JP2011197922A - Parameter-setting system, set device, setting device and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a parameter-setting system, a set device, a setting device and a program, dispensing with maintaining information on a set value applicable to the set device on the setting device, attaining a simpler configuration, and applying setting intended by a user to the set device.SOLUTION: In the parameter-setting system, the set device includes a setting acquiring means which acquires the parameter from the setting device; a setting propriety determining means which determines whether the acquired parameter is settable to one's own device; a setting applying means which sets the parameter determined to be settable to own device; a substitute setting determining means which determines a substitute parameter settable to own device in substitution for the former parameter if it is determined to be nonsettable; and a substitute setting notifying means which notifies information regarding the setting propriety state of the parameter from the setting device and the determined substitute parameter, to the setting device.

Description

  The present invention relates to the field of a parameter setting system, a set device, a setting device, and a program.

  2. Description of the Related Art Conventionally, setting devices are known that can apply the same setting values collectively to a plurality of setting devices (application servers) via a network. When there are many application servers, it takes time to set the parameters (setting values) individually, so it takes time to set the parameters individually. It can be set up and is very convenient.

  However, the parameters can be applied together using the setting device only when the parameters match the applicable parameters of each application server. If they do not match, the setting work must be performed for each application server after all. I must.

  As a technology related to this, even if the setting values that can be applied do not match between multiple devices, it is determined whether or not the setting values can be applied for the purpose of applying the setting values at the same time. On the other hand, there is disclosed means for determining commonly applicable setting values (see, for example, Patent Document 1).

  However, in the invention described in Patent Document 1, it is determined on the management server side whether the setting value requested for setting can be applied to each of a plurality of devices to be managed. Therefore, it is necessary to store and manage setting values and various information that can be set for each device in advance on the management server side. In addition, since a common setting value is applied to all devices, an unintended setting may be applied to a device to which the user wants to apply the setting.

  Therefore, in the present invention, in view of the above problems, the setting device does not need to hold information on setting values applicable to the device to be set, and is realized with a simpler configuration, and the setting as intended by the user. An object of the present invention is to provide a parameter setting system, a setting device, a setting device, and a program that apply the above to a setting device.

  In order to solve the above problems, a parameter setting system according to the present invention includes a setting device that sets parameters for a plurality of setting devices, and a plurality of setting devices that set parameters from the setting device in the device itself. , Is a parameter setting system connected via a network, the setting target device is a setting acquisition means for acquiring parameters from the setting device, and a setting for determining whether or not the acquired parameters can be set in the own device An acceptability determining means; a setting applying means for setting a parameter determined to be settable in the own apparatus; and an alternative setting for determining an alternative parameter that can be set in the own apparatus instead of the parameter when the setting is determined to be not allowed Alternative setting for notifying the setting device of determination means, information on availability of parameter setting from the setting device, and the determined alternative parameter It has a known means.

  In order to solve the above problem, in the parameter setting system, the setting device includes setting status acquisition means for acquiring information on the setting availability and the alternative parameter, and the setting target device from the setting target device. When two or more alternative parameters are acquired, reset parameter determining means for determining one reset parameter to be set for the set device, and the determined one reset parameter to the set device Setting means for performing setting, and in the set target device, the setting acquisition means acquires the reset parameter from the setting device, and the setting application means sends the reset parameter to the own device. Set.

  In order to solve the above problem, in the parameter setting system, the setting device may be configured such that when the resetting parameter determination unit acquires the alternative parameter from two or more of the setting devices, the two or more of the setting parameters are set. Among the alternative parameters from the apparatus, one common alternative parameter is determined as a reset parameter.

  In order to solve the above-mentioned problem, in the parameter setting system, when the setting device acquires the substitute parameter from two or more of the set devices, among the substitute parameters from the two or more set devices, Selection means for selecting one alternative parameter to be set by the user, and the resetting parameter determination means determines the selected one alternative parameter as the resetting parameter.

  In addition, what applied the arbitrary combination of the component of this invention, expression, or a component to a method, an apparatus, a system, a computer program, a recording medium, etc. is also effective as an aspect of this invention.

