JP2019125992A - Movement determination system and movement determination method - Google Patents

Abstract

To provide a movement determination system capable of determining presence or absence of a movement of a relay device even if a user moves a relay device without permission.SOLUTION: A movement determination system 100 includes: an acquisition unit 40 for acquiring and accumulating at each predetermined timing permissible cell information for identifying adjacent cells 30-2, 30-3, 30-4 capable of making a wireless connection with a donor cell 30-1 to which a relay device 20 makes a wireless connection; and a determination unit 50 that determines presence or absence of a movement of the relay device 20 by comparing a plurality of pieces of allowable cell information acquired at different timings with each other.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a movement determination system and a movement determination method.

  A communication service for providing a small cell base station, which is a relay apparatus, between a mobile unit and a macro cell base station has been performed (see, for example, Patent Document 1). The installation of the small cell base station improves the indoor communication environment such as a building.

Patent No. 6025892

  Since the relay device is installed by the wireless communication carrier, the user should not move it arbitrarily. However, in reality, the user moves and uses the relay device without permission. In the relay device, the installation position is registered so that the emergency response vehicle can rush when there is an emergency call from the mobile unit. If the relay device is moved by the user without permission, the emergency response vehicle can not reach the location of the mobile unit that issued the emergency call because the installation position of the registered relay device and the actual position of the relay device are different. there is a possibility.

  Therefore, an object of the present invention is to provide a movement determination system and a movement determination method that can determine the presence or absence of movement of a relay device even if the user moves the relay device without permission.

  A movement determination system according to an aspect of the present invention is a movement determination system that determines the presence or absence of movement of a relay device wirelessly connected to a mobile body, and wireless connection is made with a donor cell wirelessly connected to the relay device. The acquiring unit, which acquires and accumulates allowable cell information for specifying a possible adjacent cell, at each predetermined timing, and a plurality of pieces of allowable cell information acquired at different timings are compared with each other to determine whether the relay device has moved And a determination unit.

  According to this aspect, the acquiring unit acquires and accumulates allowable cell information for specifying a donor cell and an adjacent cell at each predetermined timing. The determination unit compares the plurality of pieces of allowable cell information acquired at different timings with each other to determine whether or not the relay apparatus has moved. Therefore, even if the user moves the relay device without permission, the presence or absence of the movement of the relay device can be detected.

  The determination unit is configured such that a cell recorded as an adjacent cell in the allowable cell information acquired at the first timing is recorded as a donor cell in the allowable cell information acquired at the second timing later than the first timing. It may be determined that the relay device has not moved, assuming that the donor cell has been changed between the first timing and the second timing. In addition, the determination unit is configured to record a cell recorded as an adjacent cell in the allowable cell information acquired at the first timing as a donor cell in the allowable cell information acquired at the second timing later than the first timing. In this case, it may be determined that the relay device has not moved, assuming that the donor cell has been changed to an adjacent cell between the first timing and the second timing.

  If the determination unit determines that the cell recorded as the donor cell in the allowable cell information acquired at the first timing is recorded as an adjacent cell in the allowable cell information acquired at the second timing later than the first timing. It may be determined that the relay device has not moved, assuming that a cell is newly installed between the first timing and the second timing.

  The determination unit includes a cell recorded as an adjacent cell in the allowable cell information acquired at the first timing and a cell recorded as an adjacent cell in the allowable cell information acquired at the second timing later than the first timing. The presence or absence of the movement of the relay apparatus may be determined based on the matching rate.

  The allowable cell information corresponding to a predetermined relay apparatus may be configured to be arbitrarily resettable.

  The determination of the presence or absence of movement of a predetermined relay device may be arbitrarily prohibited.

  The allowed cell information may be configured to be arbitrarily changeable.

  The relay apparatus determined to be moving may further include a wave stopping unit for stopping the connection to the mobile device.

  The wave stopping unit may prohibit the stopping of the connection to the mobile device for a predetermined relay device.

  A movement determination method according to another aspect of the present invention is a movement determination method for determining the presence or absence of movement of a relay device wirelessly connected to a mobile body, and wirelessly connecting the donor device to which the relay device is wirelessly connected. Acquiring and accumulating allowable cell information at each predetermined timing for identifying the adjacent cells capable of being detected, comparing the plurality of allowable cell information acquired at different timings with each other to determine presence or absence of movement of the relay device And determining.

  According to the present invention, it is possible to provide a movement determination system and a movement determination method that can determine the presence or absence of movement of a relay device even if the user moves the relay device without permission.

BRIEF DESCRIPTION OF THE DRAWINGS It is a basic system figure of the movement determination system which concerns on this embodiment, and the wireless network which applies this. It is explanatory drawing of the relationship of the donor cell and adjacent cell in this embodiment. It is a flowchart of the movement determination method which concerns on this embodiment. It is a sequence diagram explaining the movement judging system concerning this embodiment. It is a flowchart of adjacent cell comparison in this embodiment. It is explanatory drawing of the time-sequential image in comparison of tolerance | permissible cell information. It is explanatory drawing of the stop wave instruction | indication of the relay apparatus in this embodiment. It is explanatory drawing which illustrates the specific example of adjacent cell comparison.

