JP5370062B2 - Starter, start method and start program for device attachment mechanism - Google Patents

Description

  The present invention relates to an activation device, an activation method, and an activation program for an attachment mechanism attached to an apparatus. For example, the present invention relates to an activation device, an activation method, and an activation program for an apparatus attachment mechanism suitable for activation of a camera attached to a mobile phone.

  A mobile phone will be described as an example of various information processing apparatuses. In many cases, mobile phones are provided with various functions such as a function of receiving television in addition to a call function as an essential function. Among them, the most common function is a photographing function. Many mobile phones have a camera as a mechanism attached to the apparatus, and can be used to shoot still images and moving images.

  Since the mobile phone is a relatively small device, the number of keys arranged on the mobile phone is limited. In addition, the mobile phone has various functions, and a key is required to select these functions. For this reason, there is no room for assigning separate keys to the activation key for shooting a still image and the activation key for shooting a moving image, and the activation of a still image and a moving image is distinguished by changing how one key is pressed. Many methods are adopted.

  A key assigned to camera activation is referred to as a camera activation key. If this camera activation key is pressed for a short time (short press), for example, the mode shifts to the still image shooting mode and a still image can be taken. The camera is ready for shooting.

  Such a camera activation method will be referred to as a first related technique of the present invention. In the first related technique, it is not possible to determine whether the user is to shoot a still image or a moving image until the shortest time for determining whether the camera activation key has been pressed for a long time has elapsed. That is, even when the user starts pressing the camera activation key, the mobile phone stands by until the shortest time for determining whether or not the camera activation key is long pressed is over. If the camera activation key has not been continuously pressed up to this point, it is determined that the short press has been selected, and preparation for shooting a still image is started.

  On the other hand, when waiting until the shortest time for determining the long press of the camera start key is over, if the camera start key is continuously pressed until the end of the stand-by, the long press is selected. As a result, preparations for shooting a movie are started.

  FIG. 7 shows processing up to photographing by the camera according to the first related technique. Such processing is realized by executing a control program stored in a recording medium such as a ROM (Read Only Memory) by a CPU (Central Processing Unit) (not shown) mounted on the mobile phone.

  First, the CPU monitors whether the camera activation key is pressed (step S101). When the camera activation key is pressed (Y), the pressing time is counted (step S102), and it is determined whether the short pressing time has ended (step S103). When the short pressing time is over (Y), it is determined whether or not the camera activation key is being pressed at this time (step S104).

  If the pressing continues (N), preparation for still image shooting is performed (step S105). Specifically, (a) supply of power to the camera is started, and (b) camera operating firmware is read from a storage unit (not shown) of the mobile phone. Then, (c) firmware for operating the camera is downloaded to the camera. When the preparation for still image shooting is performed in this way, the camera is set for still image activation (step S106), the still image shooting is enabled (step S107), and the series of processing ends. (End).

  On the other hand, when it is determined that the pressing of the camera activation key is continued when the short pressing time ends in step S103 (step S104: Y), it is determined that the long pressing is being performed. In this case, preparation for moving image shooting is performed (step S108). Specifically, (a) supply of power to the camera is started, and (b) camera operating firmware is read from a storage unit (not shown) of the mobile phone. Then, (c) firmware for operating the camera is downloaded to the camera. When preparations for moving image shooting are made in this way, activation setting for moving images is performed on the camera (step S109), moving image shooting is possible (step S110), and a series of processing ends (end). .

  However, according to the first related technique, it is determined in step S104 whether the camera activation key is pressed for a short time or a long time, and after that, preparations for shooting still images or moving images and activation settings are performed. . For this reason, a relatively long time is required until the state of step S107 or step S110 in which a still image or a moving image can be taken. Therefore, there has been a problem that a photo opportunity is often missed.

  Therefore, as a second related technique of the present invention, it is proposed to load and execute a minimum program required in common in each operation mode when the apparatus is turned on ( For example, see Patent Document 1). According to the second related technique, a common program such as a mode determination, a determination of the amount of power of the power supply, and a program for checking the free capacity of the memory is loaded and executed in advance.

  In addition, it has been proposed as a third related technique of the present invention that preprocessing is executed when a specific part on the main body is touched (see, for example, Patent Document 2). According to the third related technique, when the user touches a specific part on the main body, the first detection means detects this, and the first executable that can be executed in advance in the preset startup process. Execute the process. Then, when the user performs a key input operation thereafter, the apparatus executes the remaining second process according to the detection result by the second detection means.

