JP4811338B2 - Mobile terminal simulation system and mobile terminal operation check method - Google Patents

Description

  The present invention relates to a mobile terminal simulation system and a mobile terminal operation check method.

Conventionally, a technique for simulating an electrical product on a computer has been provided. For example, Patent Document 1 discloses a technique related to a robot programming apparatus. In this technique, a robot operation simulation is performed on a computer, and position data necessary for the simulation is obtained from a real robot. It can be acquired by input.
JP 63-120307 A

  In the field of mobile terminals, there is a request to check the operation on a computer. For example, when trying to develop an application program to be executed on a mobile terminal, a method of coding on a computer, downloading the application software to an actual machine, and checking the operation on the actual machine can be considered. When there are overlapping corrections, it is necessary to repeat the above-described work, which makes development work inefficient. Under such circumstances, a simulation system that can perform a simulated operation of a portable terminal on a computer is strongly desired as a development tool for the portable terminal.

  However, there are cases in which it is difficult to appropriately check the operation only on the computer. For example, as a method of confirming the operation of a mobile terminal, it is conceivable to perform simulation by replacing the actual machine key with a computer keyboard or GUI button. However, in the alternative input using the keyboard or GUI button, various operations related to the key are performed. There is a concern that the confirmation (confirmation of whether functions are appropriately assigned to keys, etc.) cannot be sufficiently performed. That is, in order to confirm whether or not any worker can work properly, the operation is confirmed by reflecting various circumstances such as a key frequently used during the work, the dominant arm of the worker, and the size of the hand. Although it is necessary, such an circumstance is not reflected in an alternative input using a keyboard or a GUI button, and an appropriate operation check cannot be performed.

  As another example, when confirming the operation of an image displayed on a portable terminal on a computer, a rough screen image can be confirmed by displaying the image on a computer monitor. Since the dot size, shape, color, and the like are different from those of the monitor, there are cases where the display image is considerably different from the image confirmed by the computer when the image is displayed on the actual device, or the image itself is difficult to see.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a simulation system and an operation confirmation method for efficiently performing operation confirmation of an application program in cooperation with a computer and an actual machine. To do.

In order to achieve the above object, the invention of claim 1 is a simulation system having a computer provided with display means, and confirming the operation of an application program of a portable terminal on the computer, wherein the computer includes the application Simulation processing execution means connected to an actual device of the portable terminal on which the program is installed, performing simulation processing of the portable terminal based on the application program, and displaying the processing result of the simulation processing on the display means; Among a plurality of functions of the terminal, a function setting unit that sets a function to be simulated by the actual machine in a changeable state, and an actual machine control unit that controls the simulated operation by the actual machine, , A simulated action execution that executes the simulated action according to control by the actual machine control means The simulation processing execution means instructs the actual machine control means to cause the actual machine to perform the simulated operation for the setting function set in the function setting means, and the actual machine control means includes the Based on a command from the simulation processing execution means, the control information for executing the simulation operation is output to the actual machine via a communication means, and the simulation operation execution means is configured to output the setting function for the setting function based on the control information. It is configured to execute a simulated operation on the actual machine, and the operation check of the application program is performed by combining the simulation process on the computer and the simulated operation on the actual machine, and the plurality of functions The operation check of any one of the functions is performed by any one of the simulation process in the computer and the simulation operation in the actual machine. Are executable only by the a predetermined timing after the simulation operation is performed by the simulation operation execution unit comprises a rerun receiving unit for receiving an instruction re-execution from external, the simulation operation execution means In response to acceptance of the re-execution by the re-execution acceptance unit, the simulated operation performed last time is re-executed, and when the re-execution is accepted by the re-execution acceptance unit, the operation condition is changed from the previous time. The simulated operation can be re-executed, and each operation condition changed at the time of the re-execution is associated with the re-execution result of the simulated operation corresponding to each operation condition. And a change history storing means for storing as a history .

  According to a second aspect of the present invention, in the portable terminal simulation system according to the first aspect, a list storage unit that stores a list of functions that can cause the real machine to execute the simulation operation, and the list storage unit stores the list. Display control means for displaying the list on the display means in a state that the list can be selected by the operation means, and the function setting means sets a function to perform a simulated operation on the actual machine based on a selection result by the operation means. It is characterized by this.

  According to a third aspect of the present invention, in the mobile terminal simulation system according to the second aspect, the display control means performs the operation check for each function of the list stored in the list storage means only by the computer. The display unit displays selection information for selecting whether to perform the operation only with the actual machine, or with both the computer and the actual machine, and the function setting unit is operated by the operation unit. The function selected when implemented only by the actual machine or by both the computer and the actual machine is set as a function for performing the simulated operation on the actual machine.

  According to a fourth aspect of the present invention, in the mobile terminal simulation system according to any one of the first to third aspects, at a predetermined time after the simulation operation is executed by the simulation operation execution unit, the external operation is performed from the outside. A stop means for stopping execution of the next simulated operation by the simulated action execution means until a release operation is performed, and a release means for releasing the stop by the stop means when the release operation is performed. It is characterized by that.

  According to a fifth aspect of the present invention, in the simulation system for a portable terminal according to any one of the first to third aspects, the simulation is performed at a predetermined time after the simulation operation is executed by the simulation operation execution unit. A result information receiving unit that receives an input of result information from the outside for the operation; and a result history storage unit that stores the result history of the simulated operation based on the result information received by the result information receiving unit. It is characterized by that.

According to a sixth aspect of the present invention, in the mobile terminal simulation system according to any one of the first to fifth aspects, the simulation processing execution means is provided for each function of the mobile terminal in a predetermined order. When the simulation process is executed and the phase of the setting function is reached in the order, the real machine control means is instructed to cause the real machine to perform the simulation operation for the setting function of the phase, and the simulation The operation execution means is configured to execute the simulated operation for each setting function of the mobile terminal and output an end notification to the computer at the end of the simulated operation for each setting function, In the phase of the setting function, the simulation processing execution unit is configured on the condition that the end notification is output for the setting function of the phase. It is characterized in that transition to the simulated processing of the next function of the phase in serial order.