  Preferred embodiments of the present invention will be described with reference to the accompanying drawings. In addition, what attached the same code | symbol in each figure has the same or same structure.

[Definition of terms]
The main terms used in the present specification are defined as follows.
"Mobile": a mobile communication terminal, also referred to as UE (U ser E quipment). Specifically, it is a device having a mobile phone function such as a smartphone or a feature phone. In the following embodiments, it is called "terminal device".
"Relaying device": means a small cell base station. In the LTE standard, it is also referred to as HeNB (Home eNodeB).
"Cell": means a macro cell base station (MCC: Macro Cell). In the LTE standard, it is also referred to as eNB (eNodeB). In particular, a cell for which a communication path has been established for the relay apparatus is referred to as a "donor cell". Also, a cell that can communicate but is not currently established with the relay apparatus is referred to as a "adjacent cell". Furthermore, the donor cell and the adjacent cell are collectively referred to as "permitted cell" in the sense that they can communicate. The data in which all the permitted cells at a certain point in time for one relay apparatus are recorded is referred to as "permitted cell information".

[System configuration]
(Wireless network)
First, with reference to FIG. 1, a wireless network to which a movement determination system 100 according to an embodiment of the present invention is applied will be described. FIG. 1 is a basic system diagram of a movement determination system according to the present embodiment and a wireless network to which the movement determination system is applied.

  As shown in FIG. 1, the wireless network of the mobile communication system 200 includes a terminal device 10, a relay device 20, and a macro cell base station 30.

  The terminal device 10 is a mobile communication terminal used by a user. In FIG. 1, the terminal device 10 is assumed to be in the communicable range of any one of the relay devices 20.

  The relay device 20 is a node that relays the macro cell base station 30 and the terminal device 10, and is installed indoors in a building or the like to improve the communication environment. The relay device 20 is a node that constitutes one node in the wireless network and establishes backhaul wireless communication with the macro cell base station 30. The relay device 20 is installed by a wireless communication carrier, and the individual installation positions of the relay device 20 are registered and managed by the wireless communication carrier.

  The relay device 20 provides a packet communication service (for example, a voice packet communication service, a multimedia service, etc.) to the terminal device 10. The cell size formed by the relay device 20 is smaller than the macro cell base station 30, and establishes a communication area with a radius of several meters to several tens of meters.

  The macro cell base station 30 is configured to establish radio communication with the relay device 20 and also to establish direct access radio communication with the terminal device 10. The macro cell base station 30 constructs a communication area with a radius of several hundred meters to several tens of kilometers.

  FIG. 2 is an explanatory view of a relationship between a donor cell and an adjacent cell in the present embodiment. In FIG. 2, the broken line circle indicates the communicable area M of the relay device 20. The macro cell base station 30 present in the communicable area M is a permitted cell that can establish a communication path from the relay device 20. The macro cell base station 30 wirelessly connected to the relay device 20 in FIG. 2 is a donor cell 30-1. Further, for the relay device 20 in FIG. 2, the macro cell base station 30 which has not established a communication channel but can wirelessly connect is the adjacent cells 30-2, 30-3 and 30-4. Although four allowed cells are illustrated in FIG. 2, the number of allowed cells varies depending on the installation environment of the relay device 20 and the like, and the number of allowed cells is not limited. In the following description, when the donor cell and the adjacent cell are described without distinction, they are simply referred to as "macro cell base station".

(Movement judgment system)
Next, the movement determination system 100 according to the present embodiment will be described with reference to FIG. 1 again. As shown in FIG. 1, the movement determination system 100 according to the present embodiment is a system that determines the presence or absence of movement of the installation position of the relay device 20 wirelessly connected to the terminal device 10. And The movement determination system 100 is provided in the core network of the mobile communication system 200.

  The acquisition unit 40 is, for example, an application system operating on a Windows OS, and is configured by an OSS (Operation Support System) or the like, but the OS is not limited. The acquiring unit 40 is configured to acquire and accumulate allowed cell information for specifying a donor cell and an adjacent cell at each predetermined timing. Specifically, for example, the acquisition unit 40 is set to scan all the relay devices 20 at a timing of once / one hour to acquire and store the allowable cell information, but the acquisition timing is changed. It is possible. The cells to be recorded as adjacent cells are sorted according to a predetermined standard, for example, an index such as electric field strength or radio wave quality. For example, the acquiring unit 40 selects cells up to a predetermined rank with the index counted from the upper order for each frequency band as “adjacent cells”, and records the cells as allowable cell information.

  The acquisition unit 40 records allowable cell information acquired by scanning as a list (Scan List) of a predetermined format, for example, a csv file format. In the Scan List, information of all permitted cells communicable with each relay device 20 is recorded. Details of the scan list will be described later.

