JP2010272995A - Mobile terminal and method for operating mobile terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mobile terminal capable of controlling the viewing angle of a display screen according to a user's photographing state. <P>SOLUTION: Since the mobile terminal 1 includes a photographing part 4, a display part 2 for displaying an image that is currently photographed by the photographing part 4, and a viewing angle control part 7 for controlling a viewing angle of the display part 2 when the display part 2 displays the image that is currently photographed by the photographing part 4, the mobile portable can control the viewing angle of the display screen in accordance with the user's photographing state. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a mobile terminal having a photographing function and an operation method of the mobile terminal.

  In recent years, mobile terminals having a function of taking a still image or a moving image using a display display instead of a finder, such as a digital camera or a mobile phone with a camera function, are widely used.

  For example, Patent Document 1 discloses a portable terminal provided with a photographing unit, and describes that a viewing angle of a liquid crystal display unit is adjusted according to whether or not an image display mode is set.

  FIG. 15A and FIG. 15B are explanatory diagrams showing the usage state of the mobile terminal 20 described in the cited document 1, and FIG. 15A shows the liquid crystal display unit with a narrow viewing angle. FIG. 15B shows a case where the liquid crystal display unit is set to a wide viewing angle.

  In the mobile terminal 20 of the cited document 1, for example, when the user of the mobile terminal 20 is operating an email or the like, the liquid crystal display unit is set to a narrow viewing angle as shown in FIG. In this case, it is difficult for a person outside the viewing angle range indicated by the shaded portion 21 in FIG. 15A to see the screen displayed on the liquid crystal display unit. On the other hand, in the display mode for displaying a photographed image or video, the transmittance characteristic with respect to the viewing angle is changed by changing the voltage applied to the liquid crystal layer. Thereby, as shown in FIG. 15B, the liquid crystal display unit is set to a wide viewing angle. In this case, the viewing angle is expanded to a range indicated by the shaded portion 22 in FIG.

JP 2004-233527A (released on August 19, 2004)

  As described above, in recent years, portable terminals equipped with photographing means have been widely used. However, when photographing with this portable terminal, it is not always possible to photograph while directly looking at the display display to which the photographing object is transferred.

  For example, when taking a picture from behind a fence or when an object is placed around a position to be taken, it is conceivable that the display cannot be fully viewed. In this case, since the shooting is performed while the display display is obliquely viewed, depending on the viewing angle characteristics of the display display, it is unavoidable that the shooting target cannot be sufficiently confirmed.

  Usually, the display is designed so that the direct view (front view) state looks best. For this reason, in the perspective state, the contrast ratio characteristic or the color reproduction range of the display is deteriorated. On the other hand, if the viewing angle characteristic in the perspective state is increased, this is often a trade-off with the viewing angle characteristic in the front view state, and cannot be easily switched.

  In Patent Document 1, when a captured image or video is reproduced and displayed, the viewing angle of the liquid crystal display unit is set to a wide viewing angle, and otherwise, the viewing angle is set to a narrow viewing angle. Yes. However, Patent Document 1 does not describe whether the mobile terminal 20 is set to have a narrow viewing angle or a wide viewing angle, so that the appearance in the front view state is good. Therefore, in the portable terminal 20 of Patent Document 1 in which the viewing angle at the time of shooting is fixed, there is a case where the shooting target cannot be sufficiently confirmed and shooting must be performed.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a mobile terminal capable of controlling the viewing angle of a display screen in accordance with a user's shooting situation.

  In order to solve the above-described problem, the mobile terminal according to the present invention includes an imaging unit, a display unit that displays an image being captured by the imaging unit, and an image that is being captured by the imaging unit. And a viewing angle control unit that controls the viewing angle of the display unit when displaying.

  According to said structure, the portable terminal which concerns on this invention controls the viewing angle of the display part in which the image in imaging | photography is displayed. As a result, an image that looks good for the user can be displayed depending on the situation, regardless of whether the user is viewing the display unit in a front view or a perspective view.

  For example, if the user is in a state of viewing the display unit from the front, it is possible to display the display unit so as to improve the appearance of the front view by narrowing the viewing angle of the display unit. On the other hand, if the user is in a state of squinting the display unit, the display unit can be displayed so as to improve the appearance of the squint state by widening the viewing angle of the display unit. Thus, even if the user is not in a state of viewing the display unit in front, the user can sufficiently check the image displayed on the display unit.

  In the mobile terminal according to the present invention, when the display unit displays an image being shot by the shooting unit, the viewing angle of the display unit is controlled. In the present invention, the display unit functions as a viewfinder when shooting using a mobile terminal, and displays an image taken by the shooting unit.

  Therefore, for example, when the user directly shoots the display, shoots from behind the fence, or moves the position to be shot while the user is shooting, Even if the position of the user with respect to the display unit changes depending on the situation, the viewing angle of the display unit can be easily switched.

  As described above, the mobile terminal according to the present invention controls the viewing angle of the display unit when the display unit displays an image being captured by the imaging unit. Therefore, the viewing angle of the display unit can be controlled so as to display an image that looks good for the user in accordance with the user's shooting situation.

  In addition, the mobile terminal according to the present invention preferably further includes a setting unit for transmitting viewing angle setting information to the viewing angle control unit.

  According to the above configuration, the setting unit transmits viewing angle setting information to the viewing angle control unit. That is, in the setting unit, when setting information indicating what viewing angle is controlled by the display unit is input, the input setting information is transmitted to the viewing angle control unit.

