JP2018195104A - Station service system - Google Patents

Abstract

To provide a station system that can reduce the burden of work at the time of updating a program of station equipment.SOLUTION: The station system of the embodiment includes a first storage device, a second storage device, an updating unit, a storage control unit, and a comparison unit. The second storage device stores a program of the station equipment and the set value of the program of the station equipment. The updating unit updates the program of the station equipment stored in the second storage device. The storage control unit stores the setting value stored in the second storage device before the update unit updates the program of the station equipment, in the first storage device. The comparing unit compares the setting value stored in the first storage device after the update unit updates the program of the station equipment with a new setting value stored in the second storage device as a result of update of the program, and outputs the comparison result.SELECTED DRAWING: Figure 1

Description

  Embodiments described herein relate generally to a station service system.

  In the station service equipment for executing various operations at the station, operation conditions are set according to the function, installation position, and the like. There are various types of station service devices such as automatic ticket gates, ticket vending machines, clearing machines, staff terminals, monitoring panels, and station servers. Here, when the program that operates the station service equipment is updated, the operator of the update work and the administrator who manages the station service equipment should check whether the operating conditions are properly set after the program update. In some cases, the confirmation is troublesome.

JP, 2006-197358, A

  The problem to be solved by the present invention is to provide a station service system that can reduce the work load when updating a program of station service equipment.

  The station service system of the embodiment includes a first storage device, a second storage device, an update unit, a storage control unit, and a comparison unit. The second storage device stores a station service device program and set values of the station service device program. The updating unit updates the station service device program stored in the second storage device. The storage control unit causes the first storage device to store the setting value stored in the second storage device before the update unit updates the program of the station service device. The comparison unit updates the set value stored in the first storage device after the update unit has updated the program of the station service device, and a new result stored in the second storage device as a result of the update of the program. Compares with a set value and outputs the comparison result.

The figure which shows the structure of the station service system which concerns on 1st Embodiment. The external appearance block diagram of the automatic ticket gate which concerns on 1st Embodiment. The figure which shows the function structure of the control part which concerns on 1st Embodiment. The figure which shows the content of the setting value information which concerns on 1st Embodiment. The figure which shows the content of the setting value information after the automatic ticket gate program which concerns on 1st Embodiment is updated. The figure which shows the structure of the station server which concerns on 1st Embodiment. The figure which shows the operation state of the station server which concerns on 1st Embodiment (the 1). The figure which shows the operation state of the station server which concerns on 1st Embodiment (the 2). It is a sequence diagram which shows an example of operation | movement of the station service system which concerns on 1st Embodiment. It is a figure which shows an example of a function structure of the automatic ticket gate which concerns on 2nd Embodiment. The figure which shows the structure of the station service system which concerns on 3rd Embodiment. The figure which shows the function structure of the control part with which the station server which concerns on 3rd Embodiment is provided. It is FIG. (1) which shows the operation state of the station server which concerns on 3rd Embodiment. It is FIG. (2) which shows the operation state of the station server which concerns on 3rd Embodiment.

  Hereinafter, the station service system of embodiment is demonstrated with reference to drawings. The station service system of the embodiment is a system that compares set values indicating operation conditions and the like of the station service device before and after updating a program that operates the station service device installed in the station.

(First embodiment)
FIG. 1 is a diagram illustrating a configuration of a station service system 1 according to the first embodiment. The station service system 1 is installed at a railway station. The station service system 1 includes, for example, a station server 10 and one or more automatic ticket gates 20. The station service system 1 is not limited to one, and may include a plurality of station servers 10 and a plurality of automatic ticket gates 20. In the illustrated example, the station service system 1 includes one station server 10 and N automatic ticket gates 20. N is an arbitrary natural number. The station server 10 and the automatic ticket gate 20 communicate via a LAN (Local Area Network) or the like.