  The determination unit 50 is, for example, an application system operating on a Linux (registered trademark) OS, and includes a database 60. The determination unit 50 acquires allowable cell information from the acquisition unit 40 and stores the information in the database 60. Whether the database 60 is a donor cell, data specifying the first permitted cell obtained for each relay device 20, data specifying the n permitted cells acquired thereafter, and data specifying the most recently acquired allowed cell It is held as allowable cell information together with whether it is an adjacent cell or not. Further, the determination unit 50 refers to the database 60 and compares the plurality of pieces of allowable cell information acquired at different timings with each other to determine whether the relay device 20 has moved. Details of the determination of the determination unit 50 will be described later.

  The file transfer from the acquisition unit 40 to the determination unit 50 utilizes a technology for safely transferring data to a remote place using encryption and an authentication procedure. For example, SFTP (SSH File Transfer Protocol) is adopted as a protocol for securely transferring files between computers using an SSH (Secure Shell) mechanism.

  The determination unit 50 is configured to have a function capable of arbitrarily resetting permitted cell information corresponding to a predetermined relay device 20. Specifically, it has a function of erasing permitted cell information (data for specifying a donor cell / adjacent cell) associated with a specific relay device 20. It will be treated as the first acquisition at the next data collection after data deletion. This function is an optional component.

  Further, the determination unit 50 is configured to be capable of arbitrarily prohibiting the determination of the presence or absence of movement of the predetermined relay device 20. Specifically, the determination unit 50 holds in advance a determination skip list for registering relay devices for which it is not desired to make the movement determination. Then, the determination unit 50 prohibits the movement determination on the relay device 20 recorded in the determination skip list. For example, if there is a relay device 20 that you do not want to stop the wave at all because of some special reason, it is registered in the judgment skip list. This function is an optional component.

  Furthermore, the determination unit 50 is configured to be able to arbitrarily change the allowable cell information. Specifically, it is a function of appropriately changing the registration status of the donor cell and the adjacent cell as the allowable cell information. Specifically, the wireless communication operator can perform manual maintenance separately from the management of the determination unit 50 to individually refer to or change the permitted cell information. This function is an optional component.

  In addition, the determination unit 50 may further include a wave stopping unit 70 that stops the connection to the terminal device 10 for the relay device 20 determined to be moving. The wave suspension unit 70 transmits a request for a wave suspension instruction to the acquisition unit 40 and prohibits the predetermined relay device 20 from connecting to the terminal device 10. The stop wave execution control function is basically set to “necessary” (executable), but can be set to “not possible” (impossible to execute) when only the check of the relay device 20 is desired to be performed. . This function is an optional component. Details of the stop wave instruction will be described later.

[System operation and movement determination method]
Next, the movement determination method according to the present embodiment will be described along with the operation of the movement determination system 100 according to the present embodiment.

  The movement determination method according to the present embodiment is a movement determination method for determining the presence or absence of movement of the installation position of the relay device wirelessly connected to the terminal device. The movement determination method according to the present embodiment includes the steps of acquiring and storing, at predetermined timings, permitted cell information for specifying a donor cell to which the relay apparatus is wirelessly connected and an adjacent cell capable of wireless connection. And determining the presence or absence of movement of the relay apparatus by comparing a plurality of pieces of allowable cell information acquired at different timings with each other. The details will be described below.

  The movement determination method according to the present embodiment will be described with reference to FIGS. 3 and 4. FIG. 3 is a flowchart of the movement determination method according to the present embodiment. FIG. 4 is a sequence diagram for explaining the movement determination system according to the present embodiment.

  As shown in FIG. 3 and FIG. 4, the acquiring unit 40 is configured to connect adjacent cells 30-2, 30-3, and 30-4 capable of wireless connection with the donor cell 30-1 to which the relay device 20 is wirelessly connected. And allowable cell information for specifying the information at each predetermined timing and stored (S210).

  The acquisition unit 40 manages data of information of all permitted cells in a scan list in csv file format. As identification information for identifying a cell, for example, values of a node name (Node Name (HeNB)), a cell ID (Cell Indentity) and an EARFCN can be mentioned. The type of a donor cell or an adjacent cell is determined by a predetermined flag, for example, a scan list rank. Data of adjacent cells 30-2, 30-3, and 30-4 are output for each frequency band.

  The determination unit 50 acquires allowable cell information from the acquisition unit 40 at predetermined timings, and performs data management (S220). The permitted cell information is transferred from the acquisition unit 40 to the determination unit 50. The determination unit 50 stores the transferred allowed cell information in the database 60 as a scan list.

  The determination unit 50 reads the determination target data from the database 60 (S230). That is, after referring to the permitted cells in order from the first relay device 20 recorded in the Scan List, the determination process of steps S250, S260, and S270 is performed, and the reference / determination process of the next relay device 30 is performed. Loop to repeat (S290). The relay device 20 included in the determination skip list does not perform the determination process of steps S250, S260, and S270, and shifts to the next relay device 20.

