JP2007019962A - Terminal device, program and recording medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a terminal device capable of easily designating proper parameters when designating two relating parameters, and a program and a recording medium. <P>SOLUTION: The program comprises a parameter type selection step for selecting two types of parameters settable in a terminal device, a graph generation step for generating a graph in which the selected two types of parameters are defined as an ordinate and an abscissa, respectively, and proper extents of values of the parameters are displayed, a graph designation step for designating an optional position on the graph generated in the graph generation step, a parameter value setting step for setting the respective two types of parameters to values corresponding to the position on the graph designated in the graph designation step, and a control step for operating the terminal device with the values of the two types of parameters set in the parameter value setting step. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a technique capable of easily specifying an appropriate parameter when specifying two related parameters for a terminal device.

  Various terminal devices in recent years are equipped with a liquid crystal panel for displaying various information and images. And the liquid crystal panels are getting bigger year by year, and many more products using touch panels are on sale.

  The touch panel displays two-dimensional information and has the feature that the displayed position can be specified by designating the screen with a finger or a pointing device. Has been.

With conventional cameras, shooting was performed by adjusting individual parameters such as aperture and shutter speed using a dial provided on the camera or an arrow of a cross key. However, from the viewpoint of convenience of operation, a camera using a touch panel is also on sale (see, for example, Patent Document 1).
JP-A-8-23472

  When the technique described in Patent Document 1 is used, the shutter speed and the aperture can be selected from the liquid crystal screen, and further, since the values are displayed as values on the liquid crystal screen, the operation is facilitated. However, since the shutter speed and the aperture are related to each other and affect the superiority or inferiority of the photographed image, it has not always been easy for a novice user to determine whether or not those setting values are appropriate.

  The present invention has been made in view of such circumstances, and provides a terminal device, a program, and a recording medium that can easily specify appropriate parameters when specifying two related parameters. Objective.

  In order to solve the above-mentioned problems, a terminal device according to claim 1 according to the present invention is a terminal device having a display for displaying information and processing multimedia information such as images or sounds, the terminal device A parameter type selection unit that selects two types of parameters that can be set by the apparatus, and a graph that displays an appropriate range of values of the parameters with the selected two types of parameters on the vertical axis and the horizontal axis, respectively. The graph generation means, the graph designation means for designating an arbitrary position on the graph generated by the graph generation means, and the two types of parameters corresponding to the positions on the graph designated by the graph designation means A parameter value setting means for setting the value to be operated, and the terminal device is operated with the values of the two types of parameters set by the parameter value setting means. And a control that means.

  The terminal device according to claim 2 of the present invention is the terminal device according to the invention described above, wherein the parameter value is set by the parameter value setting means and the terminal device is operated by the control means. Parameter value storage means for storing the value as history, and history selection means for selecting the parameter value stored in the parameter value storage means, wherein the control means selects the parameter value selected by the history selection means To operate the terminal device.

  The terminal device according to claim 3 of the present invention is the terminal device according to the above-described invention, wherein the terminal device further includes a photographing unit that photographs a subject, and is selected by the parameter type selection unit. The two types of parameters are photographing parameters for photographing the subject by the photographing unit.

  The terminal device according to a fourth aspect of the present invention is the terminal device according to the above-described invention, wherein the shooting parameters include at least an aperture, a shutter speed, a shooting sensitivity, a focus position, a zoom magnification, an exposure correction, and a resolution. , One of the image compression rates.

  The terminal device according to a fifth aspect of the present invention is the terminal device according to the above-described invention, wherein the terminal device further includes audio reproduction means for reproducing music or audio, and the parameter type selection means The two types of parameters to be selected are parameters for the audio reproduction means to reproduce music or audio.

  A terminal device according to a sixth aspect of the present invention is the terminal device according to the above-described invention, wherein the reproduction parameter includes at least one of a frequency, a reproduction level, a left / right separation degree, and a reverb amount.

  The program according to claim 7 of the present invention is a program that has a display for displaying information and operates on a terminal device that processes multimedia information such as images or sounds, and can be set by the terminal device. A parameter type selection step for selecting two types of parameters, and a graph generation step for generating a graph for displaying an appropriate range of values of the parameters with the selected two types of parameters as the vertical axis and the horizontal axis, respectively. The graph designating step for designating an arbitrary position on the graph generated in the graph generating step, and the two types of parameters are set to values corresponding to the positions on the graph designated in the graph designating step. Parameter value setting step to be performed and the two types of parameters set in the parameter value setting step And a control step of operating the terminal apparatus in value.