  In the first embodiment, the station equipment for which the program is to be updated is the automatic ticket gate 20, and the station server 10 determines the difference in setting values indicating the operating conditions of the automatic ticket gate 20 before and after the program is updated. A configuration to be detected will be described. Hereinafter, the details of the configuration of the station server 10 and the automatic ticket gate 20 will be described.

[Automatic ticket gate]
FIG. 2 is an external configuration diagram of the automatic ticket gate 20 according to the first embodiment. Specifically, FIG. 2 is a view of one automatic ticket gate 20 viewed from above. The automatic ticket gate 20 includes a master machine 30 and a slave machine 40 that are arranged to face each other across a passage. The main machine 30 includes, for example, a control unit 21, a reader / writer 31, an upper surface display unit 32, a front display unit 33, and door units 34 and 35. The slave device 40 includes a reader / writer 41, an upper surface display unit 42, a front display unit 43, and doors 44 and 45.

  The reader / writer 31 of the main machine 30 reads the information stored in the medium M (not shown) that is deceived by the user who wants to pass in the direction a in FIG. Is transmitted to the control unit 21. The medium M is a medium in which a medium ID, a charge amount of electronic money (payment amount), information of a station through which the user has passed (for example, an entrance station) and the like are encoded and stored, and the stored information is wirelessly communicated. It is a medium that is transmitted to a station-related device such as the automatic ticket gate 20 by the function.

  The upper surface display unit 32 displays the result processed by the control unit 21. The front display unit 33 displays a mark, a figure, a character, or the like indicating whether or not it can pass in the direction a in FIG. The display content of the front display unit 33 is determined by the control unit 21. In the example of FIG. 2, the automatic ticket gate 20 is set to an operation mode (first operation mode) that only allows passage in the direction a, and therefore the front display unit 33 of the main machine 30 permits passage. The mark to show is displayed. The control unit 21 controls each unit of the main machine 30 and the slave machine 40.

  On the other hand, the reader / writer 41 of the slave device 40 reads the information stored in the medium M deceived by the user who intends to pass in the direction b (enters the station), and reads the read information of the master device 30. It transmits to the control part 21. The upper surface display unit 42 displays the result processed by the control unit 21 of the main unit 30 when the medium M is loaded on the reader / writer 41. The front display unit 43 displays a mark, a figure, a character, or the like indicating whether or not it can pass in the b direction. The display content of the front display unit 43 is determined by the control unit 21 of the main machine 30. In the example of FIG. 2, the automatic ticket gate 20 is set to a one-way passing operation mode that permits passage only in the a direction, so the front display unit 43 of the slave device 40 displays a mark indicating that passage is prohibited. it's shown.

  When the automatic ticket gate 20 is set to the first operation mode, the control unit 21 of the main machine 30 maintains the doors 35 and 45 in the open state and opens or closes the doors 34 and 44. By controlling to the state, the passage of the user in the a direction is permitted or prohibited. In addition, when the automatic ticket gate 20 is set to an operation mode (second operation mode) in which only the passage in the direction b of FIG. 2 is permitted, the control unit 21 maintains the doors 34 and 44 in an open state. At the same time, the doors 35 and 45 are controlled to be in an open state or a closed state, thereby permitting or prohibiting the passage of the user in the b direction.

  The reader / writers 31 and 41, for example, read information from the medium M placed on the reader / writer, decode the read information, and obtain electronic information. Then, the reader / writers 31 and 41 output the acquired information to the control unit 21. Further, the reader / writers 31 and 41 encode and write information on the medium M placed on them. The reader / writers 31 and 41 communicate with the medium M using, for example, a communication band of 13.56 [MHz].

  FIG. 3 is a diagram illustrating a functional configuration of the control unit 21 according to the first embodiment. The control unit 21 is realized by a processor such as a CPU (Central Processing Unit) executing a program stored in the storage unit 25 (an example of a second storage device). The control unit 21 includes, for example, a processing unit 22, an update unit 23, and an output unit 24 as functional units. Among these, in particular, the processing unit 22 is a functional unit realized by the automatic ticket gate program 25A in operation. The processing unit 22 executes the “processing of the control unit 21” described with reference to FIG.