The invention according to claim 7 is an operation confirmation method for performing an operation confirmation of an application program of a portable terminal on the computer using a computer provided with a display means, and the computer includes the portable device on which the application program is mounted. A simulation process execution unit that is connected to a real machine of the terminal and performs simulation processing of the portable terminal based on the application program, and displays the processing result of the simulation process on the display unit, and a plurality of functions of the portable terminal A function setting means for setting a function to be simulated by the actual machine in a changeable state, and an actual machine control means for controlling the simulated operation by the actual machine, wherein the actual machine is the actual machine control. A simulation operation executing means for executing the simulation operation according to the control by the means. The simulation process execution means instructs the actual machine control means to cause the actual machine to perform the simulation operation for the setting function set in the function setting means, and the actual machine control means includes the simulation process execution means from the simulation process execution means. A step of outputting control information for executing the simulated operation to the actual machine via a communication means based on the command of the simulation operation execution means for the setting function based on the control information. And performing the operation check of the application program in combination with the simulation processing in the computer and the simulation operation in the actual machine, and in the function setting means When the predetermined setting is made, the operation confirmation of any one of the plurality of functions is performed by the simulation process and the computer. Perform either by only one of the simulation operation in the actual machine, further, the simulation operation execution predetermined timing after the simulation operation is performed by means, from the outside by re-executing reception means provided in the actual When the re-execution instruction is received by the re-execution receiving unit, the simulated operation executing unit changes the operating condition from the previous time by changing the simulated operation performed by the simulated operation executing unit. The history of associating the process of re-execution of the simulated operation with the change history storage means associating each operation condition changed at the time of the re-execution and the re-execution result of the simulated operation according to each operation condition And storing it as a feature.

According to the first aspect of the present invention, since the operation check of the application program is performed by combining the simulation process in the computer and the simulation operation in the actual machine, the specific operation not only in the computer but also in the actual machine can be performed. Can be confirmed in cooperation. In addition, since the operation check of any one of a plurality of functions can be executed by only one of the simulation process on the computer and the simulation operation on the actual machine, efficient operation check can be performed. .
In addition, at the predetermined time after the simulation operation is executed, an instruction for re-execution from outside is accepted, and the simulation operation performed last time is re-executed in response to the reception, so the simulation operation is re-executed This is advantageous when there is a situation that should be done (when the previous simulation operation is insufficiently confirmed or when there is any doubt about the simulation operation).
In addition, when re-execution is accepted, the operation condition is changed from the previous time and the simulated operation can be re-executed, and each operation condition changed at the time of re-execution and according to each operation condition The re-execution result of the simulated operation is stored in association with the history. Therefore, the simulated operation can be easily performed under various operating conditions. In addition, since each operation condition and the re-execution result of the simulated operation corresponding to each operation condition are stored in association with each other, the application program can be analyzed and evaluated in a multifaceted manner.

  In the invention of claim 2, since a list of functions that can cause the actual machine to execute the simulated operation is displayed on the display means, and the function to perform the simulated operation on the actual machine is set based on the selection result by the operating means. It is possible to select and set arbitrarily and easily the function that the person can perform the simulated operation on the actual machine.

  In the invention of claim 3, whether each of the functions of the list stored in the list storage means is checked only by a computer, by an actual machine, or by both the computer and the actual machine. Since the selection information for selection is displayed on the display means and the worker is allowed to select it, it is possible to confirm the operation with a higher degree of freedom according to the operator's will.

  In the invention of claim 4, execution of the next simulated operation is stopped until a release operation from the outside is performed at a predetermined time after the simulated operation is executed, and the stop is released when the release operation is performed. Therefore, it is possible to effectively prevent the process from proceeding to the next step without properly confirming the simulated operation in the actual machine.

  According to the fifth aspect of the present invention, input of result information from the outside to the simulated operation is received at a predetermined time after the simulated operation is executed, and the result history of the simulated operation is stored based on the received result information. Therefore, the actually performed simulated operation and the result information about the simulated operation can be associated and left as a history, which is more advantageous in analyzing and evaluating the application program.

In the invention of claim 6 , the simulated operation executing means executes a simulated operation for each setting function of the mobile terminal, and outputs an end notification to the computer at the end of the simulated operation for each setting function. The simulation processing execution means performs simulation processing for the next function of the phase in a predetermined order on condition that an end notification is output for the setting function of the phase in each phase of the setting function. Configured to migrate. Therefore, the simulation operation can be suitably performed for each setting function by linking the computer and the actual machine in a predetermined order.

According to the invention of claim 7, the operation confirmation method has the same effect as that of the invention of claim 1.

[ Reference Example 1 ]
Hereinafter, a reference example 1 related to a simulation system and an operation confirmation method according to the present invention will be described with reference to the drawings. FIG. 1 is an explanatory diagram schematically illustrating a simulation system 1 according to Reference Example 1. As illustrated in FIG. FIG. 2 is a block diagram schematically illustrating the configuration of the actual mobile terminal. FIG. 3 is a flowchart illustrating a setting process of a function for performing a simulated operation. FIG. 4 is an explanatory diagram illustrating a display example of a list. FIG. 5 is an explanatory diagram for explaining the data structure of the setting data. FIG. 6 is a flowchart illustrating the flow of the operation confirmation process. The left diagram shows the flow of processing on the real machine side, and the right diagram shows the flow of processing on the computer side.

  As shown in FIG. 1, the simulation system 1 uses a computer 2 having a monitor 3 and a real device 10 of a portable terminal, and uses an application program for the portable terminal (for example, an application to be installed in a portable terminal similar to the real device 10). The operation check of the program) is performed at least on the computer 2.

The computer 2 of Reference Example 1 is configured as a personal computer (hereinafter also referred to as a PC), and includes a monitor 3 including a liquid crystal display, a CPU 4, a ROM 5, a communication means 6, a hard disk drive (hereinafter also referred to as an HDD) 7, and a RAM 8. And an operation means 9 including a keyboard and a mouse.

The actual machine 10 is configured as an optical information reader (in the first reference example , a barcode reader is illustrated). The actual machine 10 includes a circuit unit 20 housed in a case. The circuit unit 20 mainly includes an optical system such as an illumination light source 21, a light receiving sensor 28, and an imaging lens 27, and a memory 35. , A control circuit 40, a trigger switch 50, and other microcomputer (hereinafter referred to as "microcomputer") systems.

  The optical system is divided into a light projecting optical system and a light receiving optical system. The illumination light source 21 constituting the light projecting optical system functions as an illumination light source capable of emitting the illumination light Lf, and includes, for example, a red LED and a lens provided on the emission side of the LED. Note that FIG. 1 conceptually shows an example in which the illumination light Lf is irradiated toward the reading object R to which the barcode B is attached.