  According to the present invention, it is not necessary to hold information on setting values applicable to the setting device on the setting device side, the configuration is realized with a simpler configuration, and settings as intended by the user are applied to the setting device. A parameter setting system, a device to be set, a setting device, and a program can be provided.

It is a block diagram of the parameter setting system which concerns on this embodiment. 2 is a hardware configuration diagram showing a main configuration of an embodiment of a setting server 10. FIG. It is a functional block diagram which shows the main functions of one Embodiment of each apparatus. It is a sequence diagram which shows the information processing (first half part) between the setting server and an application server. It is a sequence diagram which shows the information processing (second half part) between the setting server 10 and an application server. An example of a selection screen is shown.

  The best mode for carrying out the present invention will be described below with reference to the drawings in each embodiment.

[System configuration]
(overall structure)
First, before describing specific contents of the present invention, an overall configuration for carrying out the present invention will be described. FIG. 1 is a configuration diagram of a parameter setting system according to the present embodiment. As shown in the figure, a parameter setting system 100 according to this embodiment includes a setting server 10, an application server A20, an application server B30, and an application server C40, and is connected to each other via a network. For convenience of explanation, only three application servers are shown, but it goes without saying that a plurality of them can be connected.

  The setting server 10 is a setting device that collectively sets parameters (setting values) input by a user for each of a plurality of application servers. The user can collectively perform parameter setting work for each application server using the setting server 10. Instead of the user directly operating the setting server 10, a client terminal (not shown) such as an operation terminal is prepared, and the user operates the setting server 10 via the client terminal, so that the setting server 10 It is also possible to set the input parameters (setting values) collectively for each of a plurality of application servers.

  The application server A20 is a device to be set that receives a parameter input from the user from the setting server 10 and sets the parameter (value) for the device itself. If the parameter is set, the application server A20 operates the application of its own device according to the parameter. The application server B30 and the application server C40 are the same as the application server A20.

  Note that the above system configuration is merely an example. For example, an operation terminal may be further provided in the network, and the setting server 10 may be operated from each operation terminal.

(hardware)
Here, the hardware configuration of the setting server 10 will be briefly described. FIG. 2 is a hardware configuration diagram showing a main configuration of one embodiment of the setting server 10. The setting server 10 includes, as main components, a CPU 101, a ROM (Read Only Memory) 102, a RAM (Random Access Memory) 103, an auxiliary storage device 104, a storage medium reading device 105, an input device 106, a display device 107, and a communication device. 108. The application server A20, the application server B30, and the application server C40 can also be configured with the same hardware configuration as the setting server 10, and therefore the description thereof is omitted instead of the hardware configuration of the setting server 10.

  The CPU 101 is composed of a microprocessor and its peripheral circuits, and is a circuit that controls the entire apparatus. The ROM 102 is a memory that stores a predetermined control program (software component) executed by the CPU 101. The RAM 103 executes various control operations by the CPU 101 executing a predetermined control program (software component) stored in the ROM 102. This is a memory used as a work area (work area) when performing.

  The auxiliary storage device 104 is a device that stores various information including a general-purpose OS (Operating System) and various programs, and an HDD (Hard Disk Drive) that is a nonvolatile storage device is used.

  The input device 106 is a device for the user to perform various input operations. The input device 106 includes a mouse, a keyboard, a touch panel switch provided so as to be superimposed on the display screen of the display device 107, and the like. The display device 107 is a device that displays various data on a display screen. For example, it is composed of LCD (Liquid Crystal Display), CRT (Cathode Ray Tube) and the like.

  The communication device 108 is a device that communicates with other devices via a network. Supports communication according to various network forms including wired and wireless networks.

  Since the hardware configuration shown in FIG. 2 can be similarly applied to the hardware configuration of the application servers (A20, B30, C40), the presentation and description of the drawings are omitted.

(function)
Next, the main functional configurations of the setting server 10 and the application server A20 will be briefly described. Since the application server A20 is described as being representative of the application server B30 and the application server C40, the application server B30 and the application server C40 also have the same main functional configuration as the application server A20.

  FIG. 3 is a functional block diagram showing the main functions of one embodiment of each apparatus. The setting server 10 includes a setting unit 11, a setting status acquisition unit 12, a reset parameter determination unit 13, and a selection unit 14 as main functions.