  The updating unit 23 updates the operating automatic ticket checker program 25A to the updated automatic ticket checker program 25B at a desired timing (periodically or in response to an instruction from the station server 10). The update unit 23 and the output unit 24 are realized by, for example, an OS (Operating System) or middleware higher than the automatic ticket checker program.

  The output unit 24 transmits the set value information 25C before the automatic ticket gate program is updated by the update unit 23 to the station server 10 using the communication unit 26. The set value information 25C is information indicating set values of operating conditions according to functions, installation positions, and the like that the automatic ticket gate 20 has. For example, the output unit 24 acquires the date and time when the update unit 23 next updates the automatic ticket checker program, and causes the communication unit 26 to transmit the set value information 25C before the acquired date and time. Further, the output unit 24 may receive a notification to update from the update unit 23 immediately before the update.

  The storage unit 25 stores, for example, an operating automatic ticket checker program 25A, an updated automatic ticket checker program 25B, and set value information 25C. The updated version of the automatic ticket gate program 25 </ b> B is acquired, for example, by the station server 10 being downloaded from an external device and distributed to each automatic ticket gate 20.

  When the automatic ticket gate machine program is updated by the updating unit 23, the setting value information 25C may be rewritten accordingly. The output unit 24 transmits the set value information 25C to the station server 10 using the communication unit 26 even after the automatic ticket gate program 25A is updated to the automatic ticket gate program 25B by the update unit 23.

[Setting value information: Before updating automatic ticket checker program]
FIG. 4 is a diagram showing the contents of the set value information 25C according to the first embodiment. As shown in FIG. 4, the set value information 25C is information in which, for example, the identification information ID and the set value PM are associated with each other. The identification information ID is information for identifying the setting value PM included in the setting value information 25C. The set value information 25C includes, for example, a set value PM of the number of operating conditions of the automatic ticket gate 20. In the illustrated example, the set value information 25C includes 20 set values PM.

The set value PM is a value that defines the operation of the automatic ticket checker program. For example, “1” indicating valid (ON), “0” indicating invalid (OFF), a numerical value in a predetermined range, and the like are set in each set value PM. For example, the set value PM of the identification information ID1 is a value for setting whether or not the automatic ticket gate 20 operates in the bidirectional pass mode. In the illustrated example, “1” indicating valid (ON) is set. Yes. For example, the set value PM of the identification information ID2 is a value indicating the identification number of the automatic ticket checker 20, and in the example shown in FIG. “3” indicating 3 is set.
For example, the set value PM of the identification information ID 20 is a value indicating whether or not the automatic ticket gate 20 is a type having a magnetic ticket slot, and in the illustrated example, “0” indicating invalidity (OFF) is set. Yes.

  The set value information 25C may include a set value PM that is not used in the automatic ticket checker program 25A. In this case, the automatic ticket checker program 25A refers to only the set value PM used for the operation among the set values PM included in the set value information 25C, and operates the automatic ticket checker 20.

  FIG. 5 is a diagram showing the contents of the set value information 25C # after the automatic ticket gate program according to the first embodiment is updated. When the automatic ticket checker program 25A is updated to the automatic ticket checker program 25B, for example, the number of set values PM included in the set value information 25C may increase or decrease as the automatic ticket checker program is updated. In this case, the set value PM used for the updated new automatic ticket checker program is added to the set value information 25C. Further, for the set value PM that is not used in the new automatic ticket checker program after the update, the set value PM and the corresponding identification information ID are deleted from the set value information 25C.

  In addition, the value of the setting value PM included in the setting value information 25C may be changed with the update of the station service device program. In this case, the set value PM of the set value information 25C is changed to a value corresponding to the updated new automatic ticket gate program. In the example of FIG. 5, among the setting values PM of the identification information ID1 to ID20, the setting value PM of the identification information ID1 is changed from “1” to “0”. Further, when the set value PM of the set value information 25C is not used in the new automatic ticket checker program after the update, the set value PM is changed to the initial value or the value is deleted along with the update.