  The determination unit 50 compares the plurality of pieces of allowable cell information acquired at different timings with each other with respect to the relay device 20 to be studied to determine the presence or absence of the movement of the relay device 20 (S250, S260, S270). The determination of the determination unit 50 is performed every hour. The comparison of the allowable cell information basically compares the allowable cell information acquired at the first timing with the allowable cell information acquired at the second timing later than the first timing.

  With reference to FIG. 6, the comparison between the allowable cell information acquired at the first timing and the allowable cell information acquired at the second timing will be described using a time-series image. FIG. 6 is a diagram for explaining a comparative example of allowed cell information in time series. As shown in FIG. 6, when the relay device 20 is activated for the first time, the determination unit 50 acquires allowable cell information for specifying an allowable cell for the activated relay device 20 and records the acquired information in the database 60 as initial data. Next, upon receiving a second notification from the relay device 20 at a predetermined timing, the determination unit 50 acquires allowable cell information specifying the allowable cell for the relay device 20 detected for the second time, and uses it as the second data. It is stored in the database 60. Then, the determination unit 50 refers to the database 60 and compares the second data and the first data. Thereafter, normally, the previously acquired allowed cell information is compared with the newly acquired permitted cell information.

  However, if communication with the relay device 20 is not successful, that is, if communication is not possible, the determination unit 50 records the relay device 20 in the database 60 together with a flag indicating that data acquisition is not possible. When the relay device 20 recovers, the determination unit 50 checks whether the relay device 20 has been recorded as data acquisition impossible in the past. If it is recorded that data acquisition is not possible, the determination unit 50 compares the data acquired immediately before the time when communication is not possible with the data newly acquired this time.

  Referring again to FIGS. 3 and 4, determination unit 50 compares the allowable cell information acquired at the first timing with the allowable cell information acquired at the second timing, and the donor cell 30-1 is an allowable cell. It is determined whether the information is included (S250). If the donor cell 30-1 is included in the permitted cell information (S250 / YES), the process proceeds to reading of the next row of the Scan List to shift to determination on the next relay device (S290).

  If the donor cell 30-1 is not included in the allowable cell information (S250 / NO), donor cells of the allowable cell information acquired at the first timing and the allowable cell information acquired at the second timing are compared (S260). That is, it is compared whether the previous donor cell and the current donor cell are the same. If, as a result of comparison, the previous and current donor cells match (S 260 / YES), it is determined that the relay device 20 has not moved, and the next row of the Scan List is read to shift to the determination for the next relay device. It shifts to (S290).

  On the other hand, when the previous donor cell is different from the current donor cell (S260 / NO), adjacent cells of the allowable cell information acquired at the first timing and the allowable cell information acquired at the second timing are compared (S270) ). The reason why adjacent cells are compared with each other is to suppress erroneous detection of the determination unit 50.

  In the case where the donor cells are different, in addition to the problem event that the relay device 20 which is the determination object in this embodiment is moved, if the donor cell fails and is handed over to the adjacent cell, When a new cell is installed in the new cell and it is handed over to this new cell, the relay device 20 restarts autonomously or forcibly and the donor cell is changed due to the radio wave condition at the restart, and It is possible that the power supply of the device is shut off and the cell is rescanned to change the donor cell.

  FIG. 5 is a flowchart of adjacent cell comparison in the present embodiment. FIG. 5 shows details of the determination in the adjacent cell comparison (S270) in the overall flowchart of FIG. First, as shown in FIG. 5, the determination unit 50 determines whether the new donor cell is included in the old adjacent cell (S271). When the new donor cell is included in the old adjacent cell, the cell recorded as the adjacent cell in the allowable cell information acquired at the first timing is recorded as the donor cell in the allowable cell information acquired at the second timing. It is the case.

  When a cell recorded as an adjacent cell in the allowable cell information of the first timing is recorded as a donor cell in the allowable cell information of the second timing (S 271 / YES), the first timing and the second timing It is determined that there is no problem as the donor cell has been changed during the period. That is, in this case, since the donor cell is changed to the adjacent cell due to the failure of the donor cell, and the new donor cell is included in the old adjacent cell, it can be determined that the relay device 20 has not moved ( Case 1 in FIG. 7 described later). If the determination unit 50 determines that there is no problem (no movement), the process proceeds to the check of the next line of the Scan List (S290).

  When the cell recorded as the adjacent cell in the allowable cell information of the first timing is not recorded as the donor cell in the allowable cell information of the second timing (S271 / NO), the determination unit 50 determines that the old donor cell is a new adjacent It is determined whether the cell is included (S272). When the old donor cell is included in the new adjacent cell, the cell recorded as the donor cell in the allowable cell information acquired at the first timing is recorded as the adjacent cell in the allowable cell information acquired at the second timing. It is the case.

