JP2007279988A - Information processor and driver program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To easily set a control condition for controlling a device. <P>SOLUTION: A PC comprises a first driver part 10 for controlling a first MFP, a second driver part 18 for controlling a second MFP, an analysis part 14 for analyzing control data outputted by the first driver part 10 and extracting the control condition, and an updating part 16 for updating setting mode information stored in a setting mode information storage part 107A on the basis of the extracted control condition. The second driver part 18 includes a read part for reading the setting mode information stored in the setting mode information storage part 107A and a control condition decision part for deciding the control condition on the basis of the read setting mode information and displaying the decided control condition. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an information processing apparatus and a driver program, and more particularly to an information processing apparatus and a driver program that facilitate initial setting during remote control.

  In recent years, usage forms in which a plurality of image forming apparatuses are connected to a network have become widespread. In this mode of use, the personal computer can remotely control a plurality of image forming apparatuses as long as a driver program for controlling each of the plurality of image forming apparatuses is installed. The personal computer transmits control data such as print data to the selected image forming apparatus, and causes the image forming apparatus to form an image. Normally, the most frequently used image forming apparatus among a plurality of image forming apparatuses is set as the initial apparatus, and when a print instruction is input, a printer driver program for controlling the image forming apparatus set as the initial apparatus is started. Is done. In addition, when the print conditions are set to the initial values, the printer driver programs display the print conditions set to the initial values at the time of startup, so the user controls the image forming apparatus set as the initial apparatus. If the printing conditions that are used most frequently in the printer driver program are set to the initial values, it is not necessary to change the printing conditions during printing, which is convenient.

  However, when the image forming apparatus set as the initial apparatus cannot be used due to a failure or the like, printing is performed on another image forming apparatus, but a printer driver program for controlling the other image forming apparatus is started. However, there is a problem in that the print condition set as the initial value in the printer driver program may be different from the most frequently used print condition, and the print condition must be changed.

When installing a printer driver program in a personal computer, a technique is known in which print conditions set in an already installed printer driver are reflected in a newly installed printer driver program (for example, Patent Document 1). Patent Document 2). However, when the print conditions set to the initial values are changed after the printer driver program is installed, the above-described problem occurs. Also, a technique for associating print conditions with a document file is known (for example, Patent Document 3), but print conditions must be newly set for a newly generated document file.
JP 2003-208276 A JP 2003-99216 A JP 2003-280840 A

  The present invention has been made to solve the above-described problems, and one of the objects of the present invention is to provide an information processing apparatus that facilitates setting of control conditions for controlling a device.

  Another object of the present invention is to provide a driver program that facilitates setting of control conditions for controlling a device.

  In order to achieve the above-described object, according to one aspect of the present invention, an information processing apparatus controls a first image processing apparatus and a first control means for controlling the first image processing apparatus. The second control means, the analysis means for analyzing the control data output by the first control means and extracting the control conditions, and the setting mode information stored in the storage device are updated based on the extracted control conditions. Updating means, and the second control means is a reading means for reading the setting mode information stored in the storage device, and a control condition determining means for determining a control condition based on the read setting mode information. Display means for displaying the determined control conditions.

  According to this aspect, the control data output from the first control means is analyzed to extract the control condition, and the setting mode information stored in the storage device is updated based on the extracted control condition. Then, the second control means reads the setting mode information stored in the storage device, determines the control condition based on the setting mode information, and displays the control condition. For this reason, since the second control means determines the control condition to be displayed based on the control condition set in the first control means, one image processing apparatus among the plurality of image processing apparatuses is processed. It is possible to cause another image processing apparatus to process under the control conditions. As a result, it is possible to provide an information processing apparatus that facilitates setting of control conditions.

  According to another aspect of the present invention, the information processing device reads the setting mode information stored in advance in the storage device, and the control condition determination that determines the control condition based on the read setting mode information. Means, a display means for displaying the determined control condition, a change accepting means for accepting a change of the determined control condition, a determined control condition, when the control condition determined by the change accepting means is changed Is based on the control data generation means for generating control data based on the changed control condition, and the control condition determined by the control condition determined by the control condition determined by the change acceptance means is changed. Updating means for updating the setting mode information stored in the storage device.

