit 13 in association with each other. In addition, for each individual user, there is provided an individual data recording means for recording / aggregating wireless power usage history data in each used cell range.

In the case of the portable terminal A 31 shown in FIG. 1A by referring to the history data recorded in the individual data management unit 14, the portable terminal A 31 is changed from the portable terminal A ₁ 31-1 to the portable terminal A. ₂ 31-2 → mobile terminal A ₃ 31-3, changing to corridor 24 → lower left area of ROOM1 21 → right center area of ROOM1 21 but moving to ROOM2 22 and ROOM3 23 And the wireless power radiated from the directional antenna 11 in each individual cell 101, 102, 103 in the hallway 24, the lower left area of the ROOM1 21 and the right center area of the ROOM1 21 can be determined. it can.

In the case of the portable terminal B 32 shown in FIG. 1B, the portable terminal B ₁ 32-1 → the portable terminal B ₂ 32-2 → the portable terminal B ₃ 32-3 → the portable terminal B ₄ 32-4. It has been changed to Corridor 24 → Lower left area of ROOM 1 21 → Right center area of ROOM 1 21 → ROOM 2 22, but it is understood that it has not moved to ROOM 3 23, and corridor 24 and ROOM 1 21 are moved. The radio power radiated from the directional antenna 11 in each of the individual cells 101, 102, 103, and 104 of the ROOM 1 22 and the ROOM 2 21 can be determined.

(Description of operation of embodiment)
Next, an example of the operation of the femtocell base station 10 shown in FIG. 2 will be described using the operation explanatory diagram of FIG. FIG. 3 is an operation explanatory diagram for explaining an example of the operation of the femtocell base station shown in FIG. FIG. 3 (A) shows that a mobile terminal permitted to communicate indoors enters each area (corridor 24, ROOM1 21, ROOM2 22, ROOM3 23, etc.) covered by each individual cell in the house 20 for the first time. The operation in the case of not using the usage history data of the individual data management unit 14 that records the communication history (individual data related to location information and wireless power amount) of each mobile terminal as usage history data is shown. Show. FIG. 3B shows an operation when a mobile terminal permitted to communicate indoors enters each area in the house 20 where the mobile terminal has entered in the past. The operation in the case of using the usage history data of the individual data management unit 14 that records the history as usage history data is shown.

  First, as in the case of FIG. 3A, an operation when the usage history data of the individual data management unit 14 that records the communication history (individual data) of each mobile terminal as usage history data is not used will be described. . This operation is the same as that in the case of a conventional indoor wireless communication system, and as shown in the thick arrow line A, transmission / reception of each mobile terminal is performed periodically at a predetermined cycle. The communication quality of data is monitored by the portable terminal monitoring unit 12, and based on the monitoring result, the individual cell control unit 13 calculates wireless power for ensuring the wireless communication quality of each portable terminal, and periodically In addition, the wireless power control operation for controlling the directional antenna 11 is repeated. The wireless power of the radio wave at the position where each mobile terminal was present is sequentially recorded in the individual data management unit 14 as the first use history data.

  On the other hand, when using the usage history data of the individual data management unit 14 that records the communication history (individual data) of each mobile terminal as usage history data as in the case of FIG. As shown in line processing B, the optimum wireless power corresponding to the location of each portable terminal is obtained by performing semi-fixed wireless power control using the individual data recorded in the individual data management unit 14. Can be efficiently processed, and the load applied to the wireless power control operation can be reduced without performing an operation that is periodically repeated as in the case of FIG.

  That is, as the individual data recorded by the individual data management unit 14, the setting of the wireless power measured as the optimum transmission / reception wireless power amount in the past indoor wireless communication for each portable terminal (each user) in units of individual cells. The value is recorded. Therefore, the process B in FIG. 3B, that is, the wireless power control operation for each mobile terminal, has moved across the individual cells such as the individual cells 101, 102, 103, 104,. At this time, the operation may be performed as an operation of selecting and setting the maximum wireless power among the past wireless power in the moved individual cell recorded as the individual data by the individual data management unit 14.

  Only when the mobile terminal monitoring unit 12 detects that the communication quality of the transmission / reception data of each mobile terminal is not in the optimal communication state, the individual cell control unit 13 is in the optimal communication state. The wireless power of each individual cell in the direction in which each mobile terminal is present is readjusted to radiate the radio wave from the directional antenna 11, and the wireless radio wave after adjustment at the position where each mobile terminal exists The power is recorded in the individual data management unit 14 as usage history data.