  The recording medium according to claim 8 of the present invention is a recording medium having a display for displaying information and recording a program that operates on a terminal device that processes multimedia information such as images or sounds, A parameter type selection step for selecting two types of parameters that can be set by the terminal device, and a graph that displays an appropriate range of values of the parameters with the selected two types of parameters on the vertical axis and the horizontal axis, respectively. A graph generation step to be generated, a graph specification step for specifying an arbitrary position on the graph generated in the graph generation step, and a position on the graph specified in the graph specification step for each of the two types of parameters A parameter value setting step for setting to a value corresponding to, and the parameter value setting step Recording a program having a control step of operating the terminal device by the value of the parameter type.

  According to the present invention, when specifying two related parameters to the terminal device, it is possible to easily specify an appropriate parameter.

[First Embodiment]
A first embodiment of a terminal device according to the present invention will be described using a digital camera as an example.
FIG. 1 is a block diagram illustrating a configuration of a digital camera 10 according to the first embodiment.
The digital camera 10 includes a display unit 11, an operation input unit 12, a communication unit 13, an external media slot 14, a buffer memory 15, a processing unit 16, a program storage memory 17, a photographing unit 18, and a sensor detection unit 19.

The display unit 11 is configured by a touch panel, displays various information, and is also used as an information input unit. The operation input unit 12 is an operation member such as a release button or a cross button for operating the operation of the digital camera 10. The communication unit 13 is a communication interface for exchanging information with a lens as a camera accessory. The external media slot 14 is a slot for mounting a recording medium or the like.
The buffer memory 15 stores various data related to the operation of the digital camera 10. The processing unit 16 controls the overall operation of the digital camera 10. The program storage memory 17 stores a program that realizes each function of the digital camera 10. The photographing unit 18 photographs electronic subjects and generates electronic data. The sensor detection unit 19 measures data such as the brightness of the subject and the distance to the subject.

FIG. 2 is a diagram showing the contents of the parameter designation screen 1 displayed on the display unit 11 of the digital camera 10.
The parameter designation screen 1 is provided with a parameter display area 2 and a history display area 3.
The parameter display area 2 forms a two-dimensional coordinate plane, and a settable area 4 is displayed in the parameter display area 2. The settable area 4 is an area indicating coordinates that give appropriate parameter values under the current shooting conditions.
In FIG. 2, the horizontal axis represents the shutter speed value, and the vertical axis represents the aperture value. In the settable area 4, a parameter semi-recommended area 5 and a parameter recommended area 6 are displayed. Furthermore, in the parameter recommendation area 6, an area 6a having a deep depth of field, an appropriate area 6b, and a shallow area 6c are identified and displayed.
In the history display area 3, a history button 7 for selecting a parameter set by the user in the past and used for photographing is displayed.

Next, a method for designating parameters from the parameter designation screen 1 will be described.
When the shooting mode of the digital camera 10 is the manual mode and the appropriate range display mode is selected, the parameter designation screen 1 shown in FIG. 2 is displayed on the display unit 11.
The user can specify a desired (arbitrary) point of the settable area 4 displayed in the parameter display area 2 with a finger or a pointing device. Then, the shutter speed and the aperture corresponding to the designated coordinate position are set in the digital camera 10, and when the release button is operated, the shooting operation is performed with the set values.

When one of the history buttons 7 displayed in the history display area 3 is selected and pointed, the shutter speed and the aperture corresponding to the history button 7 are clearly indicated as coordinate positions in the settable area 4. Is displayed.
Therefore, the user can immediately determine and adopt whether or not the parameter value used for the previous shooting is suitable for the current shooting. The history button 7 may display a thumbnail image of image data taken in the past for the convenience of the user.

  Next, a general procedure of parameter input processing in the digital camera 10 will be described with reference to FIGS. The process described below is a process related to the main function of the parameter input process function. Therefore, even if the function is not described in the following description, the function described in the description of FIGS. 1 and 2 is included in the parameter input processing function.

  FIG. 3 is a diagram showing a main processing flow of the digital camera.