  According to this aspect, the setting mode information stored in advance in the storage device is read, the control condition is determined based on the read setting mode information, and the determined control condition is displayed. When the change of the determined control condition is accepted, the control data is generated and stored in the storage device based on the determined control condition or the changed control condition when the determined control condition is changed. Updated setting mode information. For this reason, since the control condition is determined based on the setting mode information stored in advance in the storage device, the initial value of the control condition can be changed according to the setting mode information. Since the setting mode information is updated every time control data is generated, it is possible to display control conditions frequently used by the user. As a result, it is possible to provide an information processing apparatus that facilitates setting of control conditions.

  Preferably, the display means includes permission request means for requesting permission to replace the control condition set to the initial value with the determined control condition, and an instruction to permit replacement in response to a permission request from the permission request means On the condition that is input, the control condition set to the initial value is replaced with the determined control condition and displayed.

  Preferably, when the determined control condition includes an inexecutable condition, the display means sets an inexecutable item in the determined control condition in advance corresponding to the inexecutable item. Control condition changing means for changing to control conditions for executable items is further included.

  According to another aspect of the present invention, the driver program reads the setting mode information, determines the control condition based on the read setting mode information, and displays the determined control condition And a step of accepting a change of the determined control condition; a step of generating control data based on the determined control condition and the changed control condition and data when the determined control condition is changed; When the determined control condition or the determined control condition is changed, the computer is caused to execute the step of updating the read setting mode information based on the changed control condition.

  According to this aspect, it is possible to provide a driver program that facilitates setting of control conditions.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same parts are denoted by the same reference numerals. Their names and functions are also the same. Therefore, detailed description thereof will not be repeated.

FIG. 1 is a diagram showing an overall outline of a printing system according to one embodiment of the present invention. Referring to FIG. 1, a print system 1 includes a personal computer (hereinafter referred to as “PC”) 100 connected to a network 2 and an MFP (Multi).
Function Peripheral) 200, 201.

  MFPs 200 and 201 include a scanner device for reading a document, an image forming device for forming an image on a recording medium such as paper based on image data, and a facsimile device, and has an image reading function, a copying function, and a facsimile transmission / reception function. I have. In this embodiment, MFPs 200 and 201 will be described as an example. Instead of MFPs 200 and 201, any device having a function of processing an image can be used, for example, a scanner device, an image forming device, a facsimile device, A personal computer or the like that generates image data may be used.

  The PC 100 is a general computer. The MFPs 200 and 201 are different types of image processing apparatuses. Therefore, the PC 100 is installed with a driver program for controlling the MFP 200 (hereinafter referred to as “first driver program”) and a driver program for controlling the MFP 201 (hereinafter referred to as “second driver program”). . Here, a case will be described as an example where the PC 100 is set as an initial device as a device normally used by the MFP 200. In this case, when the PC 100 inputs a print instruction for printing data, a scan instruction for reading the original, and a copy instruction for copying the original, the PC 100 executes the first driver program. PC 100 that executes the first driver program generates control data in accordance with a print instruction, a scan instruction, or a copy instruction, and transmits the control data to MFP 200. As a result, printing, scanning, or copying is executed in the MFP 200. On the other hand, when the user of the PC 100 desires the MFP 201 to execute printing, scanning, or copying, an instruction to switch the device to the MFP 201 is input to the PC 100. Then, the PC 100 executes the second driver program. The PC 100 that executes the second driver program generates control data in accordance with the print instruction, scan instruction, or copy instruction, and transmits the control data to the MFP 201. As a result, printing, scanning, or copying is executed in the MFP 201.

  The network 2 is a local area network (LAN), and the connection form may be wired or wireless. The network 2 is not limited to a LAN, and may be a network using a wide area network (WAN) such as the Internet, a public switched telephone network, or the like.

FIG. 2 is a block diagram illustrating an example of a hardware configuration of the PC 100 in the present embodiment. Referring to FIG. 2, the PC 100 includes a central processing unit (CPU) 101 that is connected to the bus 120 and a ROM (Read) that stores a program to be executed by the CPU 101.
(Only Memory) 103, a RAM (Random Access Memory) 105 for loading a program to be executed and for storing data during program execution, and a hard disk drive (HDD) for storing data in a nonvolatile manner 107, a card interface (I / F) 109 to which the flash memory 108 is mounted, a communication I / F 111 for connecting the CPU 100 to the network 2, and an operation unit 119 functioning as an interface with the user.