  By performing the control as described above, the normal operation is to move between the individual cells such as the individual cells 101, 102, 103, 104,... (Moved from the outdoor 25 to the individual cells inside the house 20). Only when the mobile terminal monitoring unit 12 detects the mobile terminal monitoring unit 12, the indoor wireless of the mobile terminal in the moved individual cell is referred to by referring to the past individual data related to the mobile terminal in the moved individual cell. What is necessary is just to reset as radio | wireless power optimal for communication, and it is not necessary to implement the radio | wireless power control operation | movement which calculates and sets the optimal radio | wireless power amount regularly and repeatedly regularly.

For example, as illustrated in FIG. 1B, the mobile terminal B 32 is a mobile terminal B ₁ 32-1 → a mobile terminal B ₂ 32-2 → a mobile terminal B ₃ 32-3 → a mobile terminal B ₄ 32-4. and change, when moved to the right center area → ROOM2 22 in the lower left region → ROOM1 21 corridor 24 → ROOM1 21, first, the mobile terminal B 32 is, the portable terminal _B 1 32-1 and corridor 24 When the mobile terminal monitoring unit 12 recognizes that the mobile terminal B has changed to a moved state, the individual data management unit supplies the wireless power necessary for the individual cell 101 covering the mobile terminal B 32 at the position of the mobile terminal B ₁ 32-1. 14 to read.

  Next, the individual data management unit 14 extracts the maximum wireless power in the individual cell 101 from the past history data (individual data) recorded as the necessary wireless power in the individual cell 101 for the mobile terminal B 32. Thus, the individual cell control unit 13 controls the directional antenna 11 as the optimum wireless power for indoor wireless communication of the mobile terminal B 32 in the individual cell 101. The wireless power is obtained based on past history data, and is a semi-fixed value.

  Thereafter, as long as the mobile terminal B 32 exists in the hallway 24 and is in the coverage area of the individual cell 101, the wireless power set in the direction of the directional antenna 11 toward the individual cell 101 will be described. The state of radiating wireless radio waves will continue as it is.

Thereafter, the mobile terminal B 32 moves from the mobile terminal B ₁ 32-1 to the mobile terminal B ₂ 32-2, and the mobile terminal moves from the individual cell 101 to the individual cell 102. When detected by the monitoring unit 12, the individual data management unit 14 again selects individual pieces of past history data (individual data) recorded as necessary wireless power in the individual cell 102 for the portable terminal B 32. The maximum wireless power in the cell 102 is extracted, and the directional antenna 11 is controlled by the individual cell control unit 13 as the optimum wireless power for indoor wireless communication of the mobile terminal B 32 in the individual cell 102. Thereafter, the same control is repeated, and when the mobile terminal B 32 shifts to the state of the mobile terminal B ₂ 32-2 → the mobile terminal B ₃ 32-3, the mobile terminal B ₃ 32-3 → the mobile terminal B ₄ 32- 4, that is, only when movement between individual cells occurs, the wireless power is reset, and when there is no movement between cells, wireless power control is not performed at all. Absent.

  For broadcast data that does not specify the mobile terminal of the transmission destination or broadcast information for registering the location of the mobile terminal, the individual data management unit 14 records each mobile terminal as past individual history data. Transmission to an area including all cell ranges in units of individual cells may be performed, and output of useless radio waves to an area that has never existed in the past may be restricted.

(Explanation of effect of embodiment)
As described in detail above, according to the present embodiment, the following effects can be obtained.

  In the present embodiment, unlike a conventional ordinary indoor wireless communication system, wireless power control is not performed periodically at all times, and the mobile terminal moves from the outside to an individual cell inside the house 20. Only when moving between individual cells indoors or indoors, optimal wireless power settings are made based on past usage history data, so the processing load for wireless power control can be reduced and Electricity can be efficiently achieved. Because, unlike a base station that covers a wide area, such as a macrocell base station, a femtocell base station has a very small coverage as a femtocell, and there are few factors that cause deterioration in radio quality as a communication environment. This is because there is little need to ensure wireless quality by always monitoring periodically, measuring wireless power, and resetting the wireless power based on the measurement result.

  Thus, since it is not necessary to perform a steady process periodically performed as the wireless power control operation, it is possible to reduce the processing load and improve the processing capability of the femtocell base station.