In step S01 of FIG. 3, the processing unit 16 of the digital camera 10 checks the input state of each key of the camera. If it is determined in step S02 that the power switch has been turned OFF, an interrupt is set in step S05 so that only the power switch of the camera is detected, and the process shifts to the sleep mode.
On the other hand, when any key of the camera is input while the power is on, in step S03, the input of various keys of the camera is determined, and shooting processing, menu display processing, and the like are executed. This key input process will be described later in detail.
In step S04, the process waits for the next key input. If a predetermined time or more has passed without key input, the process shifts to the sleep mode in step S05.

4 and 5 are flowcharts showing a schematic procedure of the key input process.
In step S11 of FIG. 4, it is checked whether the shooting mode is the manual mode. If Yes in step S11, that is, if the shooting mode is the manual mode, an appropriate range determination process (FIG. 8) is started in step S12. This appropriate range determination process is a process of displaying the settable area 4 in the parameter display area 2 of FIG.

In describing the process of FIG. 8, the logic for determining the proper exposure in the camera will be described.
Values relating to EV (exposure) include AV (aperture value: F-number), TV (shutter speed: shutter speed), BV (luminance value), and SV (sensitivity value: ISO). When these values are expressed as APEX values, the relationship shown in Expression (1) is established.
EV = AV + TV = BV + SV (1)
Here, APEX is an abbreviation for Additive System of Photographic Exposure, and is a conversion system standard for photography. FIG. 6 shows a conversion table between the APEX values and the respective values. As shown in this table, the APEX value is converted into a value of 0 to 10 for each value.

Next, a method for determining the AV value and the TV value with the digital camera 10 will be described.
The digital camera 10 calculates the BV value from the result of photometry performed by the sensor detection unit 19 through the lens. Then, the SV value, which is a unique value, is extracted from the sensitivity characteristics of the CCD that is the image sensor. Then, the EV value is calculated based on the formula (1). From this EV value, the user may select the AV value and the TV value so as to conform to Equation (1). The digital camera 10 uses a program diagram to automatically determine an AV value and a TV value from the calculated EV value.

FIG. 7 is a diagram showing a program diagram (in the case of ISO 100).
The horizontal axis in FIG. 7 represents the shutter speed, and the vertical axis represents the aperture value. Also, the numbers written on the upper and right sides corresponding to the diagonal lines shown in the figure represent the EV values.
A curve (broken line) represented by a thick line in the drawing is a line that gives an appropriate AV value and TV value in this digital camera. According to this program diagram, it is understood that the adjustable range of the digital camera 10 is that the aperture is 1.4 to 16 at the F number and the shutter speed is 4 to 1/4000 seconds.
More specifically, when the EV value calculated by the digital camera 10 is 14, F number: 8 and shutter speed: 1/250 seconds, which are the intersections of diagonal lines and curves, are appropriate. Determined as a parameter.

Under the above description, the appropriate range determination process in FIGS. 8 and 9 will be described.
In step T01 of FIG. 8, it is checked whether the camera is in the proper range display mode. This appropriate range display mode can be set by the user performing a predetermined operation from the operation input unit 12. When the user does not set the appropriate range display mode, the preview display mode is set, and a through image of the subject is displayed on the display unit 11.

  If Yes in step T01, that is, if the camera is set to the appropriate range display mode, in step T02, the processing unit 16 communicates with the lens and starts display processing of the settable area 4. In addition, when the digital camera 10 is a single-lens reflex camera, it is necessary to communicate with an interchangeable lens. However, in the case of a lens-integrated camera, this communication process is not necessary.

In step T03, a table about the F number of the lens is received from the lens. This is because the usable aperture range differs for each lens. In step T04, the received F number table is written in array A for subsequent processing. In addition, the maximum number of this arrangement | sequence is set to A-MAX.
In step T05, information on the range of usable shutter speeds is read from the internal table of the digital camera 10. In step T06, the read shutter speed information is written in array B for subsequent processing. Note that the maximum number of the arrays is B-MAX.
In step T07, the F number and the shutter speed range are displayed in the parameter display area 2.

Next, the depth of field is calculated.
FIG. 10 shows an expression for giving the depth of field.
In the depth of field, a front depth of field Lf and a rear depth of field Lr are defined. In order to calculate the front depth of field Lf and the rear depth of field Lr, information from the lens and information regarding the CCD are required. That is, the information from the lens includes the brightness of the lens (F number), the distance L to the subject, and the focal length f of the lens. Information relating to the CCD includes the diagonal length l of the CCD, the resolution identification capability G, and the diagonal length Pl during printing.
Returning to FIG. 8, in step T08, a BV value and an SV value (ISO) for performing exposure calculation are acquired. Also, in order to calculate the depth of field, the CCD diagonal length, focal length, subject distance, etc. are acquired.