  The light receiving optical system includes a light receiving sensor 28, an imaging lens 27, a reflecting mirror (not shown), and the like. The light receiving sensor 28 is configured to be able to receive the reflected light Lr irradiated and reflected on the reading object R and the barcode B. The light receiving sensor 28 is mounted on a printed wiring board (not shown) so as to be able to receive incident light incident through the imaging lens 27.

The imaging lens 27 functions as an imaging optical system capable of condensing incident light incident from the outside via a reading port (not shown) and forming an image on the light receiving surface 28a of the light receiving sensor 28. . In Reference Example 1 , after the illumination light Lf emitted from the illumination light source 21 is reflected by the barcode B, the reflected light Lr is condensed by the imaging lens 27 and the code image is formed on the light receiving surface 28 a of the light receiving sensor 28. Is imaged.

  The microcomputer system includes an amplifier circuit 31, an A / D conversion circuit 33, a memory 35, an address generation circuit 36, a synchronization signal generation circuit 38, a control circuit 40, a trigger switch 50, a display LED (hereinafter also simply referred to as LED) 45, a buzzer. 44, a liquid crystal display 46, a communication interface 48, and the like.

  The image signal (analog signal) output from the light receiving sensor 28 of the optical system is amplified by a predetermined gain by being input to the amplifier circuit 31, and then input from the analog signal when input to the A / D conversion circuit 33. Converted into a digital signal. When the digitized image signal, that is, image data (image information) is input to the memory 35, it is stored in a predetermined code image image information storage area. The synchronization signal generation circuit 38 is configured to generate a synchronization signal for the light receiving sensor 28 and the address generation circuit 36, and the address generation circuit 36 is based on the synchronization signal supplied from the synchronization signal generation circuit 38. Thus, the storage address of the image data stored in the memory 35 can be generated.

The control circuit 40 is a microcomputer capable of controlling the entire real machine 10 and includes a CPU, a system bus, an input / output interface, and the like. The control circuit 40 can constitute an information processing apparatus together with the memory 35 and has an information processing function. The control circuit 40 is configured to be connectable to various input / output devices via a built-in input / output interface. In the case of the reference example 1 , the trigger switch 50, the LED 45, the buzzer 44, the liquid crystal display 46, the communication. An interface 48 and the like are connected. Accordingly, for example, monitoring and management of the trigger switch 50, lighting and non-lighting of the LED 45, turning on / off of the buzzer 44 capable of generating a beep sound and an alarm sound, display control of the liquid crystal display 46, and the like are enabled.

The communication interface 48 is an interface for communicating with an external device. In the first reference example , the communication interface 48 is connected to the communication unit 6 of the computer 2 to enable mutual communication.

Next, a setting process for confirming the operation of the mobile terminal will be described.
In the setting process, for each function in a plurality of functions to be checked for operation, whether the operation check is performed only by the computer 2, only by the actual machine 10, or by both the computer 2 and the actual machine 10. It is a process to set. A plurality of functions to be checked for operation are stored as a list in the HDD 7 (the HDD 7 corresponds to an example of a list storage unit). In this process, first, a list of these functions is read from the HDD 7 (S1). The selection information as shown in FIG. 4 is displayed on the monitor 3 (S2).

  The selection information in FIG. 4 indicates whether the operation check is performed only on the computer 2, only the actual machine 10, or both the computer 2 and the actual machine 10 for each function of the list stored in the HDD 7. , And the user can select each function using the operation means 9 and a GUI (Graphical User Interface). As shown in FIG. 4, the selection information displays list information 71 of the stored list on the left side, and is implemented by only the computer 2, the actual machine 10 only, or the computer for each function. 2 and the actual machine 10 are displayed. A selection input unit 72 for selecting whether to perform the operation on both the actual machine 10 and the actual machine 10 is displayed.

Specifically, a check box 73 to be executed by the computer 2 and a check box 74 to be executed by the actual machine 10 are displayed corresponding to each function, and these check boxes 73 are displayed. , 74 constitute a selection input unit 72. In the check box for each function, only the check box 73 to be executed by the computer 2 is checked, and when the check box 74 to be executed by the actual machine 10 is not checked, setting information indicating that only the computer 2 is executed for the function is stored. (Refer to the setting relating to the display LED in FIG. 5). On the other hand, when only the check box 74 to be executed by the actual machine 10 is checked and the check box 73 to be executed by the computer 2 is not checked, setting information indicating that only the actual machine 10 is executed for the function is stored (see FIG. (Refer to the setting related to code reading in No. 5). When both the check boxes 73 and 74 are checked, setting information indicating that the simulation operation is executed by both the computer 2 and the actual machine 10 is stored (see the setting relating to the key in FIG. 5). If neither of 74 is checked, setting information that does not perform a simulated operation is stored for the function (see the setting relating to the vibrator in FIG. 5). When the input corresponding to the display screen as shown in FIG. 4 is completed, the process proceeds to Yes in S3 and is stored in the HDD 7 as setting information as shown in FIG. 5 (S4).
In the simulation system 1 according to the reference example 1 , the list stored in the HDD 7 is configured to be displayed on the monitor 3 in a state where the list can be selected by the operation unit 9, and the CPU 4 serves as such a “display control unit”. Plays the role of Moreover, based on the selection result by the operation means 9, the function which carries out the simulation operation with the actual machine 10 is set (specifically, by storing the setting information, the simulation operation is performed with the actual machine 10 among a plurality of functions of the portable terminal. The function and the function to be simulated by the computer 2 are set in a changeable state (see FIG. 5)), and the CPU 4 serves as such a “function setting means”.

Next, the operation check process of the mobile terminal will be described.
This operation confirmation processing is performed by combining the simulation processing in the computer 2 and the simulation operation in the actual machine 10 in order to confirm the operation of the application program. In this processing, a plurality of functions (see FIG. 4 (functions such as keys and code reading displayed in the selection information 4), the operation check of each function can be executed by only one of the simulation processing in the computer 2 and the simulation operation in the actual machine 10. . Hereinafter, the operation confirmation process will be specifically described.

As shown in FIG. 6, when the operation check process is started in the computer 2 and the actual machine 10, first, an instruction analysis process is performed in S10. In the reference example 1 , the operation check is executed for each function of the mobile terminal in a predetermined order. In the example of FIG. 6, the process for analyzing which function the current phase is related to is analyzed. is there. In the example of FIG. 6, processing related to a command related to a function (image display function) for displaying an image on the screen of the liquid crystal display (hereinafter also referred to as an image display command) is mainly shown, and commands related to other functions are shown. Is omitted.