[Station server]
FIG. 6 is a diagram illustrating a configuration of the station server 10 according to the first embodiment. The station server 10 is a device that monitors the automatic ticket gate 20 connected to the station server 10. The station server 10 acquires and manages, for example, an operation history of the automatic ticket gate 20 of the automatic ticket gate 20. The station server 10 includes, for example, a control unit 11, an operation unit 12, a display unit 13, a communication unit 14, and a storage unit 15 (an example of a first storage device).

  The control unit 11 is realized by a processor such as a CPU executing a program stored in the storage unit 15. The operation unit 12 receives an input operation by an administrator who manages the station server 10 and outputs information indicating the content of the received input operation to the control unit 11. The display unit 13 displays various information based on the control of the control unit 11. The operation unit 12 and the display unit 13 are, for example, a touch panel formed integrally. The operation unit 12 may include a keyboard, a switch, and the like. The communication unit 14 transmits / receives information to / from the automatic ticket gate 20 connected to the station server 10. In addition, the communication unit 14 causes the storage unit 15 to store information received from the automatic ticket gate 20 (for example, set value information 25C). The storage unit 15 stores a program for operating the station server 10 and information received from the automatic ticket gate 20.

  FIG. 7 is a diagram (part 1) illustrating an operation state of the station server 10 according to the first embodiment. In this state, the acquisition unit 111 causes the storage unit 15 to store setting value information 25 </ b> C before the automatic ticket gate machine program update received by the communication unit 14 from the automatic ticket gate 20. This state is a state before the automatic ticket checker program 25A is updated to the automatic ticket checker program 25B.

  FIG. 8 is a diagram (part 2) illustrating an operation state of the station server 10 according to the first embodiment. In this state, the acquisition unit 111 supplies the setting value information 25C (setting value information 25C #) received by the communication unit 14 from the automatic ticket gate 20 to the comparison unit 112. This state is a state after the automatic ticket gate program 25A is updated to the automatic ticket gate program 25B.

  The comparison unit 112 compares the set value information 25C # acquired from the acquisition unit 111 with the set value information 25C stored in the storage unit 15, and outputs the compared result to the display control unit 113. The display control unit 113 displays the comparison result output from the comparison unit 112 on the display unit 13. For example, the display control unit 113 generates an image indicating the comparison result, and displays the generated image on the display unit 13. In this example, the setting value PM associated with the identification information ID1 is different between the setting value information 25C and the setting value information 25C #. Therefore, an image indicating that the set value PM of the identification information ID1 is different is displayed on the display unit 13.

[Operation of station service system]
FIG. 9 is a sequence diagram illustrating an example of the operation of the station service system 1 according to the first embodiment. First, the output unit 24 of the automatic ticket gate 20 transmits the set value information 25C to the station server 10 using the communication unit 26 before updating the automatic ticket gate program (step S110). Next, the acquisition unit 111 of the station server 10 acquires the set value information 25C transmitted by the automatic ticket gate 20 and stores it in the storage unit 15 (step S115). Next, the update unit 23 of the automatic ticket checker 20 updates the automatic ticket checker program 25A to the automatic ticket checker program 25B (step S120). Next, the output unit 24 causes the station server 10 to transmit the updated set value information 25C # of the automatic ticket checker program using the communication unit 26 (step S130). Next, the comparison unit 112 of the station server 10 compares the set value information 25C # acquired by the acquisition unit 111 with the set value information 25C previously stored in the storage unit 15 (step S140). The display control unit 113 causes the display unit 13 to display an image based on the comparison result information detected by the comparison unit 112 (step S150).

  In the first embodiment described above, one or both of the output unit 24 and the acquisition unit 111 is an example of a “storage control unit”.