  The setting unit 11 has a function of setting parameters to be set in the application server. Specific parameters (setting values) are given by the user. For example, when the user operates the setting server 10, the parameters are set in the application server. As described above, when the user operates the setting server 10 via the client terminal, the setting unit 11 instructs the setting unit 11 to instruct the setting unit 11 so that the setting unit 11 sets the parameter to be set to the application. Settings will be made for the server.

  The setting status acquisition unit 12 has a function of acquiring setting availability status information and alternative parameters from the application server. The setting availability status information and alternative parameters will be described later.

  The reset parameter determination unit 13 has a function of determining one reset parameter to be set for the application server when two or more alternative parameters are acquired. Specifically, among the alternative parameters from the two or more application servers, one common alternative parameter can be determined as the reset parameter. Alternatively, one alternative parameter selected by the selection unit 14 can be determined as a reset parameter.

  The selection unit 14 has a function of allowing the user to select one alternative parameter to be set from among the alternative parameters from the two or more application servers when the alternative parameter is acquired from two or more application servers.

  Next, the application server A20 includes a setting acquisition unit 21, a setting availability determination unit 22, a setting application unit 23, an alternative setting determination unit 24, an alternative setting notification unit 25, and a parameter storage unit 26 as main functions.

  The setting acquisition unit 21 has a function of acquiring parameters from the setting server 10. Also, the reset parameter described later is acquired.

  The setting availability determination unit 22 has a function of determining whether the acquired parameter can be set in the own device. When it is determined that setting is possible, the parameter determined to be set is set in the own apparatus by the setting application unit 23. On the other hand, in the case of determination of setting failure, this is transmitted to the alternative setting determination unit 24. Details of the determination method will be described later.

  The setting application unit 23 has a function of setting parameters determined to be settable by the setting availability determination unit 22 as parameter information of the own device. If the parameter is set, the application server operates the application of the own device according to the parameter.

  The alternative setting determination unit 24 has a function of determining an alternative parameter that can be set in the own device instead of the parameter determined to be the setting failure when the setting possibility determination unit 22 determines that the setting is not possible. Yes. Based on the parameter information, although it is not applicable to the own device (for example, it is not supported) for the parameter determined to be unacceptable, other parameters that can be set other than this parameter are determined as alternative parameters. This alternative parameter is proposed to the setting server 10.

  The alternative setting notification unit 25 has a function of notifying the setting server 10 of information on the setting availability status of parameters from the setting server 10 by the setting availability determination unit 22 (setting availability or setting failure) and the determined alternative parameters. is doing. The substitute parameter is notified when the parameter from the setting server 10 is determined not to be set to the own device.

  The parameter storage unit 26 is a functional unit that stores various parameter information of the own device.

  The above is the main functional configuration of the setting server 10 and the application server. These functions are actually realized by a computer by a program executed by the CPU of each device.

[Information processing]
Next, information processing performed by the setting server 10 and the application server will be described. 4 and 5 are sequence diagrams showing information processing between the setting server 10 and the application server. For convenience, FIG. 4 shows information processing in the first half and FIG. 5 shows information processing in the second half.

  As a specific example here, the application servers A20, B30, and C40 can arbitrarily set the language type (for example, Japanese, English, French, Spanish, etc.) used in the application within a range within the support. Suppose that The setting server 10 first sets Japanese as the setting language for all the application servers A20, B30, and C40. In the sequence diagram, the application server A20 is described as being representative of the application server B30 and the application server C40. Therefore, the application server B30 and the application server C40 can perform the same information processing as the application server A20. Not too long.

First, an overview of information processing performed by the setting server 10 and the application server will be described. As described above, the setting server 10 collectively sets Japanese as a setting language for all the application servers A20, B30, and C40. The application server C40 supports (corresponds to) Japanese on the application, and can accept this setting. In this case, the parameter information of the application server C40 is, for example,
(Application server C40) Language parameter: Jp
It has become.