  When the cell recorded as the donor cell in the allowable cell information acquired at the first timing is recorded as an adjacent cell in the allowable cell information acquired at the second timing (272 / YES), the first timing and the first timing It is determined that there is no problem, assuming that a cell is newly established between the timing of 2. That is, in this case, as a result of the macro cell base station 30 being newly established in the vicinity, the donor cell is changed by the rescan of the relay device 20. Since the old donor cell is included in the new adjacent cell, it may be determined that the relay device 20 has not moved (case # 2 in FIG. 7 described later). If the determination unit 50 determines that there is no problem (no movement), the process proceeds to the check of the next line of the Scan List (S290).

  When the cell recorded as the donor cell in the allowable cell information acquired at the first timing is not recorded as an adjacent cell in the allowable cell information acquired at the second timing (272 / NO), the new and old adjacent cells The match rate of is determined (S273). The match rate between the new and old adjacent cells means a cell recorded as an adjacent cell in the allowable cell information acquired at the first timing and a cell recorded as an adjacent cell in the allowable cell information acquired at the second timing. Indicates how much they match. The matching rate can be calculated by, for example, [number of matching cells] / [total number of new and old adjacent cells (number excluding duplicates)], although various calculation methods can be applied.

  If the coincidence rate is equal to or higher than a predetermined threshold, that is, if it is considered that the new and old neighboring cells have not changed substantially (S273 / YES), it is determined that there is no problem. That is, in this case, it is considered that if the relay device 20 is not moving, the previous adjacent cell and the current adjacent cell should be substantially the same. If the new and old adjacent cells are different (S 273 / NO), there is a high possibility that the relay device 20 is moving, so that the necessary measures are taken.

  Here, it is conceivable to set the determination of the coincidence rate in multiple stages. If the match rate is not 100% (complete match) but matches to some extent (100%> match rate> threshold), it can be inferred that the relay device 20 has moved but the movement distance is not large. For example, it is a case where the installation position of the relay device 20 is moved to change the layout of the room. In such a case, it is considered that no problem will occur in making an emergency call. Therefore, if it is determined that such a match rate, it is sufficient to record only a point suspected of movement on the system. At a later date, the wireless communication carrier may go to the inspection of the relay device to check whether there is a problem.

  On the other hand, when the coincidence rate is low (threshold value 一致 coincidence rate% 0%), it can be inferred that the relay device 20 is intentionally moved largely. For example, the relay device 20 may be transported to a completely different place and re-installed. In such a case, there is obviously a problem in calling an emergency call. Therefore, when it is determined that such a coincidence rate, it proceeds to a measure to immediately stop the use of the relay device 20, for example, to stop wave instruction shown in FIG. 3 (S280). When shifting to the stop wave instruction, the stop wave unit 70 instructs the acquisition unit 40 to stop the wave (S280).

  With reference to FIG. 7, the stop of wave instruction of the relay device in the present embodiment will be further described. As shown in FIG. 7, when the determination unit 50 detects the movement of the relay device 20, the wave stopping unit 70 instructs the acquisition unit 40 to stop the wave of the relay device 20 determined to have moved. The acquisition unit 40 that has received the stop wave instruction prohibits the connection to the terminal device 10 by the relay device 20 that is determined to have moved. For example, SOAP is adopted as the communication method of the stop wave instruction. Here, SOAP is a specification of a communication protocol for exchanging structured information in the implementation of Web services in a network.

  Next, a specific example of adjacent cell comparison will be further described with reference to FIG. As shown in FIG. 8, comparison of new and old adjacent cells is verified with respect to items of old donor cell, new donor cell, old adjacent cell, new adjacent cell, number of adjacent cells (new and old total), number of matches, match rate, and threshold value. The old donor cell is a cell recorded as a donor cell at the first timing, that is, the previously acquired allowed cell information (previous allowed cell information). The new donor cell is a cell recorded as a donor cell at the second timing, that is, the newly acquired allowed cell information (currently accepted cell information). The old adjacent cell is a cell recorded as an adjacent cell in the previous permitted cell information. The new adjacent cell is a cell recorded as an adjacent cell in the allowable cell information this time. The number of adjacent cells is the total number of cells previously recorded as adjacent cells in the allowable cell information and the cells recorded as adjacent cells in the current allowable cell information (after elimination of duplication). The number of matches is the number of adjacent cells that match the previous tolerance cell information and the current tolerance cell information. The coincidence rate is calculated by a predetermined calculation formula, for example, “the number of coincidences” / “the number of adjacent cells”. Here, the threshold value of the coincidence rate is a threshold value for instructing to stop the wave, and is set to, for example, 50% or more.

  In Case # 1 of FIG. 8, for example, when the old donor cell is A, the new donor cell is B, the adjacent cells are B and C, and the new adjacent cell is C, in a pattern where the new donor cell is included in the old adjacent cell. is there. This is a case where the failure has continued in the old donor cell A in step S271 / YES in FIG. 5, and it is determined as OK. In Case # 2, when the old donor cell is A, the new donor cell is X, the adjacent cells are B and C, and the new adjacent cells are A, B, and C, the pattern is a pattern in which the old donor cell is included in the new adjacent cell . This is a case where a macro cell base station is newly established in the vicinity at step S272 / YES in FIG.