  Furthermore, by managing past individual data of portable terminals that are permitted for indoor wireless communication, it is possible to limit the transmission range including broadcast data such as notification information to the indoors of the house 20 only. It is also possible to avoid external access from unknown portable terminals that are not permitted.

(Other embodiments of the present invention)
In the above-described embodiment, it is assumed that the femtocell base station is used as the indoor wireless communication system. However, the present invention is not limited to such a case, and can be permitted by the femtocell base station. If the number of users is set to be equal to the number of users, the same wireless power control operation can be applied to microcell base stations that cover microcells in a wider area than femtocells. Is possible.

The configuration of the preferred embodiment of the present invention has been described above. However, it should be noted that such examples are merely illustrative of the invention and do not limit the invention in any way. Those skilled in the art will readily understand that various modifications and changes can be made according to a specific application without departing from the gist of the present invention. For example, the embodiment of the present invention can be expressed as the following configuration in addition to the configuration (1) in the means for solving the problems.
(2) The femtocell base station records, as usage history data, portable terminal monitoring means for detecting the portable terminal existing in the individual cell indoor, and past wireless power for each portable terminal for each individual cell. And an individual data recording means that, when the portable terminal monitoring means detects that the portable terminal has moved to the individual cell, the power control means is recorded by the individual data recording means Referring to the usage history data, confirm whether the mobile terminal has existed in the individual cell to which the mobile terminal has moved, and if there is a record that has existed in the individual cell, From the usage history data, the radio power of the radio wave optimum for the mobile terminal is extracted in the individual cell, and the extracted radio power of the optimum radio wave is set. When there is no record that the mobile terminal has existed in the individual cell to which the mobile terminal has moved as the usage history data, or the mobile terminal monitoring means communicates with the mobile terminal in the individual cell. The power control means adjusts and sets the radio power of the radio wave optimal for the mobile terminal in the individual cell and sets the radio power of the optimal radio wave set. The indoor wireless communication system according to (1), wherein the individual data recording means sequentially records the use history as the usage history data.
(3) The power control unit includes the portable unit in the individual cell recorded as the usage history data by the individual data recording unit as wireless power of radio waves optimal for the portable terminal extracted from the usage history data. The indoor wireless communication system according to (2), wherein the wireless power of the maximum wireless radio wave is extracted from the wireless power of the wireless radio wave related to the terminal.
(4) When transmitting broadcast data and broadcast information for location registration to all the mobile terminals existing in each individual cell without specifying the transmission destination mobile terminal, the individual data recording Transmitting to the area including all of the individual cells of each portable terminal recorded by the means using the wireless power of the maximum radio wave recorded in the past for each individual cell ( The indoor wireless communication system according to 2) or (3).
(5) A directional antenna that is a femtocell base station that performs wireless communication with a portable terminal that is permitted indoor communication among portable terminals that exist in an indoor femtocell, and that has directivity for radiated radio waves. And at least power control means for controlling radio power for each individual cell in which the femtocell is divided into a plurality of regions according to the direction of radio waves radiated from the directional antenna. Means for covering an area covered by a radio wave radiated from the directional antenna indoors where the femtocell base station is installed and a portable terminal permitted to communicate indoors with the femtocell base station; A femtocell base station that limits the range of the individual cell in the past that has existed in the past.
(6) Wireless power in a femtocell base station that performs wireless communication using a directional antenna having directivity for wireless radio waves with a mobile terminal that is permitted indoor communication among mobile terminals existing in an indoor femtocell In the control method, the femtocell base station controls the radio power for each individual cell in which the femtocell is divided into a plurality of regions according to a direction of a radio wave radiated from the directional antenna. In addition, the area covered by the radio wave radiated from the directional antenna is an indoor area where the femtocell base station is installed and a portable terminal that is permitted indoor communication with the femtocell base station A wireless power control method for restricting to the range of the individual cell in the indoor.
(7) When the femtocell base station records the past wireless power for each portable terminal as usage history data for each individual cell, and detects that the portable terminal has moved to the individual cell, With reference to the recorded usage history data, it is confirmed whether or not the mobile terminal has existed in the individual cell to which the mobile terminal has moved, and there is a record that has existed in the individual cell in the past. In the individual cell, the wireless power of the optimum radio wave for the mobile terminal is extracted from the usage cell data and set to the optimum wireless power of the extracted optimum radio wave. On the other hand, as the usage history data When there is no record that the mobile terminal has existed in the individual cell to which the mobile terminal has moved, or the communication quality with the mobile terminal in the individual cell is optimal. If it is detected that the wireless power of the individual cell is not adjusted, the wireless power of the optimal radio wave is adjusted and set for the mobile terminal, and the set wireless power of the optimal radio wave is sequentially recorded as the usage history data. The wireless power control method according to (6) above.
(8) As the radio power of the radio wave optimum for the mobile terminal extracted from the use history data, the radio power of the radio wave related to the mobile terminal in the individual cell recorded as the use history data is the largest The wireless power control method according to (7), wherein the wireless power of the wireless radio wave is extracted.
(9) A wireless power control program in which the wireless power control method according to any one of (6) to (8) is implemented as a program executable by a computer.
(10) A program recording medium in which the wireless power control program of (9) is recorded on a computer-readable recording medium.