However, neither application A20 nor application B30 supports Japanese, and this setting cannot be accepted. For example, the application A20 supports English and French on the application, and the application B30 supports English and Spanish on the application.
(Application A20) Language parameters: En, Fr
(Application B30) Language parameters: En, Sp
Therefore, although the Japanese setting instructed from the setting server 10 cannot be performed, the language supported by the own device can be notified to the setting server 10. Upon receiving this notification, the setting server 10 performs the setting again. Specifically, in this case, upon receiving this notification, the setting server 10 performs another English language setting for the application A20 and the application B30. This will be described below with reference to the drawings.

  The term “support” here is a term frequently used by those skilled in the art, and means that a function is “implemented” in an application on the application server so that it can be realized. Therefore, for example, when the application server C40 supports Japanese in the application, when the application is used, the exchange with the user (user operation, some information notification / display to the user, etc.) is in Japanese. It means that you can do it.

(First half)
Reference is again made to FIG. 4 (first half). When the setting server 10 first receives an input of a parameter to be set from the user, the setting unit 11 acquires the input parameter. Then, the setting unit 11 collectively sets the parameters to be set for each of the application server A20, the application server B30, and the application server C40 (S1). Here, it is assumed that the language setting parameter (setting value) input by the user is “Japanese (jp)”.

  In the application server A20, when the setting acquisition unit 21 acquires a parameter from the setting server 10, the parameter is transmitted to the setting availability determination unit 22 (S2).

  The setting availability determination unit 22 determines whether the acquired parameter can be set in the own device (S3). If it is determined that the setting is possible, the parameter that is determined to be set is transferred to the setting application unit 23 (S4) and then set in the own apparatus (S5). When the parameter is set, the application server operates the application of the own device according to the parameter. When the setting to the own device is completed, a setting completion notification is made from the application server A20 to the setting server 10 (not shown).

  On the other hand, in the case of determination of setting failure, this is transmitted to the alternative setting determining unit 24 (S6). Here, as described above, the application A20 does not support Japanese as a parameter in the language setting, and cannot accept this setting. Therefore, a setting rejection is determined, and this is transmitted to the alternative setting determining unit 24.

  Since the setting availability determination unit 22 determines that the setting is not allowed, the alternative setting determination unit 24 determines an alternative parameter that can be set in the own device instead of the parameter determined to be setting failure (S7). As described above, since the application A20 supports English and French on the application, “English (en)” and “French (fr)” are determined as alternative parameters that can be set in the own device. An alternative parameter that can be set in the own device can be specified by reading out the parameter information in the parameter storage unit 26 and matching with the language parameter held (that is, supported) by the own device. The alternative setting determination unit 24 transmits the determined alternative parameter to the alternative setting notification unit 25 (S8).

  The alternative setting notification unit 25 notifies the setting server 10 of the alternative parameter determined by the alternative setting determination unit 24 together with information on whether or not the previous parameter can be set (setting failure) (S9). Here, “English (en)” and “French (fr)” are notified as alternative parameters.

(Second half)
Next, refer to FIG. 5 (second half). In the setting server 10, the setting status acquisition unit 12 acquires setting availability status information and alternative parameters from the application server A 20 (S 9). The acquired alternative parameter is transferred to the reset parameter determination unit 13 (S10).

  Here, the setting status acquisition unit 12 acquires information on the setting availability status and alternative parameters also from the application server B30. As described above, since the application B30 supports English and Spanish on the application, the alternative parameters from the application server B30 are “English (en)” and “Spanish (sp)”. On the other hand, the setting completion notification is sent from the application server C40 to the setting server 10 (S9-2). This is because the application server C40 supports Japanese as a language setting parameter as described above.

  When the reset parameter determination unit 13 acquires two or more alternative parameters, the reset parameter determination unit 13 determines one reset parameter to be set for the application server (S11). Specifically, alternative parameters “English (en)” and “French (fr)” are acquired from the two or more application servers A20, and “English (en)” and “Spain” are acquired from the application server B30. An alternative parameter for "word (sp)" is obtained. Of these alternative parameters, one common alternative parameter can be determined as a reset parameter. In this case, since one common alternative parameter is “English (en)”, the reset parameter determination unit 13 determines the alternative parameter “English (en)” as the reset parameter. This is because the setting server 10 can collectively set the application servers A20 and B30 as long as they are alternative parameters that are common to determine in this way.