  The CPU 101 loads the first driver program and the second driver program recorded in the flash memory 108 attached to the card I / F 109 to the RAM 105 and executes them. The program executed by the CPU 101 is not limited to the first driver program and the second driver program recorded in the flash memory 108, and the program stored in the HDD 107 may be loaded into the RAM 105 and executed. In this case, another computer connected to the network 2 may rewrite the first driver program or the second driver program stored in the HDD 107 of the PC 100, or may additionally write a new driver program. . Further, the PC 100 may download the first driver program or the second driver program from another computer connected to the network 2 and store the first driver program and the second driver program in the HDD 107. The program here includes not only a program that can be directly executed by the CPU 101 but also a source program, a compressed program, an encrypted program, and the like.

  The operation unit 119 includes an input unit 119A and a display unit 119B. The input unit 119 </ b> A is an input device such as a keyboard or a mouse for accepting an operation input by the user of the PC 100. The display unit 119B is a display device such as a liquid crystal display device, an organic EL (Electro-Luminescence) display panel, or a cathode ray tube (CRT). A pointing device such as a touch panel may be used for the input unit 119A.

  The communication I / F 111 is a communication interface for connecting the PC 100 to the network 2. Thus, MFP 100 can communicate with other MFPs 200 and 201. The PC 100 and the other MFPs 200 and 201 are connected via the network 2, but may be directly connected using a serial interface or a parallel interface. Communication I / F 111 uses an interface according to the connection form between PC 100 and each of other MFPs 200 and 201.

  FIG. 3 is a functional block diagram showing an outline of the functions of the CPU of the PC together with information stored in the HDD. Referring to FIG. 3, the CPU 101 includes a first driver unit 10, a second driver unit 18, a PDL (Page Description Language) acquisition unit 12 that acquires control data output by the first driver unit 10, and control data. And an update unit 16 that updates the setting mode information based on the extracted control condition. The HDD 107 includes a setting mode information storage unit 107A and an alternative category table storage unit 107B.

  The first driver unit 10 is a process generated when the CPU 101 executes the first driver program. The first driver unit 10 outputs control data. Control data is described in PDL. The control data includes a printing condition for instructing printing, a scanning condition for instructing scanning, and a copying condition for instructing copying.

  The PDL acquisition unit 12 acquires control data output from the first driver unit 10. The PDL acquisition unit 12 is in a standby state until the first driver unit 10 outputs control data. When the PDL acquisition unit 12 acquires control data, the PDL acquisition unit 12 outputs the acquired control data to the analysis unit 14.

  When the control data is input, the analysis unit 14 analyzes the control data, extracts the control conditions, and outputs the control conditions to the update unit 16. The control data includes control conditions for each of a plurality of categories. The control conditions include print conditions, scan conditions, and copy conditions. The analysis unit 14 extracts the print condition when the control data relates to the print function, extracts the scan condition when the control data relates to the scan function, and extracts the copy condition when the control data relates to the copy function. The analysis unit 14 outputs the extracted print condition, scan condition, or copy condition to the update unit 16.

  When the control condition is input, the update unit 16 updates the setting mode information stored in the setting mode information storage unit 107A based on the control condition. Here, the setting mode information will be described.

  FIG. 4 is a diagram illustrating an example of a format of setting mode information. Referring to FIG. 4, the setting mode information includes items of a category, setting contents, and the number of setting operations. The category item specifies the control condition. For example, the category included in the print condition includes printing surface, printing color, post-processing sorting, punching, and the like. For example, the category of the setting content defines either double-sided or single-sided for the printing surface, the category defines the discharge direction for sorting, and the category defines the processing position for punching. . The setting operation frequency item defines the number of times that the control data including the control conditions for the category and the setting content is output from the first driver unit 10 for each category and the setting content.

  Returning to FIG. 3, the update unit 16 extracts the category and the setting content from the control condition, and increments the number of setting operations corresponding to the setting mode information by one.