JP 2001-209545 A (paragraph 0043, FIG. 4) JP-A-2006-157374 (paragraphs 0092 to 0096, FIG. 7)

  Both the pressing of the power key in the second related technology and the pressing of the specific part on the main body in the third related technology are different operations from the specific operation for instructing the execution of the specific function. is there. Therefore, at the time when these previous operations are performed, the selection of the subsequent function or attached mechanism such as whether the user is finally going to take a picture with the camera or whether to watch the television is undecided. . Therefore, at the stage where the power key or a specific part on the main body is pressed, there is no choice but to load a limited form of a program that is a basic program corresponding to the various functions of the apparatus or the attached mechanism. For this reason, in comparison with the amount of programs required to operate a certain function or attached mechanism, the amount of programs loaded at the time of the previous operation often occupies a very small proportion.

  Moreover, according to the third related technique, the second process is executed after the first process is completed. For this reason, if the amount of common programs is large, even if the key corresponding to the target function or attached mechanism is pressed quickly, it is necessary to wait for the second process to be executed until the first process is completed. In some cases, it took time.

  In the above description, the camera mechanism is used to execute one of the still image shooting mode and the moving image shooting mode. However, one of two modes or modes is selected using another function or an attached mechanism. There are similar problems in other cases.

  Accordingly, an object of the present invention is to provide an apparatus attachment mechanism that can realize the activation of the target aspect in as short a time as possible when the activation aspect of the attachment mechanism attached to the apparatus differs depending on the length of the key pressing time. Providing a starting device, a starting method, and a starting program.

  In the present invention, (a) several attachment mechanisms arranged as attached to the apparatus, and (b) firmware storage means that collectively stores firmware for individually starting these attachment mechanisms; (C) When a plurality of activation modes are provided in a specific one of the several attachment mechanisms described above, in order to select one of these activation modes depending on the pressing time A specific key provided; (d) a pressing detection unit that detects pressing of the specific key; and (e) a pressing time measuring unit that measures the pressing time when the specific key is continuously pressed; (F) When the pressing of the specific key is detected by the pressing detection means, the firmware of the corresponding attached mechanism is read from the firmware storage means and the result is read. Download means upon detection of pressing for downloading to the attached mechanism, (g) start mode determining means for determining the start mode from the measurement time of the above-described press time measuring means, and (h) the start mode determining means for determining the start mode Then, the activation device for the device attachment mechanism includes activation mode setting means for setting the corresponding attachment mechanism to the activation mode.

  Further, in the present invention, (a) pressing of a specific key that is also used for starting the plurality of start modes in a predetermined attached mechanism that can arbitrarily start one of a plurality of predetermined start modes. And (b) when the pressing of the specific key described above is detected in the key pressing detecting step, the firmware for all of the plurality of predetermined activation modes is set as the predetermined A download step at the time of pressing detection that reads from a predetermined storage area of the device attached to the attachment mechanism and downloads to the predetermined attachment mechanism at the same time, and (c) the download is completed at the download step at the time of detection of the depression. Thereafter, the above-described plural key pressing times are detected to determine the pressing time of the specific key, which has been detected in the key pressing detecting step. The activation mode determination step for determining which activation mode is designated by comparing with the pressing time defined exclusively for each of the activation modes, and (d) only the activation mode determined in this activation mode determination step The apparatus attachment mechanism activation method includes an activation setting step for setting the predetermined attachment mechanism to be activated.

  Further, according to the present invention, as a startup program for the device attachment mechanism, (a) a plurality of these predetermined attachment mechanisms that can be activated by arbitrarily selecting one of a plurality of predetermined activation modes. A key press detection process for detecting a press of a specific key that is also used for starting the start mode of the start mode, and (b) when the press of the specific key is detected in the key press detection process, Download processing at the time of pressing detection that reads out firmware for all of the activation modes from the predetermined storage area inside the mobile phone and downloads it to the predetermined attached mechanism at the same time. After the download is completed in the process, the specific key press that has been detected in the key press detection process is started. An activation mode discrimination process for discriminating which activation mode is designated by comparing the pressed time defined exclusively for each of the activation modes described above, and (d) this activation mode The activation setting process for setting the predetermined attached mechanism is executed so that only the activation mode determined in the determination process is activated.

  As described above, according to the present invention, when a plurality of activation modes associated with one key are determined by the key pressing time, all the firmware related to the corresponding attached mechanism is detected when the key pressing is detected. Started to download. This not only shortens the time to start up in each startup mode, but also eliminates the need to store the firmware of the corresponding accessory in a separate form for each startup mode on the device attached to the accessory. This also has the effect of simplifying firmware management.

