JP6706217B2 - Terminal information collecting device, wireless communication system, terminal information collecting method, and computer program - Google Patents

Description

The present invention relates to a terminal information collecting device, a wireless communication system, a terminal information collecting method, and a computer program.

2. Description of the Related Art Conventionally, there is known a technique of specifying a position of a user of a wireless device existing in a facility and setting communication conditions (for example, refer to Patent Document 1).

JP, 2014-143611, A

In this conventional technique, the user of the wireless terminal manually inputs the seat position in the facility to specify the position of the user of the wireless terminal and set the communication condition.
However, the above-described conventional technique has a problem that the communication condition cannot be appropriately set for the terminal device existing in a place where there is no seat in the facility.

The present invention has been made in consideration of such circumstances, and an object of the present invention is to identify the position of a terminal device in a facility by specifying the position of a terminal device existing in a place where there is no seat in the facility. It is to improve communication quality.

(1) According to one aspect of the present invention, an antenna position information storage unit that stores antenna position information indicating respective positions of antennas of a plurality of base stations, an antenna of a base station to which a terminal device transmits and receives radio signals, and the terminal device. An inter-terminal-antenna distance information acquisition unit that acquires terminal-antenna distance information indicating a distance between the terminal device, a terminal communication quality information acquisition unit that acquires terminal communication quality information indicating communication quality of the terminal device, and the terminal device. When the antenna of the base station that transmits and receives radio signals is switched, the terminal position information of the antennas of the plurality of base stations that the terminal device transmits and receives radio signals, and between the terminal antennas of the antennas of the plurality of base stations. Using the distance information, a terminal position information calculation unit that calculates terminal position information indicating the position of the terminal device, a terminal information recording unit that records the terminal position information and the terminal communication quality information in association with each other, And the terminal-antenna-distance information acquisition unit determines that the terminal communication quality information of the terminal device indicates a communication quality that is worse than a reference communication quality, the base station with which the terminal device is communicating. Is a terminal information collecting device that requests a forced handover of the terminal device to the.

(2) One aspect of the present invention includes a plurality of base station antennas, the terminal information collecting device according to (1) above, and a control device, wherein the control device has terminal positions collected by the terminal information collecting device. The wireless communication system includes a communication capacity adjusting unit that adjusts the communication capacity of each antenna based on information and terminal communication quality information.
(3) In one aspect of the present invention, in the wireless communication system according to (2), the communication capacity adjusting unit determines the antenna based on the number of persons accommodated in the facility where the antennas of the plurality of base stations are installed. It is a wireless communication system that executes plan data of communication capacity for each and resets the communication capacity of each antenna based on terminal position information and terminal communication quality information collected by the terminal information collecting device.
(4) One aspect of the present invention is the wireless communication system according to (2) or (3), wherein the control device is based on terminal position information and terminal communication quality information collected by the terminal information collecting device, The wireless communication system further includes a station placement planning unit that generates change planning data for the base station.

(5) According to one aspect of the present invention, an antenna position information storing step in which a terminal information collecting device stores antenna position information indicating respective positions of antennas of a plurality of base stations in an antenna position information storage unit, and the terminal information collecting A terminal device inter-antenna distance information acquisition step of acquiring inter-terminal antenna distance information indicating the distance between the terminal device and the antenna of the base station where the terminal device transmits and receives radio signals, and the terminal information collecting device, A terminal communication quality information acquisition step of acquiring terminal communication quality information indicating communication quality of the terminal device, and the terminal information collection device, when the terminal device switches the antenna of the base station transmitting and receiving radio signals, A terminal position indicating the position of the terminal device by using the antenna position information of the antennas of the plurality of base stations through which the terminal device transmits and receives radio signals and the inter-terminal antenna distance information of the antennas of the plurality of base stations. A terminal information collecting method comprising: a terminal position information calculating step of calculating information; and a terminal information recording step in which the terminal information collecting device records the terminal position information and the terminal communication quality information in association with each other, When the terminal information collection device determines that the terminal communication quality information of the terminal device indicates a communication quality that is worse than the reference communication quality, the terminal device is communicated to the base station with which the terminal device is communicating. Is a terminal information collection method for requesting forced handover of the above.

(6) One embodiment of the present invention is an antenna position information storage function for storing in a computer antenna position information indicating respective positions of antennas of a plurality of base stations, and an antenna of a base station through which a terminal device transmits and receives radio signals. A terminal-antenna distance information acquisition function for acquiring terminal-antenna distance information indicating the distance to the terminal device, and a terminal communication quality information acquisition function for acquiring terminal communication quality information indicating communication quality of the terminal device, When the terminal device switches the antenna of the base station that transmits and receives radio signals, the terminal position information of the antennas of the plurality of base stations that the terminal device transmits and receives radio signals, and the antenna of the plurality of base stations Using terminal distance information between terminal antennas, a terminal position information calculation function for calculating terminal position information indicating the position of the terminal device, and a terminal information record for recording the terminal position information and the terminal communication quality information in association with each other. And a computer program for realizing the function , wherein the terminal antenna inter-distance information acquisition function determines that the terminal communication quality information of the terminal device indicates communication quality that is worse than the reference communication quality, A computer program for requesting a forced handover of the terminal device to a base station with which the terminal device is communicating .