10 Femtocell base station 11 Antenna (directional antenna)
12 Mobile terminal monitoring unit 13 Individual cell control unit 14 Individual data management unit 20 Housing 21 ROOM1
22 ROOM2
23 ROOM3
24 Corridor 25 Outdoor 31 Mobile device A
31-1 Mobile terminal A ₁
31-2 mobile terminal A ₂
31-3 Mobile terminal A ₃
32 Mobile terminal B
32-1 Mobile Terminal B ₁
32-2 Mobile terminal B ₂
32-3 Mobile terminal B ₃
32-4 Mobile terminal B ₄
33 Mobile terminal C
40 Femtocell base station 41 Antenna 101 Dedicated cell 102 Dedicated cell 103 Dedicated cell 104 Dedicated cell 400 Femtocell

Claims (10)

An indoor wireless communication system including a femtocell base station that performs wireless communication with a mobile terminal that is permitted indoor communication among mobile terminals existing in an indoor femtocell,
The femtocell base station includes a directional antenna having directivity for a radiating radio wave, and each individual cell in which the femtocell is divided into a plurality of areas according to the direction of the radio wave radiated from the directional antenna. And at least power control means for controlling the wireless power for each
The power control means is configured to cover an area covered by radio waves radiated from the directional antenna indoors where the femtocell base station is installed, and indoor communication with the femtocell base station is permitted. The mobile terminal is limited to the range of the individual cell in the indoor where the mobile terminal existed in the past ,
The femtocell base station includes portable terminal monitoring means for detecting the portable terminal existing in the individual cell indoor, and individual data for recording past wireless power for each portable terminal as usage history data for each individual cell. And a recording means,
When the mobile terminal monitoring means detects that the mobile terminal has moved to the individual cell, the power control means refers to the usage history data recorded by the individual data recording means, and Check whether the mobile terminal has existed in the individual cell where the mobile terminal has moved,
When there is a record that has existed in the past in the individual cell, the power control means extracts the radio power of the radio wave optimal for the mobile terminal in the individual cell from the usage history data, and extracts the optimum Set to the wireless power of the
On the other hand, when there is no record that the mobile terminal has existed in the individual cell to which the mobile terminal has moved as the usage history data, or communication with the mobile terminal in the individual cell by the mobile terminal monitoring unit When it is detected that the quality is not optimal, the power control means adjusts and sets the radio power of the radio wave optimal for the mobile terminal in the individual cell and sets the radio of the optimal radio wave set. It is further characterized by sequentially recording power as the usage history data by the individual data recording means,
The power control means is a radio relating to the portable terminal in the individual cell recorded by the individual data recording means as the usage history data as the wireless power of the radio wave optimal for the portable terminal extracted from the usage history data. An indoor wireless communication system further characterized by extracting the wireless power of the maximum wireless radio wave from the wireless power of the radio wave . When broadcasting data or broadcast information for location registration is transmitted to all the mobile terminals existing in each individual cell without specifying the transmission destination mobile terminal, recording is performed by the individual data recording unit. Transmitting to the region including all of the individual cells of each portable terminal using the wireless power of the maximum radio wave recorded in the past for each of the individual cells. The indoor wireless communication system according to claim 1 . The range of the indoor individual cell in which the mobile terminal has existed in the past includes the individual cell detected by the mobile terminal monitoring means that the mobile terminal has moved. The indoor wireless communication system according to 1 or 2. A femtocell base station that performs wireless communication with a mobile terminal that is permitted indoor communication among mobile terminals existing in an indoor femtocell,
A directional antenna having directivity for a radiating radio wave, and the radio power is controlled for each individual cell in which the femtocell is divided into a plurality of regions according to the direction of the radio wave radiated from the directional antenna. And at least power control means,
The power control means is configured to cover an area covered by radio waves radiated from the directional antenna indoors where the femtocell base station is installed, and indoor communication with the femtocell base station is permitted. The mobile terminal is limited to the range of the individual cell in the indoor where the mobile terminal existed in the past,
Portable terminal monitoring means for detecting the portable terminal existing in the individual cell indoors, and individual data recording means for recording past wireless power for each portable terminal as usage history data for each individual cell,