  If it is determined in the instruction analysis process of S10 that the current phase is an instruction related to the image display function, the process proceeds to Yes in S20, and the operation check for the image display function is performed with reference to the setting information shown in FIG. Is determined to be executed by the computer 2 (S30). As shown in FIG. 5, in the case where it is set that the operation confirmation of the image display function is performed by the computer 2 (in FIG. 5, the item of the image display function (the item “LCD screen” corresponding to the image display function)) In step S30, the process proceeds to Yes, and a simulation process corresponding to the image display function (for example, an image display process for displaying a predetermined specific image on the monitor 3) is performed (S40). Image data relating to the displayed image is acquired (S50). If the current phase is a command other than the image display function, the process proceeds to No in S20, and processing corresponding to the command of another function is performed. If it is set that the operation check for the image display function is not performed by the computer 2, the process proceeds to No in S30, and the simulation process by the computer 2 for the image display function is omitted.

In Reference Example 1 , the CPU 4 performs simulation processing of the mobile terminal, and the CPU 4 performs control to display the processing result of the simulation processing on the monitor 3, and this CPU 4 is an example of “simulation processing execution means”. It corresponds.

After S50, the setting information shown in FIG. 5 is referred to, and it is determined whether or not the operation check for the image display function is set in the real machine 10 (S60).
In the reference example 1 , when the phase of the setting function (the function set to be executed at least by the actual machine 10 in the setting information in FIG. 5) is reached in the determined order, the setting function of the phase In order to cause the actual machine 10 to perform a simulation operation, an instruction is given to an actual machine control means (in Reference Example 1 , a program corresponding to the CPU 4 and S70 and S90 corresponds).

  As shown in FIG. 5, when it is set that the operation check for the image display function is to be performed by the real machine 10, the process proceeds to Yes in S <b> 60, and an instruction for performing a simulation operation for the image display function is transmitted to the real machine 10. (S70). Thereafter, standby processing for waiting for an instruction from the actual machine 10 is executed (S80). If it is set that the operation check for the image display function is not performed in the actual machine 10, the process proceeds to No in S60 and the simulated operation in the actual machine is omitted.

  On the other hand, on the actual machine 10 side, with the start of the operation confirmation process in the simulation system 1, the simulation mode is set, and the simulation operation process shown in S200 to S280 is started. In this process, first, a standby process for waiting for an instruction from the computer 2 is performed (S200). The actual machine 10 includes simulated operation execution means for executing a simulated operation in accordance with control by an actual machine control means (a program corresponding to the CPU 4 and S70 and S90 in the example of FIG. 6). In the example of FIG. The control circuit 40 corresponds to this “simulated operation executing means”.

If there is any instruction from the computer 2, the process proceeds to Yes in S200, and an analysis process for analyzing the instruction is performed in S210. Further, a determination process is performed to determine which mode the instruction is for. This determination process includes the process of S220 and the process of determining other modes after S220 (one or more processes that determine whether or not the display mode is the other specific mode in S220) ). In the example of FIG. 6, if the instruction from the computer 2 is for the image display mode, the process proceeds to Yes in S220, and if not, the process proceeds to No in S220 and the processing of the other mode is performed. To do.
In the example of FIG. 6, the simulated operation process for the image display function is mainly illustrated in S230 to S280, but when the process proceeds to No in S220, other functions corresponding to S230 to S280 are performed. The simulated operation process is separately performed.

When the process proceeds to Yes in S220, an instruction for receiving image data (that is, an instruction for requesting the computer 2 to transmit image data, hereinafter also referred to as an image data reception instruction) is transmitted to the computer 2 ( S230). As described above, the computer 2 performs the standby process in S80, and if an image data reception instruction is given, the process proceeds to Yes in S80, and the image data acquired in S50 to the real machine 10 (that is, S40). (Image data related to the display) is transmitted (S90). In the reference example 1 , the simulation operation in the real machine 10 is controlled by transmitting an instruction in S70 or data transmission in S90. In the example of FIG. 6, programs corresponding to the CPU 4, S70, and S90 are It plays the role of "actual machine control means" that performs such control.

  On the actual machine 10 side, when an image data reception instruction is given in S230, standby processing for waiting for data transmission from the computer 2 is performed in S240. If image data is transmitted from the computer 2 during the standby process, the process proceeds to Yes in S240, and display on the liquid crystal display 46 is performed based on the transmitted image data (S250). .

  As described above, in the example of FIG. 6, the CPU 4 (simulation process execution means) is a real machine control means for causing the real machine 10 to perform a simulation operation for the setting function (a function that is set to cause the real machine 10 to perform the simulation operation). (A program corresponding to the CPU 4 and S70, S90), and the actual machine control means simulates the actual machine 10 based on a command from the CPU 4 (simulation process execution means) (that is, execution of the processes S70 and S90 by the CPU 4). Control information (such as an instruction transmitted in S70 and data transmitted in S90) for executing the operation is output to the actual machine 10 via the communication means. The control circuit 40 (simulated operation executing means) is configured to execute a simulated operation for the setting function in the actual machine 10 according to a program corresponding to S200 to S280 based on the control information.

Further, in Reference Example 1 , after displaying the screen in S250, the standby process is performed in S260. In S260, the process waits until a release operation (specifically, a predetermined end operation using a predetermined key (end key)) is performed by the operator. If the end operation is performed using the end key, the process proceeds to S260. The process proceeds to Yes, and a notification to the effect that the simulation operation for the image display function in the real machine 10 has ended is transmitted to the computer 2 (S270), and the mode is canceled (S280). As described above, in Reference Example 1 , the execution of the next simulation operation is stopped at a predetermined time after the simulation operation is executed until the release operation from the outside is performed, and the release operation (the end key in FIG. 6 is performed). The stop operation is released when the operation is terminated), and the program corresponding to the control circuit 40 and S260 functions as such "stop means" and "release means".

  The computer 2 transmits the image data to the actual machine in S90, and then performs a standby process for waiting for an end notification from the actual machine 10 in S100, and the function related to the current simulation process from the actual machine 10 (in the example of FIG. 6). When an end notification is received for the simulated operation of the image display function), the process proceeds to Yes in S100, and a process of shifting to the next command is performed (S110).