It is a claim corresponding | compatible figure of the starting device of the apparatus attachment mechanism of this invention. It is a claim corresponding | compatible figure of the starting method of the apparatus attachment mechanism of this invention. It is a claim corresponding | compatible figure of the starting program of the apparatus attachment mechanism of this invention. It is a block diagram showing the outline | summary of the structure of the mobile telephone by embodiment of this invention. It is a flowchart showing the flow of a process until imaging | photography with a camera with the mobile telephone of this Embodiment. It is explanatory drawing showing the relationship between the pressing method of a camera starting key and camera starting mode in this Embodiment. It is a flowchart showing the process until imaging | photography of the camera by 1st related technology.

  FIG. 1 is a diagram corresponding to claims of an activation device for an apparatus attachment mechanism according to the present invention. The apparatus attachment mechanism activation device 10 of the present invention includes an attachment mechanism 11, firmware storage means 12, a specific key 13, a pressing detection means 14, a pressing time measurement means 15, a pressing detection download means 16, and activation. A mode discriminating unit 17 and an activation mode setting unit 18 are provided. Here, there are some attachment mechanisms 11 arranged as attachments to the apparatus. The firmware storage unit 12 collectively stores firmware for individually starting these attachment mechanisms 11. The specific key 13 selects one of these activation modes depending on the pressing time when a plurality of activation modes are provided in a specific one of the several attachment mechanisms 11. It is provided for. The pressing detection unit 14 detects pressing of the specific key 13. The pressing time measuring means 15 measures the pressing time when the specific key 13 is continuously pressed. When the pressing detection means 15 detects that the specific key 13 is pressed, the pressing detection download means 16 reads the firmware of the corresponding attachment mechanism from the firmware storage means 12 and downloads it for the attachment mechanism. The activation mode determination unit 17 determines the activation mode from the measurement time of the pressing time measurement unit 15. When the activation mode determination unit 17 determines the activation mode, the activation mode setting unit 18 sets a corresponding attached mechanism to the activation mode.

  FIG. 2 is a diagram corresponding to the claims of the method for starting the apparatus attachment mechanism of the present invention. The apparatus attachment mechanism activation method 20 of the present invention includes a key depression detection step 21, a depression detection download step 22, an activation mode determination step 23, and an activation setting step 24. Here, in the key press detection step 21, a specific key used for starting the plurality of start modes in a predetermined attached mechanism capable of arbitrarily selecting and starting one of a plurality of predetermined start modes is selected. Detects pressing. In the pressing detection download step 22, when the pressing of the specific key is detected in the key pressing detection step 21, firmware for all of the plurality of predetermined activation modes is stored in the predetermined attached mechanism. Read from a predetermined storage area of the attached device. Then, the firmware is downloaded in a batch to the predetermined attachment mechanism described above. In the activation mode determination step 23, it is determined which activation mode is designated after the download is completed in the download detection step 22 when pressing is detected. This is performed by discriminating the pressing time of the specific key that has been detected in the key pressing detecting step 21 and comparing it with the pressing time defined exclusively for each of the plurality of activation modes. In the start setting step 24, the predetermined attached mechanism is set so that only the start mode determined in the start mode determining step 23 is started.

  FIG. 3 is a diagram corresponding to the claims of the activation program of the device attachment mechanism of the present invention. The activation program 30 of the device attachment mechanism of the present invention causes the computer of the mobile phone to execute a key press detection process 31, a press detection download process 32, an activation mode determination process 33, and an activation setting process 34. Yes. Here, in the key press detection process 31, a specific key used for activating the plurality of activation modes in a predetermined attached mechanism capable of arbitrarily selecting and activating any of a plurality of predetermined activation modes. Detects pressing. In the pressing detection download process 32, when the key pressing detection process 31 detects the pressing of the specific key, the firmware is read from a predetermined storage area inside the mobile phone and collectively stored in the predetermined accessory mechanism. Download. This firmware is intended for all of the predetermined startup modes described above. In the activation mode determination process 33, it is determined which activation mode is designated after the download is completed in the pressing detection download process 32. This determination is performed by determining the pressing time of the specific key that has been detected in the key pressing detection process 32 and comparing it with the pressing time defined exclusively for each of the plurality of activation modes. In the activation setting process 34, the predetermined attached mechanism is set so that only the activation mode determined in the activation mode determination process 33 is activated.