  In Case # 3, for example, when the old donor cell is X, the new donor cell is Y, the adjacent cells are A, B, and C, and the new adjacent cells are A, B, and C, the number of adjacent cells is 3, the number of matches is At 3, the match rate is 100%. This is the case where the new and old adjacent cells completely match in step S273 / YES in FIG. 5, and it is determined as OK. In Case # 4, for example, when the old donor cell is X, the new donor cell is Y, the adjacent cells are A, B, and C, and the new adjacent cells are A and B, the number of adjacent cells is 3, and the number of matches is 2. The match rate is 66%. Since the threshold is set to 50%, it is determined to be OK. However, since the coincidence rate is not 100%, it may be recorded in the system for later confirmation.

  In Case # 5, for example, when the old donor cell is X, the new donor cell is Y, the adjacent cells are A, B and C, and the new adjacent cells are C, D and E, the number of adjacent cells is 5, and the number of matches is At 1, the match rate is 20%. Since this is the case of step S273 / NO in FIG. 5 in which the coincidence rate is less than the threshold, it is determined as NG. In Case # 6, for example, when the old donor cell is X, the new donor cell is Y, the adjacent cells are A, B, C, and D, and the new adjacent cells are C and D, the number of adjacent cells is 4, and the number of matches is 2 The match rate is 50%. Since the coincidence rate is equal to or higher than the threshold value, it is determined as OK.

  In Case # 7, for example, when the old donor cell is X, the new donor cell is Y, the adjacent cells are A and B, and the new adjacent cells are A, B, C, and D, the number of adjacent cells is 4, and the number of matches is 2 The match rate is 50%. Since the coincidence rate is equal to or higher than the threshold value, it is determined as OK. In Case # 8, for example, when the old donor cell is X, the new donor cell is Y, the adjacent cell is A, and the new adjacent cell is A, B, and C, the number of adjacent cells is 3, the number of matches is 1, and the match rate Is 33%. Since the coincidence rate is less than the threshold value, it is determined as NG.

  In cases # 9 to # 12, all match rates are less than 50%, which is the threshold value, so all are determined as NG.

  Next, the output of the determination result (FIG. 3: S300) will be described. As the determination result, a plurality of items are recorded for each relay device 20. Items include, for example, relay device name (Node Name), donor cell identification information (latest data), donor cell identification information (past data), adjacent cell identification information (latest data), adjacent cell identification information (past data), adjacent cells The match rate (%), the determination result (OK, NG, flag during monitoring period, skip setting flag), and the determination date and time. Each item is judged in relay unit 20 units, for example, there is no problem (donor match) or no problem (adjacent comparison OK), there is a problem, monitoring period target, or skip target And may or may not be recorded. Here, the “monitoring period” means, for example, a certain period (which can be arbitrarily set) from the time of first acquisition of the allowable cell information. For example, in the monitoring period, movement determination of the relay device 20 is not performed, and only acquisition of macro cell information is performed.

  Next, the movement suspicion and stop wave history will be described. The movement suspicion is a history in which it is determined that there is a suspicion of movement of the specific relay device 20 by the determination according to the flowchart shown in FIG. The stop wave history is a history in which a stop wave instruction is actually issued by the determination according to the flowchart shown in FIG. For the movement suspicion and stop wave history, the past n days are recorded. Let n be a variable value and have an adjustable design. The movement suspicion and stop wave history are recorded, for example, with notes on the items of the relay device name (Node Name) considered to be movement suspicion (Node Name), the stop wave date and time, the stop operation instruction result, and the stop operation instruction result details.

  As described above, in the mobility determination system 100 according to the present embodiment, the acquiring unit 40 determines the allowable cell information for specifying the donor cell 30-1 and the adjacent cells 30-2, 30-3, and 30-4 at a predetermined timing. Acquire and accumulate each time. The determination unit 50 compares the plurality of pieces of allowable cell information acquired at different timings with each other to determine whether the relay device 20 has moved. Therefore, according to the movement determination system 100 according to the present embodiment, even if the user moves the relay device without permission, the presence or absence of the movement of the relay device 20 can be detected sequentially, thus preparing for an emergency situation. That is, since the presence or absence of movement of the relay device 20 can be grasped, it is possible to prevent a situation where the emergency response vehicle can not reach the location of the terminal device 10 that issued the emergency call even when there is an emergency call from the terminal device 10 it can.

  The determination unit 50 is configured to have a function capable of arbitrarily resetting the allowable cell information corresponding to the predetermined relay device 20. Therefore, the recorded allowable cell information is reset, and the allowable cell information after the reset is determined. Acquisition of can be treated as the first acquisition.

  Further, the determination unit 50 is configured to be able to arbitrarily prohibit the determination of the presence or absence of movement of the predetermined relay device 20, so that the relay device 20 of the relay device 20 may not Movement determination can be skipped.