As described above, in Reference Example 1 , the CPU 4 corresponding to the “simulation process execution means” performs the simulation process for each function of the mobile terminal in a predetermined order according to the program corresponding to the flowchart on the computer 2 side in FIG. , And when the phase of the setting function (a function that is set to perform the simulation operation in the actual machine) is reached in the determined order, the actual machine 10 is caused to perform the simulation operation for the setting function in the phase. Therefore, it is instructed to actual machine control means (in FIG. 6, a program corresponding to CPU 4, S70, and S90).

  On the other hand, the control circuit 40 (simulation operation execution means) installed in the actual machine 10 executes the simulation operation for each setting function of the portable terminal according to the program corresponding to the flowchart on the actual machine side in FIG. An end notification is output to the computer 2 at the end of each simulated operation. In the setting function phase, the CPU 4 (simulation process execution means) shifts to the simulation process of the function next to the phase in a predetermined order on condition that an end notification is output for the setting function of the phase. It is like that.

In the operation confirmation method according to the reference example 1 , S10 to S60 and S80 correspond to the real machine control means (CPU4 and S70, S90) so that the simulation process execution means (that is, the CPU 4) causes the real machine 10 to perform the simulation operation for the setting function. This is a process of instructing the program).
In S70 and S90, the control information that causes the actual machine control means (the program corresponding to the CPU 4 and S70 and S90) to cause the actual machine 10 to execute the simulation operation based on a command from the simulation processing execution means is transmitted via the communication means. This is a process of outputting to the actual machine 10.
Further, S200 to S280 are steps in which the simulation operation execution means (that is, the control circuit 40) executes the simulation operation for the setting function in the actual machine 10 based on the control information.
By such a process, the operation check of the application program is performed by combining the simulation process in the computer 2 and the simulation operation in the actual machine 10.
In addition, with respect to a function that is set to execute the operation check only by the simulation process in the computer 2 by the above-described “function setting means”, the operation check is performed only by the computer 2, and conversely, the simulation operation in the actual machine 10. For the function set to be executed only by, the operation check is performed only by the actual machine 10.

As described above, according to the configuration of the reference example 1 , the operation check of the application program is performed by combining the simulation process in the computer 2 and the simulation operation in the actual machine 10, so The specific operation on the actual machine 10 can also be confirmed in cooperation. In addition, since the operation check of any one of the plural functions can be executed by only one of the simulation processing in the computer 2 and the simulation operation in the actual machine 10, it is possible to check the operation efficiently. It becomes.

  In addition, since a list of functions that can cause the actual machine 10 to execute a simulation operation is displayed on the monitor 3 and a function to perform the simulation operation on the actual machine 10 is set based on the selection result by the operation means 9, the operator can The function to be simulated by the actual machine 10 can be arbitrarily and easily selected and set.

  In addition, for each function of the list stored in the “list storage means”, whether the operation check is performed only by the computer 2, only by the actual machine 10, or by both the computer 2 and the actual machine 10, Since the selection information for selecting is displayed on the monitor 3 and the worker is allowed to select it, it is possible to confirm the operation with a higher degree of freedom according to the intention of the worker.

  In addition, the execution of the next simulated operation is stopped until the release operation from the outside is performed at a predetermined time after the simulated operation is executed, and the stop is released when the release operation is performed. Thus, it is possible to effectively prevent the simulated operation in the actual machine 10 from proceeding to the next step without being properly confirmed.

  Further, the control circuit 40 corresponding to the “simulated operation executing means” executes a simulated operation for each setting function of the mobile terminal, and notifies the computer 2 of the end when the simulated operation for each setting function ends. It is configured to output. Then, the CPU 4 corresponding to the “simulation processing execution means”, in the phase of each setting function, outputs the next function of the phase in a predetermined order on condition that an end notification is output for the setting function of the phase. It is comprised so that it may transfer to the simulation process. Therefore, the simulation operation can be suitably performed for each setting function by linking the computer 2 and the actual machine 10 in a predetermined order.

[ Reference Example 2 ]
Next, Reference Example 2 will be described. FIG. 7 is a flowchart illustrating the flow of the operation check process in Reference Example 2 .
In Example 2, only a part of the flow chart of FIG. 7 differs from the Figure 6 of Reference Example 1, 1, 2, 4, the configuration of FIG. 5, and the processing of FIG. 3 as in Reference Example 1 It is the same. Accordingly, detailed description of similar parts will be omitted, and will be described with reference to FIGS. 1 to 5 as appropriate. Also in the flowchart, the processes of S310 to S410 shown in FIG. 7 are the same as the processes of S10 to S110 of FIG. 6, and the processes of S500 to S550 shown in FIG. 7 are the processes of S200 to S250 of FIG. It is the same. Also, the processing of S590 to S610 in FIG. 7 is the same as the processing of S260 to S280 in FIG.

  At a predetermined time after the simulation operation is executed, input of result information from the outside with respect to the simulation operation is received, and a process of saving the result history of the simulation operation is performed based on the received result information. Specifically, after the process of S550 (a process of displaying specific image data on the liquid crystal display 46) for performing a simulation operation for the image display function, the operator operates an operation unit (operation It is possible to input whether or not the image display in S550 is appropriate using a button or the like (not shown). If information indicating that the image display is appropriate is input from the operator, the process proceeds to the OK side in S560, indicating that the simulated operation has been performed for the liquid crystal display function, and that the simulated operation is appropriate. Are associated and stored as a history (S570). The history may be associated with various types of information such as time information such as date and time. On the other hand, when information indicating that the image display is not appropriate is input from the operator, the process proceeds to the NG side in S560, indicating that the simulated operation has been performed for the liquid crystal display function, and that the simulated operation is not appropriate. Are associated and stored as a history (S580).

In Reference Example 2 , the “program corresponding to the control circuit 40 and S560” corresponds to “result information receiving means” that receives input of external result information for the simulated operation at a predetermined time after the simulated operation is executed. To do. The control circuit 40 and the program corresponding to S570 and S580 correspond to “result history storage means” for storing the result history of the simulated operation based on the received result information.

According to the configuration of the reference example 2 , at the predetermined time after the simulation operation is executed, the input of the result information from the outside to the simulation operation is accepted, and the simulation result history is stored based on the received result information Therefore, the actually performed simulated operation and the result information about the simulated operation can be associated and left as a history, which is more advantageous in analyzing and evaluating the application program.