In step T15, the process parameters I and J are set to initial values (= 1), and repetitive processing (steps T16 to T24) for displaying an appropriate range is executed.
In order to divide and display the settable area 4, it is determined whether or not the combination of the aperture and the shutter speed that can be set by the digital camera is within an appropriate range.

In step T16, one (I-th) F number in array A is converted to an APEX value. In step T17, one (J-th) shutter speed in the array B is converted into an APEX value. In step T18, these APEX values are added to obtain an EV value, and an appropriate range display process (FIG. 11) shown in step T19 is executed to determine whether the coordinate position can be set in the parameter display area 2. Display to identify.
The settable area 4 can be displayed by executing this process for all combinations of aperture and shutter speed.

  If No in step T01, that is, if the camera is not set to the appropriate range display mode, a through image of the subject is displayed on the display unit 11 in step T25.

FIG. 11 is a schematic flowchart showing the display process of the appropriate range.
In this process, the EV value based on the F number and the shutter speed calculated in step T18 of the appropriate range determination process in FIG. 9 is compared with a reference EV value (hereinafter referred to as EV0). Here, EV0 is an exposure value calculated from the BV value measured by the camera and the SV value.

In step P01, if the EV value is in an appropriate area, that is, if the relationship of expression (2) is established, in step P02, the predetermined area including the coordinate point on the touch panel is filled with the designated color A. .
| EV−EV0 | <= α (2)
If the EV value is one step lower in step P03, that is, if the relationship of equation (3) is established, the predetermined area including the coordinate point on the touch panel is painted with the designated color B in step P04.
−β <EV−EV0 <−α (3)
If the EV value is one step higher in step P05, that is, if the relationship of equation (4) is established, the predetermined area including the coordinate point on the touch panel is filled with the designated color C in step P06.
α <EV−EV0 <γ (4)
Next, the depth of field is determined from the front depth of field Lf and the rear depth of field Lr calculated using the F number.

In step P07, if the depth of field is shallow, that is, if the relationship of equation (5) is established, a predetermined area including the coordinate point on the touch panel is overwritten with the designated pattern D in step P08.
Lr−Lf ≦ δ (5)
If the depth of field is appropriate in step P09, that is, if the relationship of equation (6) is established, a predetermined area including the coordinate point on the touch panel is overwritten with the designated pattern E in step P10. .
δ <Lr−Lf <ε (6)
In step P11, if the depth of field is deep, that is, if the relationship of Expression (7) is established, a predetermined area including the coordinate point on the touch panel is overwritten with the designated pattern F in step P12.
ε <= Lr−Lf (7)
Returning to the key input process of FIG. 4, when the application range determination process in step S12 is completed and the history button 7 is operated in step S13, the history determination process (FIG. 12) shown in step S14 is executed.

In step T31 in FIG. 12, a history table HA in which F numbers operated in the past are recorded as an array is read. In step T32, the history table HB recording the shutter speeds operated in the past as an array is read.
In step T33, it is checked what numbered history button 7 is pressed from the operated history button 7, and the number I is set as the history number I. In step T34, the I-th F number recorded in the history table HA is read out. In step T35, the I-th recorded shutter speed in the history table HB is read out.

  In steps T36 and T37, the read F number and shutter speed are converted into APEX values, respectively, and in step T38, an EV value is calculated.

In step T39, an appropriate range display process (FIG. 11) is executed. In the appropriate range display processing, a designated pattern different from the designated pattern described in FIG. 11 is displayed. Therefore, the F number and shutter speed set in the past are clearly displayed in the settable area 4 by this processing. As a result, the user can easily use the parameters set in the past by simply pressing the same position as the displayed position.
Since the other processes are the same as those already described, the detailed description of the appropriate range display process will not be repeated.

Returning to FIG. 4, in the case of Yes in step S15, that is, when the user designates a desired position in the settable area 4, the XY coordinate value designated by the user is read in step S16. In steps S17 and S18, the corresponding aperture and shutter speed are calculated from the XY coordinate values and set as set values in the camera.
In step S19, the history storage flag SAV is set (= 1). If No in step S11, that is, if the shooting mode is not the manual mode, or if No in step S15, that is, if the user has not designated a desired position in the settable area 4, step In S20, the history storage flag SAV is reset (= 0).