According to the present invention, it is possible to specify the position of a terminal device existing in a place where there is no seat in the facility. This can contribute to improving the communication quality in the facility.

It is a figure which shows the structural example of the wireless communication system 1 which concerns on one Embodiment. It is a block diagram showing an example of functional composition of terminal information collection device 10 concerning one embodiment. It is a figure which shows the structural example of the antenna position list 121 which concerns on one Embodiment. It is a figure which shows the structural example of the terminal information 124 which concerns on one Embodiment. It is a block diagram showing an example of functional composition of control device 30 concerning one embodiment. It is a flow chart which shows an example of a terminal information collection method concerning one embodiment. It is explanatory drawing of the terminal position information calculation method which concerns on one Embodiment. It is explanatory drawing of the terminal information acquisition method which concerns on one Embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a diagram showing a configuration example of a wireless communication system 1 according to an embodiment. In FIG. 1, the wireless communication system 1 includes a base station (not shown), an antenna 3 of the base station, a terminal device 5, a terminal information collecting device 10, and a control device 30. The antenna of the base station (hereinafter, simply referred to as an antenna) 3 is provided inside the facility 50. A plurality of antennas 3 are provided inside the facility 50. The base station, the terminal information collection device 10, and the control device 30 may be provided inside the facility 50, or may be provided outside the facility 50. The plurality of antennas 3 provided in the facility 50 may all be the antennas 3 of the base stations of the same wireless communication system, or the antennas 3 of the base stations of the plurality of wireless communication systems may be mixed. Examples of the wireless communication system include an LTE (Long Term Evolution) system (TDD (Time Division Multiple Access) system or FDD (Frequency Division Duplex)-LTE system), and a wireless LAN (Local Area Network) system.

The terminal device 5 transmits/receives a radio signal to/from any of the antennas 3. The terminal device 5 communicates with a base station connected to the antenna 3 via the antenna 3 that transmits and receives a radio signal. The terminal device 5 communicates with another terminal device 5 via a base station, or communicates with a server device included in the wireless communication system 1, or the Internet or the like connected to the wireless communication system 1. Communicates with the device of the communication partner via the communication network of.

The terminal information collection device 10 is connected to a base station connected to the antenna 3 and communicates with the base station. The control device 30 is connected to a base station connected to the antenna 3 and communicates with the base station. The terminal information collection device 10 and the control device 30 are connected. The terminal information collection device 10 and the control device 30 communicate with each other.

The facility 50 accommodates a plurality of people. Examples of the facility 50 include a stadium, a dome-shaped stadium, and a hall.

FIG. 2 is a block diagram showing a functional configuration example of the terminal information collection device 10 according to the present embodiment. 2, the terminal information collection device 10 includes a communication unit 101, a terminal antenna distance information acquisition unit 102, a terminal communication quality information acquisition unit 103, a terminal position information calculation unit 104, a terminal information recording unit 105, And a data storage unit 120. The data storage unit 120 stores an antenna position list 121, terminal-antenna distance information 122, terminal communication quality information 123, and terminal information 124.

The functions of the terminal information collecting device 10 are realized by a CPU (Central Processing Unit) included in the terminal information collecting device 10 executing a computer program. The terminal information collecting device 10 may be configured by using a general-purpose computer device or may be configured as a dedicated hardware device.

The communication unit 101 communicates with a device external to the terminal information collection device 10. The communication unit 101 communicates with a base station connected to the antenna 3. The communication unit 101 also communicates with the control device 30.

The inter-terminal antenna distance information acquisition unit 102 acquires the inter-terminal antenna distance information 122. The terminal-antenna distance information 122 is information indicating the distance between the terminal 3 and the antenna 3 through which the terminal device 5 transmits/receives a wireless signal.

The terminal communication quality information acquisition unit 103 acquires the terminal communication quality information 123. The terminal communication quality information 123 is information indicating the communication quality of the terminal device 5. The terminal communication quality information 123 is information indicating at least the communication quality within the facility 50. For example, the terminal communication quality information acquisition unit 103 acquires the terminal communication quality information 123 of the terminal device 5 from the base station with which the terminal device 5 communicates. The terminal communication quality information 123 acquired from the base station includes, for example, the throughput of the terminal device 5, the round-trip time (RTT) of the terminal device 5, and the like. The terminal communication quality information acquisition unit 103 uses, as the terminal communication quality information 123 of the terminal device 5, the Web display time taken for displaying the Web page when the terminal device 5 accesses the Web (Web) site, to the base station. You may acquire from the said terminal device 5 via. The terminal communication quality information 123 may be a measured value or a statistical value (for example, average value, maximum value, minimum value, standard deviation, etc.).