  <First Embodiment of the Invention>

  Next, an embodiment of the present invention will be described.

  FIG. 4 shows an outline of the configuration of the mobile phone according to the embodiment of the present invention. The cellular phone 200 has a main control unit 203 including a CPU 201 and a memory 202 that stores a control program. The main control unit 203 is connected to each unit in the mobile phone 200 via a bus 204 such as a data bus.

Among them, the mobile phone basic circuit unit 205 collectively shows basic circuit portions as the mobile phone 200 for simplification of illustration. The mobile phone basic circuit unit 205 is composed of, for example, circuit parts and displays related to communication and telephone calls. The key switch unit 206 is connected to the bus 204 via an input circuit 207, and includes various key switches 208 ₁ ,... 208 _M.

Of these, ₂ second key switch 208 has a camera activation key for activating the camera mechanism 209. The input circuit 207 is subjected to processing for preventing chattering. Therefore, for example, when the user erroneously presses the second key switch 208 ₂ (hereinafter referred to as the camera activation key 208 ₂ ) for a very short time or repeats such a press in a short cycle, the input (press) Is treated as if it was not done.

  The firmware storage unit 211 stores firmware used individually by the camera mechanism 209 and other attachment mechanisms 212 as some attachment mechanisms attached to the mobile phone 200. The firmware storage unit 211 can also use a partial area of the memory 202 in the main control unit 203. The power supply control unit 213 performs control to supply power to the camera mechanism 209 and other attachment mechanisms 212.

  Here, the camera mechanism 209 includes a camera body 215 and a storage unit 216 that stores firmware used by a control unit (not shown) therein. When the still image shooting mode is set, the camera body 215 captures a still image by pressing a predetermined shutter key in the key switch unit 206. When the moving image shooting mode is set, moving image shooting is started by first pressing the shutter key, and moving image shooting is ended by next pressing. The other attachment mechanism 212 is a mechanism that similarly operates using firmware, but since it is not directly related to the description of the present invention, illustration and description of its internal configuration are omitted.

4, at least a part of each unit other than the main control unit 201 may be realized by software by the CPU 201 executing a control program stored in the memory 202. For example, the input circuit 207 that performs input processing of various key switches 208 ₁ ,..., 208 _M may be configured by hardware including only electronic components, or a part or all thereof is processed by software. It may be like this.

  FIG. 5 shows the flow of processing up to the photographing of the camera with the mobile phone configured as described above. This corresponds to FIG. 7 according to the first related technique. This will be described with reference to FIG.

First, CPU 201 monitors whether the input circuit 207 detects the depression of the camera start key ₂₀₈₂ (step S301). When the input circuit 207 detects that the camera activation key is pressed (Y), the CPU 201 starts counting the pressing time by a counter (not shown) in the mobile phone basic circuit unit 205 from zero (step S302). Such a counter can be realized, for example, by electronically counting a clock (not shown).

  When the counter starts counting the pressing time, the CPU 201 immediately starts preparation for camera activation (step S303). Specifically, (a) the power supply control unit 213 is instructed to start supplying power to the camera mechanism 209. Then, (b) the camera operation firmware is read out from the firmware storage unit 211 of the mobile phone 200, and (c) the storage unit 216 in the camera mechanism 209 is downloaded.

  Here, the firmware for camera operation is software required in both the still image shooting mode and the moving image shooting mode. Therefore, in step S303, both the processes in steps S105 and S108 in FIG. 7 are performed.

When the process of step S303 is completed, CPU 201 discriminates whether the input circuit 207 no longer detects the pressing of the camera start key ₂₀₈₂ (step S304). If the pressing of the camera activation key 208 ₂ is not detected at this time (Y), it is determined that the user has pressed the camera activation key 208 ₂ for a short time, and the camera mechanism 209 is activated for a still image. Set (step S305). As a result, the camera mechanism 209 shifts to a state in which shooting can be performed in the still image mode (step S306), and waits for a shutter button (not shown) to be pressed. As a result, the processing up to shooting by the camera is completed (END).

On the other hand, when the process of step S303 is completed, the still depressed cameras start key ₂₀₈₂ has been continuously (step S304: N). In this case, CPU 201 is pressed the camera start key ₂₀₈₂ before exceeding the short press time predetermined to determine is detected (step S307). If you have not exceeded (N), it returns to step S304, thereby performing further of discrimination pressing the camera start key ₂₀₈₂ is no longer detected.

  FIG. 6 shows the relationship between the camera activation key pressing method and the camera activation mode. This will be described with reference to FIGS.