Next, in the case of Yes in step S25, that is, when the release button is pressed, in step S26, a photographing operation is executed. In the case of Yes in step S27, that is, when the history storage flag SAV is set (= 1), in step S28, the F number and shutter speed used for shooting are recorded in the history tables HA and HB. In step S29, the history storage flag SAV is reset (= 0).
In the case of Yes in step S30, that is, when the user presses another key, processing corresponding to each key is executed in step S31, and the key input processing is completed.

[Other Embodiments]
In the first embodiment, an example in which the aperture and shutter speed are used as parameters for the camera has been described. However, the present invention is not limited to this embodiment and can be widely applied.
FIG. 13 is a diagram showing a form in the case of other applications.

(1) As another application example to the camera, there is a method of displaying an image size on a touch panel and inputting a value in a desired range when setting the resolution and the compression rate.
FIG. 14 is a diagram showing a screen for designating the resolution and compression rate.
The camera determines the shooting mode and the like at that time, and displays a recommended set value range. For example, when the shooting mode is a night view, camera shake becomes noticeable when the resolution is high, so it is recommended to set the resolution low.

  The combination of parameters is not limited to the above example, and is arbitrarily selected from the aperture, shutter speed, shooting sensitivity, focus position, zoom magnification, exposure correction, resolution, and image compression rate. Also good.

  (2) As an application example related to image processing, when setting brightness and contrast, a recommended set value range is displayed on the touch panel. Further, when setting the contrast of the image and the sharpness of the image, a recommended color is displayed on the touch panel.

(3) As an application example in a music device, when setting the frequency and level of a graphic equalizer, a recommended set value range is displayed on the touch panel. Further, when setting the left / right separation degree and reverberation time of the speaker, a recommended set value range is displayed on the touch panel.
FIG. 15 is a block diagram showing a configuration of a music device 30 according to another embodiment.
The music device 30 includes a display unit 31, an operation input unit 32, a communication unit 33, a buffer memory 34, an effect processing unit 35, a processing unit 36, a program storage memory 37, an audio output unit 38, and an external media slot 39.

The display unit 31 is configured by a touch panel, displays various information, and is also used as an information input unit. The operation input unit 32 is an operation member such as a switch or button for operating the music device 30. The communication unit 33 is a communication interface for exchanging information with other devices. The buffer memory 34 stores various data related to the operation of the music device 30.
The effect processing unit 35 processes effects (effects) such as audio stereo and reverberation.

The processing unit 36 controls the operation of the music device 30 in an integrated manner. The program storage memory 37 stores a program that realizes each function of the music device 30. The audio output unit 38 reproduces the effect-processed data as audio. The external media slot 39 is a slot for mounting a recording medium or the like.

FIG. 16 is a diagram showing the contents of the parameter designation screen 41 displayed on the display unit 31 of the music device 30.
The parameter designation screen 41 displays a two-dimensional coordinate plane whose parameters are the left / right separation degree of the speaker and the reverberation time, and a recommended set value range based on the type of music to be played, the frequency distribution, and the like. Is displayed.
When the user designates the XY coordinates, the value of the designated parameter is specified and set in the effect processing unit 35 via the processing unit 36. The data after the effect processing is sent to the audio output unit 38 and reproduced.

  In addition, you may comprise so that the user may select arbitrarily the parameter designated in each above-mentioned embodiment.

[Effect of the embodiment]
In each of the embodiments described above, the specified range of the vertical parameter and the settable range of the horizontal parameter displayed on the touch panel are displayed in the vertical direction and the horizontal direction, respectively. Then, in each setting range, an appropriate range is displayed on the touch panel by a combination of two related parameters on the device.
In this way, by displaying the guideline of the appropriate setting range on the touch panel when setting, it is possible for the user to easily specify visually, and to specify with no mistake at the time of input.
In addition, the history function has a function of storing previously designated points and calling and setting the history.
Therefore, the user can easily specify an appropriate parameter combination.

  Each function described in the above embodiment may be configured using hardware, or may be realized by reading a program describing each function into a computer using software. Each function may be configured by appropriately selecting either software or hardware.

  Furthermore, each function can be realized by causing a computer to read a program stored in a recording medium (not shown). Here, as long as the recording medium in the present embodiment can record a program and can be read by a computer, the recording format may be any form.

  Note that the present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. In addition, various inventions can be formed by appropriately combining a plurality of constituent elements disclosed in the embodiment. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, you may combine suitably the component covering different embodiment.