  The second driver unit 18 is a process generated by the CPU 101 executing the second driver program. FIG. 5 is a functional block diagram showing detailed functions of the second driver unit. Referring to FIG. 5, second driver unit 18 displays reading unit 21 that reads setting mode information, control condition determining unit 23 that determines a control condition from the setting mode information, and the determined control condition. A change receiving unit 25 that receives a change and a control data generating unit 27 that generates control data according to the determined control condition or the changed control condition.

  The reading unit 21 reads the setting mode information from the setting mode information storage unit 107A. Then, the read setting mode information is output to the control condition determination unit 23. The control condition determination unit 23 extracts the setting content having the maximum number of setting operations for each category from the setting mode information, and determines the control condition including the setting content determined for each category. Further, when the control condition includes a category for a function that the MFP 201 does not have, the control condition determination unit 23 reads the alternative category from the alternative category table storage unit 107B and changes the category for the function that the MFP 201 does not have to the alternative category. . The setting contents of the alternative category are set to predetermined default values.

  FIG. 6 is a diagram illustrating an example of the alternative category table. Referring to FIG. 6, the alternative category table defines an alternative category for each category. For example, the category “printing surface” with the setting content “duplex” is associated with the alternative category “composite” with the setting content “2 in 1”. The category “printing surface” with the setting content “double-sided” is a control condition for printing two originals on both sides of the paper. Since the user intends to save paper, this control condition defines another constraint condition that can save paper as an alternative category. An alternative category table is used when the MFP 201 does not have a duplex printing function and can print only on one side of a sheet. Here, the control condition of the alternative category “composite” whose setting content is “2 in 1” is defined. This control condition is a control condition in which two originals are reduced by half and printed on one side of one sheet. Further, the alternative category “summary printing” is associated with the category “sort”. The category “sort” is a control condition for reading, for example, 10 originals and outputting 20 sets of copies to separate discharge trays. An alternative category table is used when the MFP 201 does not have a sort function. Here, the control condition of the alternative category “collective printing” is defined. This control condition is a control condition for reading, for example, 10 originals and outputting 20 sets of copies in order to one discharge tray. Note that the alternative category table may be embedded in the second driver program instead of being stored in the HDD 107.

  Returning to FIG. 5, the control condition determination unit 23 displays the determined control condition, or the control condition changed to the alternative category when the category for the function that the MFP 201 does not have, on the display unit 119 </ b> B. The change receiving unit 25 receives a change instruction for a control condition by the user. When the user inputs the changed control condition to the input unit 119A, the change receiving unit 25 receives the changed control condition from the input unit 119A. Reception of the control condition after the change is a change instruction for the control condition. Based on the changed control condition, the setting mode information stored in the setting mode information storage unit 107A of the HDD 107 is updated. Further, the change receiving unit 25 outputs the changed control condition to the control data generating unit 27.

  The control data generation unit 27 receives a control condition. The control data generation unit 27 generates control data based on the control conditions, and transmits the control data to the MFP 201. When the control condition relates to the print function, the control data generation unit 27 further receives data to be printed. The data to be printed is, for example, document data and image data output by an application program executed by the CPU 101. The control data generation unit 27 generates print data based on the data and control conditions. Here, the print data is described in PDL. If the control condition relates to the scan function, the control data generation unit 27 generates scan data based on the control condition and outputs the scan data to the MFP 201. When the control condition relates to the copy function, the control data generation unit 27 generates copy data based on the control condition and outputs it to the MFP 201.

  FIG. 7 is a flowchart illustrating an example of the flow of device switching processing. The device switching process is a process executed by the CPU 101 when the CPU 101 executes the second printer driver program. CPU 101 waits until the output destination is switched to MFP 201 (NO in step S01). If the output destination is switched to MFP 201, the process proceeds to step S02. In other words, the device switching process is a process executed when the CPU 101 receives a switching instruction to switch from the MFP 200 set as the device that normally uses the output destination device to another MFP 201. When the user operates the input unit 119A to input a switching instruction, the CPU 101 receives the switching instruction from the input unit 119A.

  In step S02, the setting mode information is read from the setting mode information storage unit 107A. Then, one category to be processed is selected from the setting mode information (step S03). The setting mode information associates a plurality of setting contents with one category. Next, the setting content with the maximum number of setting operations for the selected category is extracted (step S04). Thereby, one control condition consisting of one set content is determined for one category selected in step S03.