When the pressing time of the camera activation key 208 ₂ is t, when the pressing time t is equal to or less than a predetermined value t ₁ , it is determined that the camera activation key 208 ₂ is pressed for a short time. At this time, the camera activation mode is the still image shooting mode. In this case, the lower limit value of the pressing time t is a positive value, and since the pressing time is actually determined based on the count value of the counter, the count value is an integer equal to or greater than “1”. When the chattering occurs, it not determined that the depression of the camera start key ₂₀₈₂ of the step S301.

When the camera start key ₂₀₈₂ of the depression time t exceeds the value t ₁ is the camera activation mode is the mode for moving image shooting. Actually, it is determined whether the camera activation key 208 ₂ has been pressed beyond the count value corresponding to the value t ₁ . Data indicating the correspondence between the value t ₁ and the individual shooting modes is stored in the memory 202 in advance. The value t ₁ may be changed freely by the user.

Returning to FIG. The count value of the counter indicating the depression time of the camera start key ₂₀₈₂ is, when the CPU201 to those beyond the short press time is determined (step S307: Y), the processing for long press is started. That is, the CPU 201 activates the camera mechanism 209 for moving images (step S308). As a result, the camera mechanism 209 shifts to a state in which shooting is possible in the moving image mode (step S309), enters a state of waiting for a shutter button (not shown) to be pressed, and the processing up to shooting by the camera ends (end).

In the above present embodiment described, when the camera start key ₂₀₈₂ depressed is detected, and postpone the determination of whether the pressing time is in a one long press time short press time, the camera mechanism 209 is required I decided to download the firmware. Then, using the determination result of whether the pressing time is the short pressing time or the long pressing time, it is decided to set in which operation mode the camera mechanism 209 is activated. Thereby, even when the user sets the upper limit of the short press time relatively long, the necessary firmware can be downloaded to the camera mechanism 209 without delay. Thus, when the camera start key 208 determines the photographing mode by the length of the _second depressing is completed, the camera startup time shortened, it is possible to start the rapid shooting in a desired photographing mode. Detection of depression of the camera start key ₂₀₈₂ may be performed in the interrupt processing to the CPU 201.

As an example, the value t ₁ shown in FIG. 6 is set to 500 milliseconds. User a camera activation key 208 ₂ to shoot still images and was pressed for a short, the time is assumed to be 120 ms. According to a first related art shown in FIG. 7, a camera activation key 208 ₂ By pushing short, in the case of this example to determine the short press on after 120 milliseconds (Fig. 7 Step S103: Y), The firmware is read out and transferred to the camera mechanism 209 (step S105). This firmware reading and transfer to the camera mechanism 209 depends on the size of the firmware, but here it is also assumed to be 120 milliseconds. In this case, according to the first related art, consists of the time when the camera start key ₂₀₈₂ was pressed initiated before performing camera startup setting to elapse 240 milliseconds.

In the case of this embodiment, when the camera start key ₂₀₈₂ has passed the depression started 120 from the time of milliseconds, the transfer to the firmware reads and camera mechanism 209 is completed (FIG. 5 step S303). Short pressing of the camera start key 208 ₂ at this end is also terminated (step S304: Y). Therefore, compared to the first related technology, in this example, it is possible to shoot a still image in approximately half the required time.

In the present embodiment, upon detecting depression of a camera activation key 208 ₂ in step S301, but to initiate the operation of the counter in step S302, the before proceeds to step S303, and then counter of counting You may start.

Further, in this embodiment, although not an upper limit value of the pressing of the camera start key 208 ₂ length as shown in FIG. 6, it may be an upper limit value. Thus, it is possible to cancel the state pressed state of the camera start key 208 ₂ even when, as is locked, you start setting the camera mechanism 209 for moving for some reason. As a result, even if the user mistakenly performs a key operation for starting moving image shooting, it is possible to prevent the moving image shooting from being started arbitrarily.

Further in the embodiment, although setting the pressing time of the camera start key ₂₀₈₂ into two kinds, may be set to three or more. At this time, a sound is generated at regular intervals like a metronome, or the frequency of the generated sound is changed stepwise over time, and the user selects the pressing time according to the desired mode. An easy device may be used.

  Of course, the present invention is not limited to the setting of the still image shooting mode and the moving image shooting mode in the camera mechanism 209. The present invention can be applied to any activation device that can select a plurality of executable modes of an attachment mechanism of an information processing device such as a cellular phone with one key. For example, the present invention can be used for applications such as a normal still image shooting mode when a predetermined key is short-pressed and a special correction shooting mode when a predetermined key is pressed long. Of course, the present invention can also be applied to switching between modes other than shooting.