  As a modified example, the user can determine an alternative parameter as a reset parameter from among reset parameter candidates of the alternative parameters “English (en)”, “French (fr)”, and “Spanish (sp)”. It can also be. In this case, the reset parameter determination unit 13 passes the reset parameter determination unit 13 to the selection unit (S11-2).

  Upon acquiring the alternative parameter, the selection unit 14 generates a selection screen that allows the alternative parameter to be selected (S11-3), and allows the user to select one alternative parameter to be set. Here, the user can select an alternative parameter as one resetting parameter from among alternative parameters of “English (en)”, “French (fr)”, and “Spanish (sp)”. By doing in this way, it can prevent that the parameter which a user does not intend is set.

  Here, it is assumed that the user selects “English (en)”. On the selection screen, the parameter that can be set in common is also displayed as “English (en)”, and if “English (en)”, which is a parameter of the common setting language, is selected, it is set The server 10 sets the “English (en)” parameter again for the application servers A20 and B20. If “English (en)” is not selected, it becomes a problem of parameter setting for each application server. That is, the parameters may be set individually for each application server via the setting server 10.

  FIG. 6 shows an example of the selection screen. As shown in the figure, the user can set the parameter “English (en)” of the common setting language again for the application server A20 and the application server B20 by operating the selection screen. In addition, the parameter of the setting language can be set again individually for the application server A20 and the application server B20.

  When the reset parameter is determined through any of the reset parameter determination processes in S11, the reset parameter is passed to the setting unit (S12). When the setting unit 11 acquires the reset parameter as the input parameter (S13), the setting unit 11 collectively sets the reset parameter for each of the application server A20 and the application server B30 (again, return to S1). Here, since the “English (en)” reset parameter is supported by both the application server A20 and the application server B30, it is set in each server through the determination process (S3) and the parameter setting process (S5). (Omitted below).

  As described above, the application server according to the present embodiment determines whether or not the setting parameter from the setting server 10 can be applied, and notifies the setting server 10 of the setting of the alternative parameter when this cannot be applied. There is no need to store parameters (setting values) and information of each application server in advance. That is, since the parameters that can be set by the application server are first recognized by the application server itself, the application server according to the present embodiment can be used without storing the parameters of each application server in advance on the setting server 10 side. Can notify (suggest) the parameters applicable to the device itself from the application server side to the setting server 10 side.

  In addition, the setting server 10 according to the present embodiment determines appropriate parameters that the setting server 10 can set (apply) to the application server again after receiving notification contents (applicable parameters) from a plurality of application servers. Or suggesting parameters that can be reset from the setting server 10 to the user, it is possible to apply settings as intended by the user to the application server (preventing setting of parameters not intended by the user). .

[Modification 1]
In the above-described embodiment, for all the application servers A20, B30, and C40, first, Japanese is set as a setting language, and the application A20 supports English and French on the application. The application B30 is assumed to support English and Spanish on the application.

  Here, for all the application servers A20, B30, and C40, first, Japanese is set as the setting language. The application A20 supports English and French on the application, and the application B30 Suppose that the application supports English and French. That is, both application A20 and application B30 support English and French. That is, in this case, the alternative parameters notified to the setting server 10 are “English” and “French” from the application server A20, and “English” and “French” from the application server B30.

  Upon receiving this notification, the setting server 10 performs the setting again. Of these alternative parameters, the reset parameter determining unit 13 determines one common alternative parameter as the reset parameter, and can determine either “English” or “French” as the reset parameter.

When there are a plurality of alternative parameters that can be determined in this way, it is preferable to assign a priority (priority value) to the parameter in advance on the application server side. That is, in the notified alternative parameters, the alternative parameters from the application server A20 are “English” (priority 1) and “French” (priority 2), and the alternative parameters from the application server B30 are “English” (priority 1). ), “French” (priority 2), and the like, the priority is given together with the alternative parameter. In this case, it can be determined as one common alternative parameter, which is a reset parameter that has higher priority. Next, an example of parameter information including language priority information is shown. In the example below, the number in parentheses indicates the priority.
(Application A20) Language parameters: En (1), Fr (2)
(Application B30) Language parameters: En (1), Fr (2)
Alternatively, the resetting parameter determination unit 13 temporarily determines one of the alternative parameters as a resetting parameter, and cannot determine either “English” or “French” as described above. In this case, the user can select either “English” or “French” on the selection screen. In this case, the setting server 10 automatically determines the reset parameter first, and if there are a plurality of reset parameters that can be set by any parameter, the user is allowed to select on the selection screen. , It is possible to prevent a setting unintended by the user.