  Then, it is determined whether or not the setting content extracted in step S04 is valid (step S05). If the setting contents are valid, the process proceeds to step S06; otherwise, the process proceeds to step S07. Specifically, the CPU 101 determines whether the MFP 201 can execute the process under the control condition including the setting content extracted in step S04 and the category selected in step S03.

  In step S06, the setting content of the category selected in step S03 of the initial setting value is changed to the setting content extracted in step S04, and the process proceeds to step S09. On the other hand, in step S07, it is determined whether there is an alternative category. Specifically, the alternative category table is read from the alternative category table storage unit 107B, and it is determined whether or not an alternative category corresponding to the category selected in step S03 is defined. If the alternative category is defined, the process proceeds to step S08, and if not defined, the process proceeds to step S09. If the alternative category is not defined, the MFP 201 cannot execute the process according to the control condition of the category selected in step S03, and therefore the control condition of that category may be deleted.

  In step S08, the category selected in step S03 is changed to an alternative category. If the control condition includes setting contents, the setting contents may be set to default values. In step S09, it is determined whether or not there is a category that is not yet processed in the setting mode information. If such a category exists, the process returns to step S03, and if not, the process proceeds to step S03. Proceed to S10.

  When the process proceeds to step S <b> 10, the setting contents are determined for all categories included in the setting mode information, so that the control conditions for outputting to the MFP 201 are determined. Then, a screen for inquiring whether or not to replace the control condition set as the initial value in the second driver program with the determined control condition is displayed on the display unit 119B, and the replacement permission by the user is obtained (step S10). When the user operates the input unit 119A to input an instruction to permit replacement, the CPU 101 receives an instruction to permit replacement. If an instruction to permit replacement is accepted, the process proceeds to step S11. If not accepted, step S11 is skipped and the process proceeds to step S12. In step S11, the control condition set as the initial value in the second driver program is replaced with the determined control condition, and the process proceeds to step S12. In step S12, the control condition set as the initial value or the determined control condition when replaced with the determined control condition is displayed on display unit 119B.

  In step S13, it is determined whether an instruction to change the control condition by the user has been received. If a change instruction is accepted, the process proceeds to step S14. If no change instruction is accepted, step S14 is skipped and the process proceeds to step S15. When the user inputs the changed control condition to the input unit 119A, the CPU 101 receives the changed control condition from the input unit 119A. Reception of the control condition after the change is a change instruction for the control condition. Based on the changed control condition, the setting mode information stored in the setting mode information storage unit 107A is updated (step S14).

  Next, control is performed based on the control conditions determined by executing Steps S03 to S09, the control conditions after the change when a change instruction is accepted in Step S13, or the control conditions set as initial values. Data is generated (step S15), and the generated control data is output to the MFP 201 (step S16). When the control condition relates to the print function, print data is generated based on the data to be printed and the control condition, and is output to the MFP 201. If the control condition relates to the scan function, scan data is generated based on the control condition and output to the MFP 201. When the control condition relates to the copy function, copy data is generated based on the control condition and output to the MFP 201.

  FIG. 8 is a flowchart illustrating an example of another flow of the device switching process. The device switching process is a process executed by the CPU 101 when the CPU 101 executes the second printer driver program. Referring to FIG. 8, CPU 101 determines whether or not control data has been acquired (step S21). If control data has been acquired, the process proceeds to step S22; otherwise, the process proceeds to step S01. The control data is generated by the CPU 101 when the CPU 101 executes an application program, for example, a first driver program. In the CPU 101, a process that executes the second printer driver program detects control data output from the process that executes the first driver program, and acquires the detected control data. Then, the control data is analyzed, and the control conditions are extracted (step S22). Then, the setting mode information stored in the setting mode information storage unit 107A is updated based on the extracted control condition (step S23), and the process proceeds to step S01. In step S01, it is determined whether or not the output destination has been switched to the MFP 201. If the output destination is switched to MFP 201, the process proceeds to step S02; otherwise, the process returns to step S21. Since the processes in steps S02 to S16 are the same as those shown in FIG. 7, the description thereof will not be repeated here.