DESCRIPTION OF SYMBOLS 10 Starting apparatus of apparatus attachment mechanism 11 Attachment mechanism 12 Firmware storage means 13 Specific key 14 Press detection means 15 Press time measurement means 16 Download detection means at the time of pressing detection 17 Start mode discrimination means 18 Start mode setting means 20 Start method of apparatus attachment mechanism 21 Key pressing detection step 22 Downloading step upon detection of pressing 23 Startup mode determination step 24 Startup setting step 30 Startup program of mechanism attached to device 31 Key pressing detection processing 32 Download processing upon detection of pressing 33 33 Startup mode determination processing 34 Startup setting processing 200 Mobile phone 201 CPU
202 Memory 203 Main control unit 208 ₂ Camera start key 209 Camera mechanism (attached mechanism)
211 Firmware storage unit 212 Other attached mechanisms 213 Power source control unit 215 Camera body 216 Storage unit

Claims (7)

Several attachment mechanisms arranged as attachments to the device;
Firmware storage means for storing each firmware for individually starting these attached mechanisms, and
When a plurality of activation modes are provided in a specific one of the several attachment mechanisms, a specification provided for selecting one of the activation modes according to a difference in pressing time Key,
Pressing detection means for detecting pressing of the specific key;
Pressing time measuring means for measuring the pressing time when the specific key is continuously pressed;
When a pressing of the specific key is detected by the pressing detection unit, a pressing detection download unit that reads the firmware of the corresponding attachment mechanism from the firmware storage unit and downloads the firmware for the attachment mechanism;
Activation mode determination means for determining the activation mode from the measurement time of the pressing time measurement means;
An activation device for an apparatus attachment mechanism comprising: activation mode setting means for setting a corresponding attachment mechanism to the activation mode when the activation mode determination means determines the activation mode.   2. The apparatus attachment mechanism according to claim 1, wherein the one specific attachment mechanism is a camera mechanism for photographing, and the plurality of activation modes are a still image photographing mode and a moving image photographing mode. Activation device.   The specific one attached mechanism is a camera mechanism for photographing, and the plurality of activation modes are a normal photographing mode and a photographing mode subjected to special correction. Starter of the device attachment mechanism.   2. The device attachment mechanism activation device according to claim 1, wherein the pressing detection download means powers on the corresponding attachment mechanism before reading and downloading the firmware. A key press detection step for detecting pressing of a specific key that is also used for starting the plurality of start modes in a predetermined attached mechanism capable of arbitrarily selecting and starting any of a plurality of predetermined start modes; and
When the pressing of the specific key is detected in the key pressing detecting step, the firmware for all of the plurality of predetermined activation modes is read from a predetermined storage area of the device attached to the predetermined accessory mechanism. A download step at the time of pressing detection that downloads to the predetermined attached mechanism in a batch;
After the download is completed in the pressing detection download step, the pressing time of the specific key that has been detected in the key pressing detection step is determined to determine a pressing time that is exclusively defined for each of the plurality of activation modes. By contrast, an activation mode determination step for determining which activation mode is designated,
And a start setting step for setting the predetermined attached mechanism so that only the start mode determined in the start mode determining step is started.   The device with the predetermined attachment mechanism is a mobile phone, the plurality of activation modes are a still image shooting mode and a moving image shooting mode, and the specific key is for starting the camera as the predetermined attachment mechanism 6. The method according to claim 5, wherein the firmware is a firmware required for still image shooting and moving image shooting. On the computer of the mobile phone
A key press detection process for detecting pressing of a specific key that is also used for starting the plurality of start modes in a predetermined attached mechanism capable of arbitrarily selecting and starting one of a plurality of predetermined start modes; and
When the pressing of the specific key is detected in the key pressing detection process, the firmware for all of the plurality of predetermined activation modes is read from a predetermined storage area inside the mobile phone and the predetermined attachment mechanism Download processing at the time of detection of pressing to download all at once,
After the download is completed in the pressing detection download process, the pressing time of the specific key that has been detected in the key pressing detection process is determined, and the pressing time defined exclusively for each of the plurality of activation modes In contrast, a start mode determination process for determining which start mode is specified, and
A startup program for an apparatus attached mechanism, which executes a startup setting process for setting the predetermined attached mechanism so that only the startup mode determined by the startup mode determination process is started.

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