The terminal position information calculation unit 104 calculates the terminal position information. The terminal position information is information indicating the position of the terminal device 5. The terminal location information is information that identifies at least the location within the facility 50. When the terminal device 5 switches the antenna 3 for transmitting/receiving a wireless signal, the terminal position information calculating unit 104, and antenna position information indicating each position of the plurality of antennas 3 for transmitting/receiving the wireless signal by the terminal device 5, The terminal position information of the terminal device 5 is calculated using the terminal-antenna distance information 122 of the plurality of antennas 3 related to the terminal device 5. The antenna position list 121 describes antenna position information indicating each position of the plurality of antennas 3. The antenna position information is information indicating the position of the antenna 3. The antenna position information is information that specifies at least the position within the facility 50.

The terminal information recording unit 105 records the terminal position information of the terminal device 5 and the terminal communication quality information 123 of the terminal device 5 in the terminal information 124 in association with each other. The terminal information recording unit 105 further identifies the terminal position information of the terminal device 5 and the terminal communication quality information 123 of the terminal device 5, and further identifies the terminal device 5 (terminal ID) or the user of the terminal device 5. The information (terminal user ID) or both the terminal ID of the terminal device 5 and the terminal user ID of the terminal device 5 may be associated and recorded in the terminal information 124.

FIG. 3 is a diagram showing a configuration example of the antenna position list 121 according to the present embodiment. The antenna position list 121 is a list of antenna position information indicating the position of the antenna 3. In FIG. 3, the antenna position list 121 describes the identification information (antenna ID) of the antenna 3 and the antenna position information indicating the position of the antenna 3 in association with the antenna ID.

FIG. 4 is a diagram showing a configuration example of the terminal information 124 according to this embodiment. The terminal information 124 is information including the terminal position information of the terminal device 5 and the terminal communication quality information 123 of the terminal device 5. In FIG. 4, the terminal information 124 includes a terminal ID of the terminal device 5, a terminal user ID of the terminal device 5, terminal position information of the terminal device 5, and terminal communication quality information 123 of the terminal device 5. It is stored in association.

FIG. 5 is a block diagram showing a functional configuration example of the control device 30 according to the present embodiment. In FIG. 5, the control device 30 includes a communication unit 300, a communication capacity adjustment unit 301, and a station placement planning unit 302.

The function of the control device 30 is realized by the CPU included in the control device 30 executing a computer program. The control device 30 may be configured by using a general-purpose computer device or may be configured as a dedicated hardware device.

The communication unit 300 communicates with a device outside the control device 30. The communication unit 300 communicates with a base station connected to the antenna 3. In addition, the communication unit 300 communicates with the terminal information collection device 10.

The communication capacity adjustment unit 301 adjusts the communication capacity of each antenna 3 based on the terminal position information and the terminal communication quality information 123 collected by the terminal information collecting device 10. As an example 1 of this embodiment, the communication capacity of the antenna 3 is expressed by the following equation.
"Communication capacity of one antenna 3" = "estimated average throughput per user" x "maximum number of simultaneous users per antenna"

In the communication capacity example 1 of the antenna 3, the “estimated average throughput per user” and the “maximum number of simultaneously accommodated users per antenna” are parameters that determine the “communication capacity of one antenna 3”. .. As an example of the present embodiment, the estimated average throughput per user is determined according to the content of the event held at the facility 50. Alternatively, the estimated average throughput per user may be determined according to the throughput measurement value in the facility 50 during the event.

The communication capacity of one antenna 3 changes as the maximum number of simultaneously accommodated users per antenna changes. For example, when there is an area in the facility 50 that is determined to have a short communication capacity based on the terminal location information and the terminal communication quality information 123, the communication capacity adjusting unit 301 has the area in the coverage. The communication capacity of the antenna 3 is increased by increasing the maximum number of simultaneously accommodated users per antenna with respect to the antenna 3. This makes it possible to increase the communication capacity of the area and solve the shortage of the communication capacity.

For example, when there is an area in the facility 50 in which the communication capacity is determined to be excessive based on the terminal location information and the terminal communication quality information 123, the communication capacity adjustment unit 301 has an antenna having the area in the coverage. The communication capacity of the antenna 3 is reduced by reducing the maximum number of simultaneously accommodated users per antenna with respect to 3. This makes it possible to reduce the communication capacity of the area and adjust it to an appropriate communication capacity.

As another example 2 of this embodiment, the communication capacity of the antenna 3 may be the communication transmission amount per antenna. For example, the communication capacity adjustment unit 301 adjusts the communication capacity of each antenna 3 by setting an upper limit of the communication transmission amount per antenna for a fixed period for each antenna 3. In Example 2 of the communication capacity of the antenna 3, the “upper limit of the communication transmission amount per antenna in a certain period” is a parameter that determines the “communication capacity of one antenna 3”.

The communication capacity adjustment unit 301 may adjust the communication capacity of the antenna 3 for each wireless communication method. Further, the communication capacity adjustment unit 301 may adjust the communication capacity of the antenna 3 for each radio frequency band. For example, the communication capacity adjustment unit 301 may adjust the communication capacity of the antenna 3 for each of a plurality of radio frequency bands in which the same radio communication method can be used. For example, the communication capacity adjusting unit 301 adjusts the communication capacity of the antenna 3 of the base station of the LTE system in a plurality of radio frequency bands in which the LTE system can be used, for example, 800 MHz band and 2 GHz band. Good.