[Modification 2]
In the above-described embodiment, the type of language (for example, Japanese, English, French, Spanish, etc.) has been described as a parameter. Here, another example is shown as a specific example of the parameter.

  As a specific example, there is a setting relating to a log. In the case of Log setting, parameters that can be parameters are the storage period days (for example, 10 days and 30 days) and the maximum storage capacity (for example, 100 GB). In the case of such a parameter, a specific numerical value is designated rather than one of the predetermined parameters like a language.

  Here, it is assumed that the application servers A20, B30, and C40 can arbitrarily set the maximum storage capacity of application logs that can be stored by the application itself. However, the maximum storage capacity of the application server A20 is 50G, the maximum storage capacity of the application server B30 is 100G, and the maximum storage capacity of the application server C30 is 200G because of the disk and specifications.

  The setting server 10 first sets “150 G” as the maximum storage capacity of the log to be set for all the application servers A20, B30, and C40. As described above, the setting server 10 collectively sets the parameter “150G” as the maximum log storage capacity for all the application servers A20, B30, and C40.

  The application server C40 can accept this setting on the application. However, neither the application A20 nor the application B30 supports the maximum log storage capacity of 150G, and cannot accept this setting. Therefore, although the parameter “150G” instructed from the setting server 10 cannot be set, the maximum log storage capacity supported by the own apparatus can be notified to the setting server 10. That is, the notified alternative parameter is “50G” from the application server A20 and “100G” from the application server B30.

  Upon receiving this notification, the setting server 10 performs the setting again. The resetting parameter determining unit 13 determines one common alternative parameter among these alternative parameters as the resetting parameter, and the resetting parameter determined in this case is “100G”.

  As described above, when the parameter is a specific numerical value, the greatest common divisor is determined as the reset parameter in the plurality of alternative parameters. That is, since the parameter specified by the user is “150G”, the maximum common divisor is determined as the reset parameter, so that the maximum storage capacity of the log of the application server can be achieved with a parameter that is as close as possible to this user-specified parameter. Can be set.

  On the other hand, if the parameter is a specific numerical value and the least common divisor is rather the reset parameter, it is closer to the parameter specified by the user, and the maximum common divisor is determined as the reset parameter. The parameter can be set in the application server with a realizable parameter close to this user-specified parameter.

[Summary]
As described above, the set target device (for example, the application server) according to the present embodiment determines whether or not the setting parameter from the setting device (for example, the setting server) can be applied, and sets the alternative parameter setting when this is not possible. Since the notification is made to the device, it is not necessary to previously store the setting values and information of each device to be set on the setting device side, and a parameter setting system and a setting device can be realized with a simpler configuration.

  In addition, the setting device according to the present embodiment determines appropriate parameters that can be set (applied) to the setting device again by the setting device based on the notification contents from the plurality of setting devices, or from the setting device to the user. Therefore, it is possible to apply a setting as intended by the user to the device to be set (can prevent a parameter not intended by the user from being set).

  That is, according to the present invention described above, the setting device does not need to hold information on setting values applicable to the device to be set, is realized with a simpler configuration, and can be set as intended by the user. It is possible to provide a parameter setting system, a set device, a setting device, and a program to be applied to the above.

  Note that the present invention is not limited to such specific embodiments, and various modifications and changes can be made within the scope of the gist of the present invention described in the claims.