  As described above, according to the station service system 1 of the first embodiment, the storage unit 15, the automatic ticket gate program 25A, the automatic ticket gate program 25B, and the storage for storing the setting value information 25C indicating the setting value thereof. Unit 25, an update unit 23 for updating the automatic ticket gate program stored in the storage unit 25, and setting value information 25C stored in the storage unit 25 before the storage unit 25 updates the automatic ticket gate program. Settings stored in the storage unit 25 after the storage control unit (in cooperation with the output unit 24 and the acquisition unit 111 in the first embodiment) to be stored in the unit 15 and the update unit 23 update the automatic ticket gate program. The comparison unit 112 compares the value information 25C with the new set value information 25C # stored in the storage unit 25 as a result of the program update, and outputs a comparison result. Thereby, the administrator or the operator can easily confirm the difference in the set value information.

  Here, the worker who performs the update work or the manager who manages the station service equipment may be required to confirm that the set value PM is appropriately set after the program is updated. In this case, an operator or an administrator can confirm the set value PM that has changed before and after the automatic ticket checker program is updated by confirming the comparison result on the display unit 13. Further, the worker or the administrator can confirm the comparison result and confirm whether or not the value of the set value PM that has changed before and after the automatic ticket checker program update is an appropriate value. Therefore, according to the station service system 1 of the first embodiment, it is possible to reduce the work burden on the operator and the administrator when updating the automatic ticket gate program.

(Second Embodiment)
Hereinafter, the station service system 1 of 2nd Embodiment is demonstrated with reference to figures. FIG. 10 is a diagram illustrating an example of a functional configuration of the automatic ticket gate 20 according to the second embodiment. 1st Embodiment demonstrated the case where the station server 10 detected the difference before and behind the update of an automatic ticket gate program. In the second embodiment, a case will be described in which the automatic ticket checker 20 detects a difference between before and after the update of the automatic ticket checker program. In addition, about the structure similar to 1st Embodiment mentioned above, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  As illustrated in FIG. 10, the control unit 21 includes, for example, a processing unit 22, an update unit 23, an output unit 24, an acquisition unit 27, and a comparison unit 28 as functional units. Among these, in particular, the processing unit 22 is a functional unit realized by the automatic ticket gate program 25A in operation. The processing unit 22 executes the “processing of the control unit 21” described with reference to FIG.

  The updating unit 23 updates the operating automatic ticket checker program 25A to the updated automatic ticket checker program 25B at a desired timing (periodically or in response to an instruction from the station server 10). The update unit 23, the output unit 24, the acquisition unit 27, and the comparison unit 28 are realized by, for example, an OS (Operating System) or middleware higher than the automatic ticket checker program.

  The output unit 24 transmits the set value information 25C before the automatic ticket gate program is updated by the update unit 23 to the station server 10 using the communication unit 26. The acquisition unit 111 of the station server 10 stores the received set value information 25C in the storage unit 15. The output unit 24 of the second embodiment differs from the first embodiment in that the setting value information 25C is stored in the station server after the automatic ticket gate program 25A is updated to the automatic ticket gate program 25B by the update unit 23. Do not send to 10.

  The acquisition unit 27 transmits an information request to the station server 10 using the communication unit 26 after the automatic ticket gate program 25A is updated to the automatic ticket gate program 25B by the update unit 23, and is stored in the storage unit 15. The value information 25C is acquired.

  The comparison unit 28 sets the setting value information 25C acquired by the acquisition unit 111 and the setting value information 25C (setting) stored in the storage unit 15 after the automatic ticket gate program 25A is updated to the automatic ticket gate program 25B by the update unit 23. Value information 25C #). Here, the automatic ticket gate 20 displays the comparison result compared by the comparison unit 28 on a display unit (the upper surface display unit 32, the front display unit 33, the upper surface display unit 42, and the front display unit 43) provided in the automatic ticket gate 20. The comparison result may be transmitted to the station server 10 and displayed on the display unit 13.

  Also in the second embodiment, the storage control unit is based on the cooperation of the output unit 24 and the acquisition unit 111.