The station placement planning unit 302 generates base station change plan data based on the terminal location information and the terminal communication quality information 123 collected by the terminal information collecting apparatus 10. The base station change plan data is data including information on addition, deletion, or change of base stations provided in the facility 50.

Next, a terminal information collecting method according to this embodiment will be described with reference to FIG. FIG. 6 is a flowchart showing an example of the terminal information collecting method according to this embodiment.

(Step S11) The communication capacity adjusting unit 301 of the control device 30 executes the predetermined communication capacity plan data for each antenna. The plan data of the communication capacity of one antenna 3 has an initial value of a parameter that determines the communication capacity of the antenna 3. In addition, the plan data may include initial values of parameters that determine the coverage of the antenna 3. The parameters that determine the coverage of the antenna 3 include, for example, transmission power, tilt angle, pointing direction, and the like. By this step S11, the planned value of each communication capacity is set with respect to each antenna 3 in the facility 50.

The plan data of the communication capacity of the antenna 3 in the facility 50 may be determined based on the number of people accommodated in the facility 50, for example. Further, the plan data of the communication capacity of the antenna 3 having each area within the coverage may be determined based on the number of persons accommodated in each area in the facility 50.

(Step S12) The terminal information collection device 10 acquires the terminal information 124 of each terminal device 5. An example of this terminal information acquisition method will be described.

[Example of terminal information acquisition method]
The inter-terminal antenna distance information acquisition unit 102 of the terminal information collection device 10 acquires inter-terminal antenna distance information 122 indicating the distance between the terminal device 5 and the antenna 3. The distance between the terminal device 5 and the antenna 3 can be converted from, for example, a radio propagation delay time (Round Trip Delay: RTD) between the terminal device 5 and the base station of the antenna 3. The RTD between the terminal device 5 and the base station of the antenna 3 can be acquired from the communication log held by the base station of the antenna 3. As an example of the method of converting the RTD to the distance, the terminal-antenna distance information acquisition unit 102 includes a conversion table (RTD-distance conversion table) between the RTD and the distance, and the distance corresponding to the RTD is the RTD-distance conversion table. To get from. The RTD-distance conversion table stores an RTD range and a distance corresponding to the RTD range in association with each other for each fixed RTD range. With the RTD-distance conversion table, the distance corresponding to a certain RTD can be acquired. The RTD-distance conversion table is created, for example, from actual measured values of RTD and distance. Since the speed of the radio wave in the facility 50 is constant, the distance between the antenna 3 and the terminal device 5 can be measured based on the RTD and the speed of the radio wave.

The terminal position information calculation unit 104 relates to the antenna position information of the plurality of antennas 3 that the terminal device 5 transmits and receives the radio signal and the terminal device 5 when the terminal device 5 switches the antenna 3 that transmits and receives the radio signal. Using the inter-terminal antenna distance information 122 of the plurality of antennas 3, terminal position information indicating the position of the terminal device 5 is calculated.

FIG. 7 is an explanatory diagram of the terminal position information calculation method according to the present embodiment. FIG. 7 shows one terminal device 5-X of the terminal devices 5 existing in the facility 50 and the antennas 3-A, 3-B, and 3-C of the antennas 3 in the facility 50. In FIG. 7, the terminal device 5-X first transmits and receives a radio signal to and from the antenna 3-A to communicate with the base station of the antenna 3-A. Thereby, the base station of the antenna 3-A records the RTD of the terminal device 5-X in the communication log. Then, due to the occurrence of the handover, the terminal device 5-X switches the antenna 3 for transmitting and receiving the radio signal to the antenna 3-B and communicates with the base station of the antenna 3-B. Thereby, the base station of the antenna 3-B records the RTD of the terminal device 5-X in the communication log. In the handover of the terminal device 5-X, for example, the number of the terminal devices 5 (the number of simultaneously connected terminals) simultaneously connected to the base station (the base station of the antenna 3-A) to which the terminal device 5-X is connected increases. This is performed when the communication quality between the terminal device 5-X and the base station of the antenna 3-A no longer satisfies the predetermined communication quality.

The inter-terminal antenna distance information acquisition unit 102 of the terminal information collection device 10 acquires the RTD of the terminal device 5-X recorded in the communication log from the base station of the antenna 3-A by the communication unit 101. The inter-terminal antenna distance information acquisition unit 102 converts the RTD of the terminal device 5-X acquired from the base station of the antenna 3-A into the distance d _AX . The inter-terminal antenna distance information acquisition unit 102 stores the distance d _AX in the data storage unit 120 as the inter-terminal antenna distance information 122 of the terminal device 5-X and the antenna 3-A.

Further, the terminal-antenna distance information acquisition unit 102 acquires the RTD of the terminal device 5-X recorded in the communication log from the base station of the antenna 3-B by the communication unit 101. The inter-terminal antenna distance information acquisition unit 102 converts the RTD of the terminal device 5-X acquired from the base station of the antenna 3-B into a distance d _BX . The inter-terminal antenna distance information acquisition unit 102 stores the distance d _BX in the data storage unit 120 as the inter-terminal antenna distance information 122 of the terminal device 5-X and the antenna 3-B.