[ Reference Example 3 ]
Next, Reference Example 3 will be described.
FIG. 8 is a flowchart illustrating the flow of the operation check process in Reference Example 3 .
1, 2, 4, and 5 and the processing in FIG. 3 are the same as those in Reference Example 1, and thus detailed description thereof is omitted, and description is made with reference to FIGS. 1 to 5 as appropriate. I decided to. Further, since a part of the flowchart of FIG. 8 is the same as that of FIG. 6, the same part is referred to FIG. 6 as appropriate, and the detailed description is omitted.

Similarly to the reference example 1 , the operation check process according to the reference example 3 is a combination of a simulation process in the computer 2 (FIG. 1) and a simulation operation in the actual machine 10 (FIG. 1). Is what you do.
As shown in FIG. 8, when the operation check process is started in the computer 2 and the actual machine 10, first, an instruction analysis process is performed in S710. This process is the same as S10 in FIG. In the example of FIG. 8, processing related to a command (hereinafter also referred to as a display LED driving command) related to a function for driving a display LED (display LED driving function) is mainly shown, and commands related to other functions are omitted. Show.

  If it is determined in the instruction analysis process of S710 that the current phase is an instruction related to the display LED drive function, the process proceeds to Yes in S720, and the setting information shown in FIG. It is determined whether or not the operation check is set to be performed by the computer 2 (S730). When it is set that the operation confirmation of the display LED driving function is performed by the computer 2, the process proceeds to Yes in S730, and a simulation process (for example, lighting of the display LED) corresponding to the display LED driving function is performed (S740). If the current phase is a command other than the display LED drive function, the process proceeds to No in S720, and processing corresponding to the command of another function is performed. If it is set that the operation check for the display LED drive function is not performed by the computer 2, the process proceeds to No in S730, and the simulation process by the computer 2 for the display LED drive function is omitted.

Also in the reference example 3 , the CPU 4 (FIG. 1) performs the simulation processing of the portable terminal, and the CPU 4 displays the processing result of the simulation processing on the monitor 3 (for example, the monitor 3 displays the display LED lighting). The CPU 4 corresponds to an example of “simulation process execution means”.

After S740, with reference to the setting information shown in FIG. 5, it is determined whether or not the operation check for the display LED drive function is set in the real machine 10 (S750).
As described above, even in the reference example 3 , when the phase of the setting function (a function set to be executed at least by the actual machine 10 in the setting information in FIG. 5) is reached in the determined order, The setting function is instructed to actual machine control means (in the third embodiment , a program corresponding to the CPU 4 and S760 and S780 corresponds to: a later-described) to cause the actual machine 10 to perform a simulated operation.

  When it is set that the operation check for the display LED drive function is to be performed by the real machine 10, the process proceeds to Yes in S750, and an instruction for simulating the display LED drive function is transmitted to the real machine 10 (S760). . Thereafter, standby processing for waiting for an instruction from the real machine 10 is executed (S770).

On the other hand, on the actual machine 10 side, with the start of the operation confirmation process in the simulation system 1, the simulation mode is set, and the simulation operation process shown in S910 to S990 is started. In this processing, first, standby processing for waiting for an instruction from the computer 2 is performed (S910). The actual 10, (in the example of FIG. 8 program corresponding to the CPU4 and S760, S780) actual control means are those with a simulation operation execution unit for executing a simulation operation in response to control by, in Reference Example 3, the control The circuit 40 (FIG. 1) corresponds to this “simulated operation executing means”.

If there is any instruction from the computer 2, the process proceeds to Yes in S910, and analysis processing for analyzing the instruction is performed in S920. Further, a determination process is performed to determine which mode the instruction is for. This determination process includes the process of S930 and the process of determining other modes after S930 (when it is determined that the display LED drive mode is not selected in S930, it is determined whether or not it is another specific mode) Processing). In the example of FIG. 8, if the instruction from the computer 2 is for the display LED drive mode, the process proceeds to Yes in S930, and if not, the process proceeds to No in S930 and the processing of the other mode is performed. carry out.
In the example of FIG. 8, the simulated operation process for the display LED drive function is mainly exemplified in S940 to S990. However, when the process proceeds to No in S930, other processes corresponding to S940 to S990 are performed. Function simulation operation processing is performed separately.

  When the process proceeds to Yes in S930, an instruction for receiving display LED data from the computer 2 (that is, an instruction for requesting the computer 2 to transmit data related to the display LED, hereinafter also referred to as a display LED data reception instruction). Is transmitted (S940). As described above, the computer 2 performs the standby process in S770, and if the display LED data reception instruction is given, the process proceeds to Yes in S770, and the data related to the display in S740 (for example, which data The data for specifying how to turn on the display LED is transmitted (S780). In the example of FIG. 8, the simulation operation in the real machine 10 is controlled by transmitting an instruction in S760 or transmitting data in S780. In this example, a program corresponding to the CPU 4 and S760, S780 is “ It plays the role of "actual machine control means".

  On the actual machine 10 side, when a display LED data reception instruction is given in S940, standby processing for waiting for data transmission from the computer 2 is performed in S950. If data (data of S780) is sent from the computer 2 during the standby process, the process proceeds to Yes in S950, and the process of turning on the display LED 45 is performed based on the sent data. (S960).

After the lighting process of the display LED 45, it is determined whether or not to re-execute the lighting process (S970). In Reference Example 3 , when an instruction for re-execution by the worker is received in the actual machine 10, and the worker performs a predetermined re-execution operation using, for example, a predetermined key, the process proceeds to Yes in S970 and is displayed. The process of turning on the LED 45 is performed again. As described above, in the reference example 3 , after the simulated operation is executed, an external re-execution instruction is received, and the program corresponding to the control circuit 40 and S970 corresponds to an example of the “re-execution receiving unit”. ing. The control circuit 40 corresponding to the simulated operation executing means re-executes the previously performed simulated operation in response to the re-execution acceptance by the re-execution accepting means.

  The computer 2 transmits data to the real machine 10 in S780, and then performs a standby process for waiting for an end notification from the real machine 10 in S790, and the function related to the current simulation process from the real machine 10 (in the example of FIG. 8). When an end notification is received for the simulated operation of the (display LED function), the process proceeds to Yes in S790, and a process of shifting to the next command is performed (S800).