  As described above, in the second embodiment, the station service device is the automatic ticket gate 20, and the storage unit 15 (first storage device) is provided in the station server 10 that monitors the automatic ticket gate 20, The comparison unit 28 is realized by the automatic ticket gate 20. Here, the worker or the administrator confirms the comparison result by the display unit (the upper surface display unit 32, the front display unit 33, the upper surface display unit 42, or the front display unit 43) provided in the automatic ticket gate 20, It is possible to check for each automatic ticket checker 20 a set value PM in which a difference occurs before and after the automatic ticket checker program is updated. Therefore, according to the station service system 3 of 2nd Embodiment, the operator at the time of the program update of a station service apparatus and a manager's workload can be reduced.

(Third embodiment)
Hereinafter, the station service system 3 of 3rd Embodiment is demonstrated with reference to figures. FIG. 11 is a diagram illustrating a configuration of the station service system 3 according to the third embodiment. In the first embodiment and the second embodiment, the case where the station service device to be updated is the automatic ticket gate 20 has been described. In the third embodiment, the station server for which the program is to be updated is the station server 10. And the station server 10 itself detects the difference of the setting value which shows the operating conditions etc. of the said station server 10 before and after the update of a program. In addition, about the structure similar to 1st Embodiment mentioned above, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  As shown in FIG. 11, the station service system 3 includes a station server 10, an automatic ticket gate 20, and a file server 60 (an example of a first storage device). The station server 10 and the file server 60 communicate with each other via the network NW. The file server 60 stores information received from the station server 10.

[Station server control section]
FIG. 12 is a diagram illustrating a functional configuration of the control unit 11 included in the station server 10 according to the third embodiment. The control unit 11 is realized by a processor such as a CPU executing a program stored in the storage unit 15 (an example of a second storage device). The control unit 11 includes an acquisition unit 111, a comparison unit 112, a display control unit 113, an output unit 114, and an update unit 115 as functional units.

  The updating unit 115 updates the station server program 15A in operation to the updated version of the station server program 15B at a desired timing (periodically or in response to an instruction from a device higher than the station server 10). The acquisition unit 111, the comparison unit 112, the display control unit 113, the output unit 114, and the update unit 115 are realized by, for example, an OS (Operating System) or middleware higher than the station server program. The station server program realizes the original function of the station server 10 that monitors the automatic ticket gate 20, etc., for example, instead of the various configurations shown in the figure.

  The output unit 114 transmits the set value information 15C before the station server program is updated by the update unit 115 to the file server 60 using the communication unit 14. The file server 60 is, for example, a NAS (Network Attached Storage) that can be accessed via the network NW. The set value information 15C is information indicating set values of operation conditions according to functions, installation positions, and the like that the automatic ticket gate 20 has. For example, the output unit 114 acquires the date and time when the update unit 115 next updates the station server program, and causes the communication unit 14 to transmit the set value information 15C before the acquired date and time. Further, the output unit 114 may receive a notification of updating from the updating unit 115 immediately before updating.

  The storage unit 15 stores, for example, an operating station server program 15A, an updated station server program 15B, and set value information 15C. For example, the station server 10 downloads the updated version of the station server program 15B from an external device. When the station server program is updated by the updating unit 115, the setting value information 15C stored in the storage unit 15 may be rewritten accordingly.

  FIG. 13 is a diagram (part 1) illustrating an operation state of the station server 10 according to the third embodiment. In this state, the output unit 114 transmits the setting value information 15C before the station server program update using the communication unit 14 to be stored. This state is a state before the station server program 15A is updated to the station server program 15B.

FIG. 14 is a diagram (part 2) illustrating an operation state of the station server 10 according to the third embodiment. In this state, the acquisition unit 111 acquires setting value information 15C (setting value information 15C #) from the file server 60 using the communication unit 14, and supplies the setting value information 15C to the comparison unit 112. This state is a state after the station server program 15A is updated to the station server program 15B.
Since the subsequent configuration is the same as that of the above-described embodiment, the description thereof is omitted.