When the mobile terminal monitoring means detects that the mobile terminal has moved to the individual cell, the power control means refers to the usage history data recorded by the individual data recording means, and Check whether the mobile terminal has existed in the individual cell where the mobile terminal has moved,
When there is a record that has existed in the past in the individual cell, the power control means extracts the radio power of the radio wave optimal for the mobile terminal in the individual cell from the usage history data, and extracts the optimum Set to the wireless power of the
On the other hand, when there is no record that the mobile terminal has existed in the individual cell to which the mobile terminal has moved as the usage history data, or communication with the mobile terminal in the individual cell by the mobile terminal monitoring unit When it is detected that the quality is not optimal, the power control means adjusts and sets the radio power of the radio wave optimal for the mobile terminal in the individual cell and sets the radio of the optimal radio wave set. It is further characterized by sequentially recording power as the usage history data by the individual data recording means,
The power control means is a radio relating to the portable terminal in the individual cell recorded by the individual data recording means as the usage history data as the wireless power of the radio wave optimal for the portable terminal extracted from the usage history data. A femtocell base station further characterized by extracting the radio power of the maximum radio wave from the radio power of the radio wave . When broadcasting data or broadcast information for location registration is transmitted to all the mobile terminals existing in each individual cell without specifying the transmission destination mobile terminal, recording is performed by the individual data recording unit. Transmitting to the region including all of the individual cells of each portable terminal using the wireless power of the maximum radio wave recorded in the past for each of the individual cells. The femtocell base station according to claim 4. A wireless power control method in a femtocell base station that performs wireless communication using a directional antenna having directivity for radio waves with a portable terminal that is permitted indoor communication among portable terminals existing in an indoor femtocell. There,
When the femtocell base station controls the radio power for each individual cell in which the femtocell is divided into a plurality of regions according to the direction of radio waves radiated from the directional antenna, the directional antenna The indoor area where the femtocell base station is installed and the portable terminal permitted to communicate indoors with the femtocell base station exists in the past in the area covered by the radio wave radiated from Limited to within the range of the individual cells of
The femtocell base station records past wireless power for each mobile terminal as usage history data for each individual cell,
When it is detected that the mobile terminal has moved to the individual cell, the mobile terminal has previously existed in the individual cell to which the mobile terminal has moved with reference to the recorded usage history data. Check whether or not
If there is a record that existed in the past in the individual cell, the wireless power optimum for the mobile terminal is extracted from the usage history data in the individual cell, and the extracted optimum wireless radio power is extracted. Set to
On the other hand, when there is no record that the mobile terminal has existed in the individual cell where the mobile terminal has moved as the usage history data, or the communication quality with the mobile terminal in the individual cell is not optimal. Is detected and adjusted to the radio power of the radio wave optimum for the mobile terminal in the individual cell, and the set radio power of the radio radio wave is sequentially recorded as the usage history data. Is further characterized
As the radio power of the radio wave optimal for the mobile terminal extracted from the use history data, the radio power of the maximum radio wave among the radio power of the radio wave related to the mobile terminal in the individual cell recorded as the use history data A wireless power control method further comprising extracting wireless power. When transmitting broadcast data and broadcast information for location registration to all the mobile terminals existing in each individual cell without specifying the mobile terminal of the transmission destination, 7. The terminal according to claim 6, wherein transmission is performed using radio power of a maximum radio wave recorded in the past for each individual cell to an area including all of the individual cells of the terminal. Wireless power control method. The said individual cell detected that the said portable terminal moved is contained in the range of the said individual cell in the indoor where the said portable terminal existed in the past, The Claim 6 or 7 characterized by the above-mentioned. Wireless power control method.   9. A wireless power control program, wherein the wireless power control method according to claim 6 is implemented as a program executable by a computer.   A program recording medium, wherein the wireless power control program according to claim 9 is recorded on a computer-readable recording medium.

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