As described above, in Reference Example 3 , the CPU 4 corresponding to the “simulation process execution means” performs the simulation process for each function of the mobile terminal in a predetermined order according to the program corresponding to the flowchart on the computer 2 side in FIG. , And when the phase of the setting function (a function that is set to perform the simulation operation in the actual machine) is reached in the determined order, the actual machine 10 is caused to perform the simulation operation for the setting function in the phase. Therefore, it is instructed to actual machine control means (in FIG. 8, a program corresponding to CPU 4 and S760 and S780).

  On the other hand, the control circuit 40 (simulation operation execution means) installed in the actual machine 10 executes the simulation operation for each setting function of the mobile terminal according to the program corresponding to the flowchart on the actual machine side in FIG. An end notification is output to the computer 2 at the end of each simulated operation. In the setting function phase, the CPU 4 (simulation process execution means) shifts to the simulation process of the function next to the phase in a predetermined order on condition that an end notification is output for the setting function of the phase. It is like that.

In the operation confirmation method according to the reference example 3 , S710 to S760 and S770 correspond to the real machine control means (CPU4, S760, and S780) in order for the simulation process execution means (that is, the CPU 4) to cause the real machine 10 to perform the simulation operation for the setting function. This is a process of instructing the program).
S760 and S780 are control information for causing the actual machine 10 to execute a simulation operation on the basis of a command from the simulation processing execution means by the actual machine control means (a program corresponding to the CPU 4 and S760 and S780) via the communication means. This is a process of outputting to the actual machine 10.
Further, S910 to S990 are steps in which the simulated operation executing means (that is, the control circuit 40) executes the simulated operation for the setting function on the actual machine 10 based on the control information.
By such a process, the operation check of the application program is performed by combining the simulation process in the computer 2 and the simulation operation in the actual machine 10.
In addition, with respect to a function that is set to execute the operation check only by the simulation process in the computer 2 by the above-described “function setting means”, the operation check is performed only by the computer 2, and conversely, the simulation operation in the actual machine 10. For the function set to be executed only by, the operation check is performed only by the actual machine 10.

In Reference Example 3 , in addition to the effects of Reference Example 1 , an external re-execution instruction is received at a predetermined time after the simulated operation is executed, and the previous simulated operation is re-executed in response to the reception. Therefore, it is advantageous when there is a situation where the simulated operation should be re-executed (when the previous simulated operation is not sufficiently confirmed, or when there is any doubt about the simulated operation).

[ First Embodiment]
Next, a first embodiment will be described.
FIG. 9 is a flowchart illustrating the flow of the operation check process in the first embodiment.
In the present embodiment, the configurations of FIGS. 1, 2, 4, and 5 and the processing of FIG. 3 are the same as in Reference Example 1 (that is, the same as in Reference Example 3 ). Only a portion of the flow chart shown in FIG. 9 differs from the FIG. 8 of Reference Example 3. Detailed descriptions of similar parts are omitted, and will be described with reference to FIGS. 1 to 5 or 8 as appropriate.
Further, regarding the flowchart, the processing of S1010 to S1100 shown in FIG. 9 is the same as the processing of S710 to S800 of FIG. 8, and the processing of S1200 to S1250 shown in FIG. 9 is the same as the processing of S910 to S960 of FIG. It is the same. Further, the processing of S1320 to S1330 in FIG. 9 is the same as the processing of S980 to S990 in FIG.

  In the present embodiment, at a predetermined time after the simulation operation is executed, input of result information from the outside to the simulation operation is received, and a process of saving the simulation result history based on the received result information is performed. Is going. Specifically, after the display LED 45 (FIG. 1) is turned on in S1250, the operator displays the LED display in S1250 using an operation unit (operation buttons, etc., not shown) provided in the actual machine 10. Whether it is appropriate or not can be input. If information indicating that the display is appropriate is input from the operator, the process proceeds to the OK side in S1260, that the simulation operation is performed for the display LED drive function, and that the simulation operation is appropriate. Are associated and stored as a history (S1270). The history is associated with time information such as date and time, operating conditions to be described later, and the like. On the other hand, when information indicating that the display is not appropriate is input from the operator, the process proceeds to NG in S1260, and the simulation operation is performed for the display LED drive function and the simulation operation is not appropriate. Are associated and stored as a history (S1280).

  Also in the present embodiment, the simulated operation can be re-executed. In this case, the simulation operation can be re-executed by changing the operating condition from the previous time. In the example of FIG. 9, an instruction for re-execution by the worker is accepted in S1290, and the operator sets an operation condition (shown in the figure) on the actual machine 10 along with the re-execution instruction. (Omitted) can be used for input. For example, when the LED display color, time, blinking cycle, and the like can be input, and when an instruction for re-execution and an operation condition are input in S1290, the process proceeds to Yes in S1290 and the re-execution is performed. Processing for setting the operating condition is performed (S1300), and the value of the operating condition at that time is recorded (S1310).

  Thereafter, the process returns to S1250, and a display LED lighting process is performed based on the set operating condition. For example, when the setting time of the LED is changed in S1290, in the subsequent processes in S1270 and S1280, the simulation operation is performed for the display LED drive function and the simulation operation is appropriate (or appropriate) And the lighting time whose setting has been changed are stored in association with each other. In the present embodiment, the control circuit 40 and the program corresponding to S1270 and S1280 correspond to an example of “change history storage unit”.

  In this embodiment, when re-execution is accepted, the operation condition is changed from the previous time and the simulated operation can be re-executed, and each operation condition changed at the time of re-execution and each operation condition The simulation result re-execution result corresponding to the information is stored as a history in association with each other. Therefore, the simulated operation can be easily performed under various operating conditions. In addition, since each operation condition and the re-execution result of the simulated operation corresponding to each operation condition are stored in association with each other, the application program can be analyzed and evaluated in a multifaceted manner.

[Other Embodiments]
The present invention is not limited to the embodiments described with reference to the above description and drawings. For example, the following embodiments are also included in the technical scope of the present invention.

  In the above-described embodiment, an example in which a simulation process and a simulation operation are performed for the image display function and the display LED drive function and the operation is confirmed has been described, but it is needless to say that the function for performing the operation confirmation is not limited thereto. For example, the computer 2 has a key input function (a function for performing an input operation in response to an operation of a key), a code reading function (a function for reading an identification code such as a barcode), a buzzer function, a vibrator function, a communication function, etc. Or you may make it confirm operation | movement by the real machine 10 or both.