The terminal position information calculation unit 104 of the terminal information collection device 10 acquires the antenna position information of the antenna 3-A and the antenna position information of the antenna 3-B from the antenna position list 121. The terminal position information calculation unit 104 includes the antenna position information of the antenna 3-A, the antenna position information of the antenna 3-B, the terminal antenna distance information 122 “distance d _AX ”of the terminal device 5-X and the antenna 3-A. And the terminal-antenna distance information 122 “distance d _BX ”of the terminal device 5-X and the antenna 3-B are used to calculate terminal position information indicating the position of the terminal device 5-X.

The terminal communication quality information acquisition unit 103 of the terminal information collection device 10 uses the communication unit 101 to acquire the terminal communication quality information 123 of the terminal device 5-X recorded in the communication log from the base station of the antenna 3-A. In addition, the terminal position information calculation unit 104 acquires the terminal communication quality information 123 of the terminal device 5-X recorded in the communication log from the base station of the antenna 3-B by the communication unit 101. Examples of the terminal communication quality information 123 acquired from the base station include the throughput of the terminal device 5-X and the round trip delay time (RTT) of the terminal device 5-X. The terminal communication quality information acquisition unit 103 stores the terminal communication quality information 123 of the terminal device 5-X in the data storage unit 120. The terminal communication quality information acquisition unit 103 uses, as the terminal communication quality information 123 of the terminal device 5-X, the Web display time taken to display the Web page when the terminal device 5-X accesses the website, You may acquire from the said terminal device 5-X via a station. The terminal communication quality information 123 may be a measured value or a statistical value (for example, average value, maximum value, minimum value, standard deviation, etc.).

The terminal information recording unit 105 includes the terminal position information of the terminal device 5-X calculated by switching from the antenna 3-A to the antenna 3-B, and the terminal device 5 acquired from the base station of the antenna 3-A. The terminal communication quality information 123 of −X and the terminal communication quality information 123 of the terminal device 5-X acquired from the base station of the antenna 3-B are associated with each other and recorded in the terminal information 124. In addition, as shown in FIG. 4, the terminal ID and the terminal user ID of the terminal device 5-X are further recorded in the terminal information 124 in association with the terminal position information and the terminal communication quality information 123 of the terminal device 5-X. Good.

The above is the description of the example of the terminal information acquisition method. The description returns to FIG.

(Step S13) The communication capacity adjustment unit 301 of the control device 30 acquires the terminal information 124 from the terminal information collection device 10 by the communication unit 300. The communication capacity adjusting unit 301 resets the communication capacity of each antenna 3 based on the terminal position information of the terminal information 124 and the terminal communication quality information 123. For example, when there is an area in the facility 50 that is determined to have a short communication capacity based on the terminal location information and the terminal communication quality information 123, the communication capacity adjusting unit 301 has the area in the coverage. Increase the communication capacity of the antenna 3. For example, when there is an area in the facility 50 that is determined to have an excessive communication capacity based on the terminal position information of the terminal information 124 and the terminal communication quality information 123, the communication capacity adjusting unit 301 covers the area. The communication capacity of the internal antenna 3 is reduced.

(Step S14) When the use of the facility 50 is completed, the process of FIG. 6 is terminated, and when the use of the facility 50 is continued, the process returns to step S12.

FIG. 8 is an explanatory diagram of the terminal information acquisition method according to the present embodiment. FIG. 8 shows the terminal devices 5-1 and 5-2 among the terminal devices 5 existing in the facility 50 and the antennas 3-D and 3-E among the antennas 3 in the facility 50. In FIG. 7, the terminal devices 5-1 and 5-2 exist in the overlapping area 1000-DE between the coverage 1000-D of the antenna 3-D and the coverage 1000-E of the antenna 3-E. The overlapping area 1000-DE is an edge area of the coverage 1000-D of the antenna 3-D and an edge area of the coverage 1000-E of the antenna 3-E. From this, the terminal devices 5-1 and 5-2 existing in the overlapping area 1000-DE are targets of the handover and are the terminal devices 5 in which switching of the antenna 3 for transmitting and receiving radio signals is likely to occur. Further, since the overlapping area 1000-DE is an edge area of the coverage, there is a high possibility that the communication quality is relatively poor. Therefore, it can be said that knowing the communication quality of the terminal devices 5-1 and 5-2 existing in the overlapping area 1000-DE is useful for improving the communication status in the facility 50.

According to the present embodiment, when the terminal device 5 switches the antenna 3 for transmitting and receiving radio signals, the terminal position information of the terminal device 5 is calculated, and the calculated terminal position information is used for the terminal communication of the terminal device 5. It is recorded in the terminal information 124 in association with the quality information 123. This contributes to recording the terminal position information and the terminal communication quality information 123 of the terminal devices 5-1 and 5-2 existing in the overlapping area 1000-DE in which switching of the antenna 3 for transmitting and receiving radio signals is likely to occur. To do. As a result, it is possible to obtain the effect of knowing the communication quality of the terminal devices 5-1 and 5-2 existing in the overlapping area 1000-DE and contributing to improving the communication status in the facility 50.