1 is a block diagram showing a configuration of a digital camera according to a first embodiment. The figure which shows the parameter designation | designated screen displayed on the display part of a digital camera. The figure which shows the main processing flow of a digital camera. The flowchart which shows the general | schematic procedure of a key input process. The flowchart which shows the general | schematic procedure of a key input process. The figure which shows the conversion table of APEX value and each value. The figure showing a program diagram. The flowchart which shows the determination process of an appropriate range. The flowchart which shows the determination process of an appropriate range. The figure which shows the type | formula which gives depth of field. The general | schematic flowchart which shows the display process of an appropriate range. FIG. 5 is a schematic flowchart showing history determination processing. The figure which shows the form in the case of applying to others as a table | surface. The figure which shows the screen which designates a resolution and a compression rate. The block diagram which shows the structure of a music device. The figure which shows the parameter designation | designated screen displayed on the display part of a music device.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Parameter designation screen, 2 ... Parameter display area, 3 ... History display area, 4 ... Setting possible area, 5 ... Parameter semi-recommended area, 6 ... Parameter recommendation area, 7 ... History button, 10 ... Digital camera, 11 ... Display , 12 ... operation input unit, 13 ... communication unit, 16 ... processing unit, 18 ... photographing unit, 19 ... sensor detection unit, 30 ... music device, 31 ... display unit, 32 ... operation input unit, 33 ... communication unit, 36 ... processing unit, 38 ... audio output unit, 41 ... parameter designation screen.

Claims (8)

A terminal device having a display for displaying information and processing multimedia information such as images or sounds,
Parameter type selection means for selecting two types of parameters that can be set in the terminal device;
Graph generating means for generating a graph for displaying an appropriate range of values of the two parameters selected on the vertical axis and the horizontal axis, respectively;
Graph specifying means for specifying an arbitrary position on the graph generated by the graph generating means;
Parameter value setting means for setting each of the two types of parameters to values corresponding to positions on the graph designated by the graph designation means;
Control means for operating the terminal device with the values of the two types of parameters set by the parameter value setting means;
The terminal device characterized by having. Parameter value storage means for storing the parameter value as a history set by the parameter value setting means and operating the terminal device by the control means;
History selection means for selecting the parameter value stored in the parameter value storage means,
The terminal device according to claim 1, wherein the control unit operates the terminal device with the parameter value selected by the history selection unit. The terminal device further includes a photographing unit for photographing the subject,
The terminal device according to claim 1 or 2, wherein the two types of parameters selected by the parameter type selection unit are shooting parameters for the shooting unit to take a picture of a subject.   4. The terminal apparatus according to claim 3, wherein the shooting parameter includes at least one of an aperture, a shutter speed, a shooting sensitivity, a focus position, a zoom magnification, an exposure correction, a resolution, and an image compression rate. The terminal device further includes audio reproduction means for reproducing music or audio,
The terminal device according to claim 1 or 2, wherein the two types of parameters selected by the parameter type selection unit are parameters for the audio reproduction unit to reproduce music or audio.   The terminal apparatus according to claim 5, wherein the reproduction parameter includes at least one of a frequency, a reproduction level, a left / right separation degree, and a reverb amount. A program having a display for displaying information and operating on a terminal device for processing multimedia information such as images or sounds,
A parameter type selection step for selecting two types of parameters that can be set in the terminal device;
A graph generating step for generating a graph displaying an appropriate range of the values of the two selected parameters with the vertical axis and the horizontal axis, respectively;
A graph designating step of designating an arbitrary position on the graph generated in the graph generating step;
A parameter value setting step for setting each of the two types of parameters to a value corresponding to a position on the graph specified in the graph specifying step;
A control step of operating the terminal device with the values of the two types of parameters set in the parameter value setting step;
The program characterized by having. A recording medium having a display for displaying information and recording a program that operates on a terminal device that processes multimedia information such as images or sounds,
A parameter type selection step for selecting two types of parameters that can be set in the terminal device;
A graph generating step for generating a graph displaying an appropriate range of the values of the two selected parameters with the vertical axis and the horizontal axis, respectively;
A graph designating step of designating an arbitrary position on the graph generated in the graph generating step;
A parameter value setting step for setting each of the two types of parameters to a value corresponding to a position on the graph specified in the graph specifying step;
A control step of operating the terminal device with the values of the two types of parameters set in the parameter value setting step;
The recording medium which recorded the program which has.

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