  In the third embodiment, the output unit 114 is an example of a “storage control unit”.

  As described above, in the third embodiment, the station service device is the station server 10 connected to the file server 60 (first storage device), and the storage unit 15 and the comparison unit 112 are provided by the station server 10. Realized.

  Here, the worker who performs the update work or the manager who manages the station service equipment may be required to confirm that the set value PM is appropriately set after the program is updated. In this case, the operator or the administrator can confirm the set value PM that has changed before and after the station server program is updated by confirming the comparison result on the display unit 13. Further, the worker or the administrator can confirm the comparison result and confirm whether or not the value of the set value PM changed before and after the update of the station server program is an appropriate value. Therefore, according to the station service system 1 of the third embodiment, it is possible to reduce the work burden on the operator and the administrator when updating the station server program.

  In addition, although the station server 10 memorize | stores only the setting value information 15C in the file server 60 accompanying the update of 3rd Embodiment and a station server program, it is not restricted to this. When the station server program is updated, the setting value information 25C of the automatic ticket gate 20 connected to the station server 10 and the like are stored in the file server 60 together with the setting value information 15C of the station server 10. Also good. In this case, the station server 10 can detect in parallel the set value PM of the station server 10 and the set value PM of the automatic ticket gate 20 that are different before and after the station server program is updated.

  According to at least one embodiment described above, the first storage device, the station service device program, the second storage device that stores the setting values of the station service device program, and the second storage device are stored. An update unit that updates the station service device program, and a storage control unit that stores the set value stored in the second storage device in the first storage device before the update unit updates the station service device program; After the updating unit updates the station service device program, the setting value stored in the first storage device is compared with the new setting value stored in the second storage device as a result of the program update, and the comparison result And a comparison section that outputs the information, a work load at the time of updating the program of the station service equipment can be reduced.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the spirit of the invention. These embodiments and their modifications are included in the scope and gist of the invention, and are also included in the invention described in the claims and the equivalents thereof.

DESCRIPTION OF SYMBOLS 1, ... Station service system, 10 ... Station server, 20 ... Automatic ticket gate, 60 ... File server, 11, 21 ... Control part, 111, 27 ... Acquisition part, 112, 28 ... Comparison part, 113 ... Display control part 114, 24 ... output unit, 22 ... processing unit, 115, 23 ... update unit, 12 ... operation unit, 13 ... display unit, 14, 26 ... communication unit, 15, 25 ... storage unit, 15A, 15B ... station server Program, 15C, 25C ... set value information, 25A, 25A ... automatic ticket gate program, 25B, 25B ... automatic ticket gate program, ID ... identification information, PM ... set value

Claims (5)

A first storage device;
A station storage device program, a second storage device for storing set values of the station service device program,
An update unit for updating a station service device program stored in the second storage device;
A storage control unit that stores the setting value stored in the second storage device in the first storage device before the update unit updates the program of the station service device;
After the update unit updates the program of the station service device, the setting value stored in the first storage device, and a new setting value stored in the second storage device as a result of the update of the program, A comparison unit that compares the data and outputs a comparison result;
Equipped with station service system. The station service equipment is an automatic ticket gate,
The first storage device is provided in a monitoring device that monitors the automatic ticket gate,
The comparison unit is realized by the monitoring device.
The station service system according to claim 1. The station service equipment is an automatic ticket gate,
The first storage device is provided in a monitoring device that monitors the automatic ticket gate,
The comparison unit is realized by the automatic ticket gate,
The station service system according to claim 1. The station equipment is a monitoring device that monitors an automatic ticket gate,
The first storage device is a file server connected to the monitoring device;
The storage control unit and the comparison unit are realized by the monitoring device.
The station service system according to claim 1. The comparison unit causes the display unit to display an image based on the comparison result.
The station service system according to any one of claims 1 to 4.

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