In addition, according to the present embodiment, even when the facility 50 is, for example, an indoor facility and the GPS (Global Positioning System) of the terminal device 5 cannot be used, the terminal position information of the terminal device 5 is acquired. can do. Thus, according to the present embodiment, the position of the terminal device 5 is specified without adding a measuring device or the like for specifying the position of the terminal device 5, and the position of the specified terminal device 5 and the terminal device concerned are identified. Since it can be associated with the communication quality of No. 5, for example, the communication situation such as the communication tight position and the communication quality at the time of communication tight where switching of the base station occurs can be accurately grasped at low cost. Is obtained.

As an example of the case where the terminal device 5 switches the antenna 3 for transmitting and receiving a radio signal, the terminal device 5 may be forced to execute the handover from the base station. For example, in FIG. 8, the terminal device 5-2 existing in the overlapping area 1000-DE communicates with the base station of the antenna 3-D (referred to as base station BS_3_D) via the antenna 3-D. The inter-terminal-antenna distance information acquisition unit 102 of the terminal information collection device 10 acquires the RTD of the terminal device 5-2 from the base station BS_3_D and converts the RTD into the distance, and thus the terminals of the terminal device 5-2 and the antenna 3-D. The inter-antenna distance information 122 is acquired. In addition, the terminal communication quality information acquisition unit 103 of the terminal information collection device 10 acquires the terminal communication quality information 123 of the terminal device 5-2 from the base station BS_3_D. At this time, if the terminal-antenna distance information acquisition unit 102 of the terminal information collection device 10 determines that the terminal communication quality information 123 of the terminal device 5-2 indicates communication quality that is worse than the reference communication quality, the base station It requests BS_3_D to perform a forced handover of the terminal device 5-2. Upon receiving the request for the forced handover of the terminal device 5-2, the base station BS_3_D determines whether to execute the forced handover of the terminal device 5-2. In the example of FIG. 8, the base station BS_3_D is capable of accommodating the terminal device 5-2 by the base station (referred to as the base station BS_3_E) of the antenna 3-E that is the destination of the forcible handover of the terminal device 5-2, and When the reception intensity of the radio signal from the antenna 3-E in the terminal device 5-2 satisfies the reference reception intensity, it is determined that the forced handover of the terminal device 5-2 can be executed. It is determined that the forced handover of the terminal device 5-2 cannot be executed. When the forced handover of the terminal device 5-2 can be executed, the base station BS_3_D instructs the terminal device 5-2 to perform the forced handover to the base station BS_3_E. The terminal device 5-2 executes the handover to the base station BS_3_E in response to the instruction of the forced handover to the base station BS_3_E. Thereby, the antenna 3 with which the terminal device 5-2 transmits/receives the radio signal is switched from the antenna 3-D to the antenna 3-E. The inter-terminal-antenna distance information acquisition unit 102 of the terminal information collection device 10 acquires the RTD of the terminal device 5-2 from the base station BS_3_E and converts the RTD into the distance, and thus the terminals of the terminal device 5-2 and the antenna 3-E. The inter-antenna distance information 122 is acquired. In addition, the terminal communication quality information acquisition unit 103 of the terminal information collection device 10 acquires the terminal communication quality information 123 of the terminal device 5-2 from the base station BS_3_E. As a result, the terminal information collection device 10 can acquire the information on the location having the communication quality worse than the reference communication quality and the information on the poor communication quality. The procedure of the forced handover of the terminal device 5-2 is preferably executed in a situation where the terminal device 5-2 hardly moves. For this reason, the forced handover procedure may be completed within a predetermined time.

[Modification 1 of communication capacity adjustment method]
When resetting the communication capacity of the antenna 3, the communication capacity adjusting unit 301 selects the terminal apparatus 5 that is not expected to improve the communication quality among the terminal apparatuses 5 that are communicating with the base station via the antenna 3. to decide. In this determination, the terminal device 5 having a required communication capacity that does not fit in the communication capacity after the resetting of the antenna 3 is determined. The communication capacity adjusting unit 301 allows the communication unit 300 to, via the base station of the antenna 3, for the terminal device 5 in which improvement in communication quality is not expected, a base of another wireless communication system different from the base station of the antenna 3. Notify to select the antenna 3 of the station. For example, the communication capacity adjusting unit 301 is a wireless LAN base station (access point) such as “Wi-Fi (registered trademark)” for the terminal device 5 that selects the antenna 3 of the LTE base station. The communication unit 300 transmits a notification message to the wireless LAN connection application of the terminal device 5 so as to select the antenna 3. Thus, if there is a wireless LAN access point detected by the wireless LAN connection application of the terminal device 5, the wireless LAN connection application notifies the user of the terminal device 5 by notifying the switching to the wireless LAN. Then, the wireless communication system of the terminal device 5 can be prompted to switch to the wireless LAN.