DESCRIPTION OF SYMBOLS 10 Setting server 11 Setting part 12 Setting condition acquisition part 13 Reset parameter determination part 14 Selection part 20 Application server A
DESCRIPTION OF SYMBOLS 21 Setting acquisition part 22 Setting availability determination part 23 Setting application part 24 Replacement setting determination part 25 Alternative setting notification part 26 Parameter storage part 30 Application server B
40 Application Server C
100 Parameter setting system 101 CPU
102 ROM
103 RAM
104 Auxiliary storage device 105 Storage medium reading device 106 Input device 107 Display device 108 Communication device

JP-A-2005-99949

Claims (8)

A parameter setting system in which a setting device that sets parameters for a plurality of devices to be set and a plurality of devices that set parameters from the setting device in its own device are connected via a network,
The set device is
Setting acquisition means for acquiring parameters from the setting device;
Setting availability determination means for determining whether the acquired parameter can be set in the own device;
A setting applying means for setting the parameter determined to be settable in the own device;
When it is determined that the setting is not allowed, instead of the parameter, an alternative setting determining unit that determines an alternative parameter that can be set in the own device;
An alternative setting notification means for notifying the setting device of information on whether or not parameters can be set from the setting device and the determined alternative parameters;
A parameter setting system characterized by comprising: The setting device includes:
Setting status acquisition means for acquiring the setting availability status information and the alternative parameter from the set target device;
Reset parameter determination means for determining one reset parameter to be set for the set device when two or more alternative parameters are acquired from the set device;
Setting means for setting the determined one reset parameter in the set device;
Have
In the set device,
The setting acquisition means acquires the reset parameter from the setting device,
The setting applying means sets the reset parameter in the own device;
The parameter setting system according to claim 1. The setting device includes:
The resetting parameter determination unit determines, as a resetting parameter, one common alternative parameter among the alternative parameters from the two or more set devices when the substitute parameter is acquired from two or more of the set devices. To do,
The parameter setting system according to claim 2. The setting device includes:
A selection unit that, when acquiring the substitution parameter from two or more of the set devices, allows the user to select one substitution parameter to be set among substitution parameters from the two or more of the set devices;
Have
The resetting parameter determining means determines the selected one alternative parameter as a resetting parameter;
The parameter setting system according to claim 2. A setting device that is connected via a network to a setting device that sets parameters for a plurality of devices to be set, and that sets parameters from the setting device in its own device,
Setting acquisition means for acquiring parameters from the setting device;
Setting availability determination means for determining whether the acquired parameter can be set in the own device;
A setting applying means for setting the parameter determined to be settable in the own device;
When it is determined that the setting is not allowed, instead of the parameter, an alternative setting determining unit that determines an alternative parameter that can be set in the own device;
An alternative setting notification means for notifying the setting device of information on whether or not parameters can be set from the setting device and the determined alternative parameters;
A device to be set, comprising: A setting device connected to the set-up device according to claim 5 through a network and configured to set parameters for a plurality of set-up devices,
Setting status acquisition means for acquiring the setting availability status information and the alternative parameter from the set target device;
Reset parameter determination means for determining one reset parameter to be set for the set device when two or more alternative parameters are acquired from the set device;
Setting means for setting the determined one reset parameter in the set device;
Have
The resetting parameter determination unit determines, as a resetting parameter, one common alternative parameter among the alternative parameters from the two or more set devices when the substitute parameter is acquired from two or more of the set devices. To do,
A setting device characterized by. Connected via a network to a setting device that sets parameters for a plurality of devices to be set, and to a device to be set that sets parameters from the setting device in its own device,
Setting acquisition means for acquiring parameters from the setting device;
Setting availability determination means for determining whether the acquired parameter can be set in the own device;
A setting applying means for setting the parameter determined to be settable in the own device;
When it is determined that the setting is not allowed, instead of the parameter, an alternative setting determining unit that determines an alternative parameter that can be set in the own device;
An alternative setting notification means for notifying the setting device of information on whether or not parameters can be set from the setting device and the determined alternative parameters;
A program characterized by making it function. A setting device connected to the set device according to claim 5 via a network and configured to set parameters for a plurality of set devices,
Setting status acquisition means for acquiring the setting availability status information and the alternative parameter from the set target device;
Reset parameter determination means for determining one reset parameter to be set for the set device when two or more alternative parameters are acquired from the set device;
Setting means for setting the determined one reset parameter in the set device;
To function,
The resetting parameter determination unit determines, as a resetting parameter, one common alternative parameter among the alternative parameters from the two or more set devices when the substitute parameter is acquired from two or more of the set devices. To do,
A program characterized by

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