FIG. 1 is an explanatory diagram schematically illustrating a simulation system 1 according to Reference Example 1 of the present invention. FIG. 2 is a block diagram schematically illustrating the configuration of the actual mobile terminal. FIG. 3 is a flowchart illustrating a setting process of a function for performing a simulated operation. FIG. 4 is an explanatory diagram illustrating a display example of a list. FIG. 5 is an explanatory diagram for explaining the data structure of the setting data. FIG. 6 is a flowchart illustrating the flow of the operation check process. FIG. 7 is a flowchart illustrating the flow of the operation check process in Reference Example 2 . FIG. 8 is a flowchart illustrating the flow of the operation check process in Reference Example 3 . FIG. 9 is a flowchart illustrating the flow of the operation check process in the first embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Simulation system 2 ... Computer 3 ... Monitor (display means)
4 ... CPU (simulation process execution means, function setting means, actual machine control means, display control means)
7 ... HDD (list storage means)
9 ... Operating means 10 ... Real machine 35 ... Memory (result history saving means, change history saving means)
40... Control circuit (simulation operation execution means, stop means, release means, result information reception means, re-execution reception means)

Claims (7)

A simulation system comprising a computer having a display means and performing an operation check on an application program of a mobile terminal on the computer,
The computer
Connected to the actual device of the mobile terminal in which the application program is installed;
Simulation processing execution means for performing simulation processing of the portable terminal based on the application program and displaying the processing result of the simulation processing on the display means;
Among a plurality of functions of the portable terminal, function setting means for setting a function to be simulated in the actual machine in a changeable state,
Real machine control means for controlling the simulated operation by the real machine;
With
The actual machine is
A simulation operation executing means for executing the simulation operation according to the control by the actual machine control means,
The simulation processing execution means instructs the actual machine control means to cause the actual machine to perform the simulated operation for the setting function set in the function setting means,
The actual machine control means, based on a command from the simulation processing execution means, outputs control information for executing the simulation operation to the actual machine via a communication means,
The simulated operation execution means is configured to execute the simulated operation for the setting function in the actual machine based on the control information.
The operation check of the application program is performed by combining the simulation process in the computer and the simulation operation in the actual machine,
The operation check of any one of the plurality of functions can be executed by only one of the simulation processing in the computer and the simulation operation in the actual machine ,
Re-execution accepting means for accepting an external re-execution instruction at a predetermined time after the simulated action is executed by the simulated action executing means;
The simulated operation execution means includes
When the re-execution is accepted by the re-execution acceptance unit, the simulated operation performed last time is configured to be re-executed by changing the operation condition from the previous time,
Furthermore, a change history storage means is provided for storing each operation condition changed at the time of the re-execution and the re-execution result of the simulated operation corresponding to each operation condition as a history. A mobile terminal simulation system. List storage means for storing a list of functions that can cause the actual machine to execute the simulated operation;
Display control means for causing the display means to display the list stored in the list storage means in a state that can be selected by an operation means;
2. The mobile terminal simulation system according to claim 1, wherein the function setting unit sets a function to perform a simulation operation on the actual machine based on a selection result by the operation unit. The display control means performs the operation check for each function of the list stored in the list storage means only with the computer, only with the actual machine, or both of the computer and the actual machine. Display on the display means selection information for selecting whether to implement
The function setting means sets a function selected by the operation means to be executed only by the actual machine or to be executed by both the computer and the actual machine as a function to perform the simulated operation on the actual machine. The mobile terminal simulation system according to claim 2. Stop means for stopping execution of the next simulated operation by the simulated operation executing means until a release operation from the outside is performed at a predetermined time after the simulated operation is executed by the simulated action executing means;
Release means for releasing the stop by the stop means when the release operation is performed;
The mobile terminal simulation system according to any one of claims 1 to 3, further comprising: Result information receiving means for receiving input of result information from the outside for the simulated action at a predetermined time after the simulated action is executed by the simulated action executing means;
Based on the result information received by the result information receiving means, result history storage means for storing the result history of the simulated operation;
The mobile terminal simulation system according to any one of claims 1 to 3, further comprising:   The simulation processing execution means executes the simulation processing for each function of the mobile terminal in a predetermined order, and when the setting function phase is reached in the order, the setting function of the phase Instructing the actual machine control means to cause the actual machine to perform the simulated operation,
  The simulation operation executing means is configured to execute the simulation operation for each setting function of the mobile terminal and output an end notification to the computer at the end of the simulation operation for each setting function. And
  The simulation processing execution means shifts to the simulation processing of the function next to the phase in the order in the phase of the setting function on condition that the end notification is output for the setting function of the phase. The mobile terminal simulation system according to any one of claims 1 to 5, wherein:   An operation confirmation method for performing operation confirmation of an application program of a mobile terminal on the computer using a computer provided with a display means,
  The computer
  Connected to the actual device of the mobile terminal in which the application program is installed;
  Simulation processing execution means for performing simulation processing of the portable terminal based on the application program and displaying the processing result of the simulation processing on the display means;
  Among a plurality of functions of the portable terminal, function setting means for setting a function to be simulated in the actual machine in a changeable state,
  Real machine control means for controlling the simulated operation by the real machine;
It is equipped with
  The actual machine is
  A simulation operation executing means for executing the simulation operation according to the control by the actual machine control means,
  Instructing the actual machine control means to cause the actual machine to perform the simulated operation with respect to the setting function set in the function setting means;
  The actual machine control means, based on a command from the simulation process execution means, to output control information for executing the simulation operation to the actual machine via a communication means;
  The simulation operation executing means, based on the control information, executing the simulation operation for the setting function in the actual machine;
  Including
  The operation check of the application program is performed by combining the simulation process in the computer and the simulation operation in the actual machine,
  When the predetermined setting is made by the function setting means, the operation confirmation of any one of the plurality of functions is performed by checking only one of the simulation process in the computer and the simulation operation in the actual machine. Run by
  A step of accepting an external re-execution instruction by a re-execution acceptance unit provided in the actual machine at a predetermined time after the simulation operation is executed by the simulation operation execution unit;
  When the re-execution is accepted by the re-execution acceptance unit, the simulated operation execution unit re-executes the simulation operation performed last time by changing the operation condition from the previous time,
  A step of storing a history of the change history storing means in association with each operation condition to be changed at the time of re-execution, and the re-execution result of the simulated operation according to each operation condition;
A method for confirming the operation of a mobile terminal, comprising:

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