[Modification 2 of communication capacity adjustment method]
The communication capacity adjusting unit 301 calculates the average value of the communication qualities of the plurality of terminal devices 5 existing in each area of the facility 50 based on the terminal position information of the terminal information 124 and the terminal communication quality information 123. calculate. The communication capacity adjusting unit 301 compares the average values of the communication qualities of the adjacent areas, and directs the pointing direction of the antenna 3 in the area having the higher average communication quality to the area having the lower average communication quality. Make it

[Modification of terminal information collection method]
The control device 30 determines, based on the terminal communication quality information 123 of the terminal device 5, whether or not the communication quality of the terminal device 5 satisfies a predetermined communication quality standard. When determining that the communication quality of the terminal device 5 does not satisfy the predetermined communication quality standard, the control device 30 causes the terminal device 5 to switch the antenna 3. After switching the antenna 3, the control device 30 causes the terminal information collecting device 10 to acquire the terminal information 124 of the terminal device 5. Accordingly, it is possible to prevent the accuracy of the information such as the inter-terminal antenna distance information 122 from being deteriorated and the accuracy of the terminal information 124 to be deteriorated by acquiring the terminal information 124 of the terminal device 5 under the condition of poor communication quality. ..

[Example of station placement planning method]
Next, an example of a base station placement planning method according to the present embodiment will be described. The station placement planning unit 302 of the control device 30 generates base station change planning data based on the terminal position information and the terminal communication quality information 123 collected by the terminal information collecting device 10. The base station change plan data (hereinafter, simply referred to as change plan data) is data including information on addition, deletion, or change of base stations provided in the facility 50. For example, the change plan data may be data including an additional arrangement of the antenna 3 of the fixed base station, or may be data including an arrangement of the antenna 3 of the fixed base station to be deleted. For example, the change plan data may be data including a movement arrangement of the mobile base station that moves together with the antenna 3 of the mobile base station. As the mobile base station, for example, a portable base station device that is carried by a person and moves in the facility 50 can be cited.

For example, when there is an area within the facility 50 that is determined to have a shortage of communication capacity based on the terminal location information and the terminal communication quality information 123, the station placement planning unit 302 has the area in the coverage. Change plan data indicating that a base station of the antenna 3 is added or that the performance of the base station of the antenna 3 having the area in the coverage is enhanced is generated. For example, when the station planning unit 302 has an area in the facility 50 that is determined to have an excessive communication capacity based on the terminal position information and the terminal communication quality information 123, the antenna having the area in the coverage is present. Change plan data indicating that the base station of No. 3 is deleted or the performance of the base station of the antenna 3 having the area in the coverage is reduced.

Note that the change plan data may include information such as the wireless communication system used by the target base station, the wireless frequency band, the radio wave intensity, and the pointing direction of the antenna 3. Examples of the wireless communication system include an LTE system (TDD system or FDD-LTE system) and a wireless LAN system.

Also, the station placement planning unit 302 causes the communication unit 300 to move the destination or movement of the operator in the facility 50 based on the change plan data to the mobile terminal of the operator carrying the portable base station device in the facility 50. The route information may be transmitted. The operator carries the portable base station device and moves based on the information of the movement destination or movement route in the facility 50 sent to his/her own mobile terminal. Thereby, the change plan data can be promptly reflected in the communication status in the facility 50.

The timing when the station placement planning unit 302 generates the change plan data may be linked to the time schedule of the event held in the facility 50. For example, the station placement planning unit 302 may generate the change plan data in accordance with the timing when the radio wave environment inside the facility 50 changes in the time schedule of the event. Examples of the timing when the radio wave environment in the facility 50 changes include the timing when a large set is rearranged or moved in a live concert at a dome-shaped stadium.
The above is the description of the example of the station placement planning method of the base station.
It should be noted that even if a plurality of layouts of venues in the facility 50 that may be used for an event held in the facility 50 are stored in advance as a database, a set of default values of the parameters of the base station (default parameter set) is prepared. Good. The base station operator may set the parameters of the base station in the event according to the venue layout of the event held in the facility 50 with reference to the corresponding default parameter set. Further, the control device 30 determines which of the default parameter sets of the facility 50 is suitable for the event based on the terminal information 124 (terminal position information and terminal communication quality information) collected when the event of the facility 50 is held, The result of the judgment may be output. The base station operator may set the parameters of the base station in the event with reference to the result of the determination. Examples of the parameters of the base station include the radio field intensity of the antenna 3, the tilt angle, the pointing direction, and the maximum number of simultaneously accommodated users.

According to the present embodiment, it is possible to specify the position even for a terminal device that exists in a place where there is no seat in the facility. As a result, the effect of contributing to the improvement of the communication quality in the facility can be obtained.

Although the embodiment of the present invention has been described in detail above with reference to the drawings, the specific configuration is not limited to this embodiment, and includes design changes and the like within a range not departing from the gist of the present invention.

A computer program for implementing the functions of the above-described devices may be recorded in a computer-readable recording medium, and the program recorded in this recording medium may be read and executed by a computer system. The “computer system” may include an OS and hardware such as peripheral devices.
The “computer-readable recording medium” is a writable non-volatile memory such as a flexible disk, a magneto-optical disk, a ROM, 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.