  Furthermore, since the determination unit 50 is configured to be able to arbitrarily change the allowable cell information, the setting of the allowable cell information can be appropriately adjusted as appropriate to improve the maintainability and the versatility.

  In addition, since the determination unit 50 includes the wave stopping unit 70 that stops the connection to the terminal device 10 for the relay device 20 determined to be moving, the continuous use of the relay device 20 suspected of movement is continued. It is possible to forbid

  The embodiments described above are for the purpose of facilitating the understanding of the present invention, and are not for the purpose of limiting the present invention. Each element with which an embodiment is provided, its arrangement, conditions, etc. are not necessarily limited to what was illustrated, and can be changed suitably.

DESCRIPTION OF SYMBOLS 10 ... Terminal device, 20 ... Relay apparatus, 30 ... Macrocell base station, 30-1 ... Donor cell, 30-2, 30-3, 30-4 ... Adjacent cell, 40 ... Acquisition part, 50 ... Determination part, 70 ... Stop Wave part, 100 ... movement determination system, 200 ... mobile communication system.

A movement determination system according to an aspect of the present invention is a movement determination system that determines the presence or absence of movement of a relay device wirelessly connected to a mobile body, and wireless connection is made with a donor cell wirelessly connected to the relay device. The acquiring unit, which acquires and accumulates allowable cell information for specifying a possible adjacent cell, at each predetermined timing, and a plurality of pieces of allowable cell information acquired at different timings are compared with each other to determine whether the relay device has moved A determination unit for determining whether a cell recorded as an adjacent cell in the allowable cell information acquired at the first timing is a donor cell in the allowable cell information acquired at the second timing later than the first timing If the donor cell is changed between the first timing and the second timing, the relay device has not moved. It determines that.

Determine tough, if the cell is recorded as an adjacent cell in the permissible cell information acquired by the first timing it has been recorded as the donor cell in the obtained allowable cell information at a second timing later than the first timing Alternatively, it may be determined that the relay apparatus has not moved, assuming that the donor cell has been changed to an adjacent cell between the first timing and the second timing.

If the determination unit determines that a cell recorded as an adjacent cell in the allowable cell information acquired at the first timing is not recorded as a donor cell in the allowable cell information acquired at the second timing later than the first timing, If the cell recorded as a donor cell in the allowable cell information acquired at the first timing is recorded as an adjacent cell in the allowable cell information acquired at the second timing, the first timing and the second timing It may be determined that the relay apparatus has not moved, assuming that a cell has been newly established between them.

If the determination unit determines that a cell recorded as an adjacent cell in the allowable cell information acquired at the first timing is not recorded as a donor cell in the allowable cell information acquired at the second timing later than the first timing, If the cell recorded as the donor cell in the allowable cell information acquired at the first timing is not recorded as an adjacent cell in the allowable cell information acquired at the second timing, the allowable cell information acquired at the first timing Even if it is determined whether the relay apparatus has moved based on the matching rate between the cell recorded as the adjacent cell in the cell and the cell recorded as the adjacent cell in the allowable cell information acquired at the second timing. Good.