  As described above, the PC 100 according to the present embodiment analyzes the control data output by the process that executes the first driver program for controlling the MFP 200 and extracts the control conditions. Based on the extracted control conditions, Update configuration mode information. Then, the process of executing the second driver program for controlling the MFP 201 reads the setting mode information, determines the control condition based on the setting mode information, and displays the control condition. Therefore, the process for executing the second driver program determines the control condition to be displayed based on the control condition set in the process for executing the first driver program. Therefore, the MFP 201 is controlled under the control condition for controlling the MFP 200. Can be controlled. As a result, when controlling the MFP 201 that is not set as a normally used device, the same control conditions as when controlling the MFP 200 set as a normally used device are displayed. There is no need to fix it.

  The process for executing the second driver program reads the setting mode information, determines the control condition based on the read setting mode information, and displays the determined control condition. When a change in the determined control condition is accepted, control data is generated and setting mode information is updated based on the changed control condition. For this reason, since the control condition is determined based on the setting mode information stored in the setting mode information storage unit 107A in advance, the initial value of the control condition can be changed according to the setting mode information. Since the setting mode information is updated every time control data is generated, it is possible to display control conditions frequently used by the user.

  In the above-described embodiment, the PC 100 has been described. Needless to say, the invention can be understood as a device switching method or a driver program for causing the PC 100 to execute the device switching process shown in FIG. 7 or FIG. Yes.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

1 is a diagram showing an overview of a printing system according to one embodiment of the present invention. It is a block diagram which shows an example of the hardware constitutions of PC in this Embodiment. It is a functional block diagram which shows the outline | summary of the function of CPU of PC with the information memorize | stored in HDD. It is a figure which shows an example of the format of setting mode information. It is a functional block diagram which shows the detailed function of a 2nd driver part. It is a figure which shows an example of an alternative category table. It is a flowchart which shows an example of the flow of a device switching process. It is a flowchart which shows an example of another flow of a device switching process.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Print system, 2 network, 10 1st driver part, 12 PDL acquisition part, 14 Analysis part, 16 Update part, 18 2nd driver part, 21 Reading part, 23 Control condition determination part, 25 Change reception part, 27 Control data Generation unit, 107A setting mode information storage unit, 107B alternative category table storage unit, 108 flash memory, 109 card I / F, 111 communication I / F, 119 operation unit, 119A input unit, 119B display unit, 120 bus.

Claims (5)

First control means for controlling the first image processing apparatus;
Second control means for controlling the second image processing apparatus;
Analyzing means for analyzing control data output by the first control means and extracting control conditions;
Updating means for updating the setting mode information stored in the storage device based on the extracted control condition;
The second control means includes reading means for reading setting mode information stored in the storage device;
Control condition determining means for determining a control condition based on the read setting mode information;
An information processing apparatus including display means for displaying the determined control condition. Reading means for reading setting mode information stored in advance in the storage device;
Control condition determining means for determining a control condition based on the read setting mode information;
Display means for displaying the determined control conditions;
Change accepting means for accepting a change in the determined control condition;
Control data generating means for generating control data based on the determined control condition and the control condition after the change when the determined control condition is changed by the change receiving means;
Updating means for updating the set mode information stored in the storage device based on the determined control condition and the changed control condition when the determined control condition is changed by the change receiving means; An information processing apparatus comprising: The display means includes permission request means for requesting permission to replace a control condition set as an initial value with the determined control condition,
The control condition set as the initial value is replaced with the determined control condition and displayed on condition that an instruction to permit replacement is input in response to a permission request from the permission request unit. Or the information processing apparatus according to 2;   In the case where the determined control condition includes an inexecutable condition, the display means determines an inexecutable item in the determined control condition in advance corresponding to the inexecutable item. The information processing apparatus according to any one of 1 to 3, further including a control condition changing unit that changes the control condition to an executable item. Reading the setting mode information;
Determining control conditions based on the read setting mode information;
Displaying the determined control conditions;
Receiving a change in the determined control condition;
Generating the control data based on the determined control condition, and when the determined control condition is changed, based on the changed control condition;
A driver program that causes a computer to execute the step of updating the read setting mode information based on the determined control condition, and when the determined control condition is changed, based on the changed control condition .

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