Further, the "computer-readable recording medium" means a volatile memory (for example, a DRAM (Dynamic) in a computer system that serves as a server or a client when a program is transmitted via a network such as the Internet or a communication line such as a telephone line. Random Access Memory)), which also holds the program for a certain period of time.
Further, the program may be transmitted from a computer system that stores the program 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 the 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 program may be a program for realizing a part of the functions described above. Further, it may be a so-called difference file (difference program) that can realize the above-mentioned functions in combination with a program already recorded in the computer system.

DESCRIPTION OF SYMBOLS 1... Wireless communication system, 3... Antenna, 5... Terminal device, 10... Terminal information collection device, 30... Control device, 101,300... Communication part, 102... Terminal inter-antenna distance information acquisition part, 103... Terminal communication quality information Acquisition unit, 104... Terminal position information calculation unit, 105... Terminal information recording unit, 120... Data storage unit, 301... Communication capacity adjustment unit, 302... Station placement planning unit

Claims (6)

An antenna position information storage unit that stores antenna position information indicating each position of the antennas of the plurality of base stations,
A terminal-antenna distance information acquisition unit that acquires terminal-antenna distance information indicating a distance between the terminal device and a base station antenna that transmits and receives a radio signal,
A terminal communication quality information acquisition unit for acquiring terminal communication quality information indicating the communication quality of the terminal device;
When the terminal device switches the antenna of the base station that transmits and receives radio signals, the terminal position information of the antennas of the plurality of base stations that the terminal device transmits and receives radio signals, and the antenna of the plurality of base stations Using terminal distance information between terminal antennas, a terminal position information calculation unit that calculates terminal position information indicating the position of the terminal device,
A terminal information recording unit that records the terminal position information and the terminal communication quality information in association with each other ;
When the terminal communication quality information of the terminal device determines that the terminal communication quality information of the terminal device indicates communication quality that is worse than the reference communication quality, the terminal device transmits information to the base station with which the terminal device is communicating. Requesting a forced handover of the terminal device,
Terminal information collection device. An antenna of a plurality of base stations, the terminal information collection device according to claim 1, and a control device,
The control device includes a communication capacity adjusting unit that adjusts the communication capacity of each antenna based on the terminal position information and the terminal communication quality information collected by the terminal information collecting device.
Wireless communication system. The communication capacity adjustment unit,
Executing the plan data of the communication capacity of each antenna determined based on the number of people accommodated in the facility where the antennas of the plurality of base stations are provided,
Based on the terminal position information and the terminal communication quality information collected by the terminal information collecting device, reset the communication capacity of each antenna,
The wireless communication system according to claim 2. The control device further includes a station placement planning unit that generates base station change plan data based on the terminal location information and the terminal communication quality information collected by the terminal information collection device.
The wireless communication system according to claim 2. An antenna position information storage step in which the terminal information collection device stores antenna position information indicating each position of the antennas of the plurality of base stations in the antenna position information storage unit,
The terminal information collecting device, a terminal-antenna distance information acquisition step of acquiring terminal-antenna distance information indicating a distance between the terminal device antenna and a base station antenna for transmitting and receiving a wireless signal,
A terminal communication quality information acquisition step in which the terminal information collection device acquires terminal communication quality information indicating communication quality of the terminal device;
When the terminal information collecting device switches the antenna of a base station that transmits and receives radio signals, the terminal position information of the antennas of a plurality of base stations that the terminal device transmits and receives radio signals, and Using the distance information between the terminal antennas of the antenna of the base station of the terminal position information calculating step of calculating the terminal position information indicating the position of the terminal device,
A terminal information collecting method, wherein the terminal information collecting device includes a terminal information recording step of recording the terminal position information and the terminal communication quality information in association with each other,
When the terminal information collection device determines that the terminal communication quality information of the terminal device indicates a communication quality that is worse than the reference communication quality, the terminal device is communicated to the base station with which the terminal device is communicating. Requesting a forced handover of
Terminal information collection method. On the computer,
An antenna position information storage function of storing antenna position information indicating each position of antennas of a plurality of base stations,
A terminal-antenna distance information acquisition function for acquiring terminal-antenna distance information indicating a distance between the terminal device and a base station antenna for transmitting and receiving radio signals,
A terminal communication quality information acquisition function for acquiring terminal communication quality information indicating communication quality of the terminal device,
When the terminal device switches the antenna of the base station that transmits and receives radio signals, the terminal position information of the antennas of the plurality of base stations that the terminal device transmits and receives radio signals, and the antenna of the plurality of base stations Using terminal distance information between terminal antennas, a terminal position information calculation function for calculating terminal position information indicating the position of the terminal device,
A computer program for realizing a terminal information recording function of recording the terminal position information and the terminal communication quality information in association with each other,
When the terminal communication quality information of the terminal device determines that the terminal communication quality information of the terminal device indicates communication quality that is worse than the reference communication quality, the terminal antenna distance information acquisition function determines that the terminal device is communicating with the base station. Requesting a forced handover of the terminal device,
Computer program.

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