A movement determination method according to another aspect of the present invention is a movement determination method for determining the presence or absence of movement of a relay device wirelessly connected to a mobile body, and wirelessly connecting the donor device to which the relay device is wirelessly connected. Acquiring and accumulating allowable cell information at each predetermined timing for identifying the adjacent cells capable of being detected, comparing the plurality of allowable cell information acquired at different timings with each other to determine presence or absence of movement of the relay device possess determines the step, and the determining, the allowable cell information cell which is recorded as an adjacent cell in the obtained allowable cell information at the first timing has been acquired at the second timing later than the first timing If the donor cell has been recorded as a donor cell, the relay device is assumed to be a donor cell changed between the first timing and the second timing. It is determined not to be moved.
A movement determination system according to another aspect of the present invention is a movement determination system that determines the presence or absence of movement of a relay device wirelessly connected to a mobile body, and wirelessly connecting the donor device to which the relay device is wirelessly connected. The acquiring unit, which acquires and accumulates allowable cell information at each predetermined timing, identifies the adjacent cells that can be used, and the plurality of allowable cell information acquired at different timings are compared with each other to determine presence or absence of movement of the relay device. In the allowable cell information acquired at the first timing, the determination unit includes a determination unit, and in the allowable cell information acquired at a second timing later than the first timing, a cell recorded as an adjacent cell is acquired at the second timing. If the donor cell is recorded as a donor cell, the relay device determines that the donor cell has been changed to a neighboring cell between the first timing and the second timing. It is determined not to be dynamic.
A movement determination system according to another aspect of the present invention is a movement determination system that determines the presence or absence of movement of a relay device wirelessly connected to a mobile body, and wirelessly connecting the donor device to which the relay device is wirelessly connected. The acquiring unit, which acquires and accumulates allowable cell information at each predetermined timing, identifies the adjacent cells that can be used, and the plurality of allowable cell information acquired at different timings are compared with each other to determine presence or absence of movement of the relay device. In the allowable cell information acquired at the first timing, the determination unit includes a determination unit, and in the allowable cell information acquired at a second timing later than the first timing, a cell recorded as an adjacent cell is acquired at the second timing. When the cell is not recorded as a donor cell, and the cell recorded as a donor cell in the allowable cell information acquired at the first timing is a second cell. If the acquired allowable cell information in timing has been recorded as an adjacent cell is determined to as a cell is established between the first timing and the second timing, the relay device is not moving.
A movement determination system according to another aspect of the present invention is a movement determination system that determines the presence or absence of movement of a relay device wirelessly connected to a mobile body, and wirelessly connecting the donor device to which the relay device is wirelessly connected. The acquiring unit, which acquires and accumulates allowable cell information at each predetermined timing, identifies the adjacent cells that can be used, and the plurality of allowable cell information acquired at different timings are compared with each other to determine presence or absence of movement of the relay device. In the allowable cell information acquired at the first timing, the determination unit includes a determination unit, and in the allowable cell information acquired at a second timing later than the first timing, a cell recorded as an adjacent cell is acquired at the second timing. When the cell is not recorded as a donor cell, and the cell recorded as a donor cell in the allowable cell information acquired at the first timing is a second cell. If it is not recorded as an adjacent cell in the allowable cell information acquired in the first cycle, the cell recorded as an adjacent cell in the allowable cell information acquired in the first timing and the adjacent cell in the allowable cell information acquired in the second timing It is determined whether the relay apparatus has moved or not based on the matching rate with the cell recorded as.
A movement determination system according to another aspect of the present invention is a movement determination system that determines the presence or absence of movement of a relay device wirelessly connected to a mobile body, and wirelessly connecting the donor device to which the relay device is wirelessly connected. The acquiring unit, which acquires and accumulates allowable cell information at each predetermined timing, identifies the adjacent cells that can be used, and the plurality of allowable cell information acquired at different timings are compared with each other to determine presence or absence of movement of the relay device. A determination unit is configured to be configured to be capable of arbitrarily prohibiting the determination of the presence or absence of movement of a predetermined relay device.

Claims (11)

A movement determination system that determines the presence or absence of movement of a relay device wirelessly connected to a mobile body, comprising:
An acquiring unit that acquires and stores, at predetermined timings, allowable cell information that specifies a donor cell to which the relay apparatus is wirelessly connected and an adjacent cell that can make a wireless connection;
A determination unit that compares a plurality of pieces of the allowable cell information acquired at different timings with each other to determine the presence or absence of movement of the relay device;
Movement judgment system provided with   The determination unit is configured to record a cell recorded as an adjacent cell in the allowable cell information acquired at the first timing as a donor cell in the allowable cell information acquired at the second timing later than the first timing. The mobility judgment system according to claim 1, wherein it is determined that the relay device has not moved, assuming that a donor cell has been changed between the first timing and the second timing.   The determination unit is configured to record a cell recorded as an adjacent cell in the allowable cell information acquired at the first timing as a donor cell in the allowable cell information acquired at the second timing later than the first timing. In this case, it is determined that the relay device has not moved, assuming that a donor cell has been changed to a neighboring cell between the first timing and the second timing. Movement judgment system.   The determination unit is configured to record a cell recorded as a donor cell in the allowable cell information acquired at the first timing as an adjacent cell in the allowable cell information acquired at a second timing later than the first timing. 4. The relay device according to claim 1, wherein it is determined that the relay device has not moved, assuming that a cell is newly installed between the first timing and the second timing. Movement judgment system described.   The determination unit is recorded as an adjacent cell in a cell recorded as an adjacent cell in the allowable cell information acquired at the first timing and in the allowable cell information acquired at the second timing later than the first timing. The movement determination system according to any one of claims 1 to 4, wherein the presence or absence of movement of the relay apparatus is determined based on a coincidence rate with a cell. The allowable cell information corresponding to a predetermined relay device can be arbitrarily reset.
The movement determination system according to any one of claims 1 to 5. It is possible to arbitrarily prohibit the determination of the presence or absence of movement of a predetermined relay device,
The movement judging system according to any one of claims 1 to 6. The allowable cell information is configured to be arbitrarily changeable,
The movement judging system according to any one of claims 1 to 7.   The movement judging system according to any one of claims 1 to 8, further comprising a wave stopping unit for stopping the connection to the mobile device with respect to the relay device determined to be moving. The wave stopping unit prohibits connection to the mobile station with respect to a predetermined relay device.
The movement determination system according to claim 9. A movement determination method for determining the presence or absence of movement of a relay apparatus wirelessly connected to a mobile body, comprising:
Obtaining and storing, at predetermined timings, permitted cell information for specifying a donor cell to which the relay apparatus is wirelessly connected and an adjacent cell capable of making a wireless connection;
Comparing the plurality of allowable cell information acquired at different timings with each other to determine the presence or absence of movement of the relay device;
A movement determination method having