  The mobile terminal according to the present invention further includes a viewing angle setting input unit to which the viewing angle setting information is input by a user, and the setting unit displays the input viewing angle setting information as the viewing angle. It is preferable to transmit to the control unit. Thereby, the user can perform input to the setting unit.

  Therefore, for example, when the user takes a picture, the viewing angle of the display unit can be set by the user so that the display unit looks better from any position.

  The portable terminal according to the present invention further includes a detection unit that detects the presence or absence of a user within a range in which the display unit is viewed from the front, and the viewing angle control unit is configured such that the detection unit detects the user. In this case, it is preferable to control the viewing angle to a narrow viewing angle, and to control the viewing angle to a wide viewing angle when the detection unit does not detect the user.

  According to said structure, a detection part detects whether there exists a user in the range which looks at a display part from the front. That is, the detection unit determines the presence or absence of a user by using, for example, a sensor or the like depending on whether or not the sensor detects the user. Thereby, it is possible to determine in what state the user is viewing the display unit, that is, whether the user is in a front view state or a perspective state.

  In the mobile terminal according to the present invention, the viewing angle control unit controls the viewing angle according to the detection result of the user by the detection unit. That is, when the detection unit detects that the user is within the range where the display unit is viewed from the front, the viewing angle control unit controls the viewing angle of the display unit to be narrowed. On the other hand, when the detection unit does not detect the user, the viewing angle control unit performs control so that the viewing angle of the display unit becomes wide.

  Therefore, the viewing angle of the display unit can be automatically controlled according to the position of the user with respect to the display unit.

  Moreover, the portable terminal which concerns on this invention WHEREIN: It is preferable that the said detection part detects the presence or absence of the said user by transmitting / receiving infrared rays.

  For example, when the range in which the detection unit transmits infrared rays is within the range in which the display unit is viewed from the front, if there is a user within the range, the infrared rays transmitted by the detection unit are reflected by the user. As a result, when the detection unit receives the reflected infrared rays, the detection unit determines that the user is within the range. On the other hand, even if infrared rays are transmitted, if the infrared rays are not received, the detection unit determines that there is no user within the range.

  Therefore, it can be determined whether or not the user is within a range where the display unit is viewed from the front depending on whether or not the detection unit receives infrared rays.

  In the mobile terminal according to the present invention, the display unit is preferably a liquid crystal display panel.

  Furthermore, in the mobile terminal according to the present invention, it is preferable that the viewing angle control unit controls the viewing angle by changing a driving pattern of the liquid crystal display panel.

  Thus, by changing the drive pattern of the liquid crystal display panel according to the user's shooting situation, the viewing angle of the display unit can be set so that the display unit looks better from any position.

  In order to solve the above problems, an operation method of a mobile terminal according to the present invention is an operation method of a mobile terminal including a display unit, a user detection unit, a setting unit, and a viewing angle control unit, A display step in which the display unit displays an image being shot on the display unit, a detection step in which the user detection unit detects the presence or absence of a user within a range in which the display unit is viewed in front, and the use When the viewing angle control unit receives a signal indicating that the person detection unit does not detect the user through the setting unit, the viewing angle control unit controls the viewing angle of the display unit to a wide viewing angle. Angle control step.

  Accordingly, the viewing angle of the display unit can be controlled so as to display an image that looks good for the user in accordance with the user's shooting situation.

  The portable terminal according to the present invention includes a photographing unit, a display unit that displays an image that is being photographed by the photographing unit, and the display unit that is displaying the image that is being photographed by the photographing unit. A viewing angle control unit that controls the viewing angle of the display screen, the viewing angle of the display screen can be controlled in accordance with the user's shooting situation.

It is a block diagram which shows the principal part structure of the portable terminal which concerns on one Embodiment of this invention. It is explanatory drawing which shows the state in which the display part in the portable terminal which concerns on one Embodiment of this invention is set to the narrow viewing angle. It is explanatory drawing which shows the state in which the display part in the portable terminal which concerns on one Embodiment of this invention is set to the wide viewing angle. It is explanatory drawing which shows the state in which the display part in the portable terminal which concerns on one Embodiment of this invention is set to the viewing angle wider than the viewing angle shown in FIG. It is a graph which shows the (gamma) characteristic of each viewing angle mode. It is a graph which shows the (gamma) characteristic of each viewing angle mode. FIG. 7 is a diagram showing the display unit 2 in which different γ values (γA, γB) are assigned to adjacent pixels. FIG. 7A shows the γ characteristics in the m-th frame (m is a natural number) of the image signal. FIG. 7B shows the assignment of γ characteristics in the (m + 1) th frame of the image signal. It is a graph which shows (gamma) characteristic in (gamma) value ((gamma) A, (gamma) B) of wide viewing angle mode 1 and wide viewing angle mode 2. FIG. It is an external view which shows the structure of the portable terminal which concerns on one Embodiment of this invention. It is explanatory drawing which shows the use condition of the portable terminal which concerns on one Embodiment of this invention. It is explanatory drawing which shows the use condition of the portable terminal which concerns on one Embodiment of this invention. It is an external view which shows the structure of the portable terminal which concerns on another embodiment of this invention. (A)-(c) of FIG. 13 is explanatory drawing which shows the use condition of the portable terminal 1 shown in FIG. It is a flowchart which shows the flow of a process of viewing angle control in the portable terminal which concerns on one Embodiment of this invention. It is explanatory drawing which shows the use condition in the conventional portable terminal with a camera function, (a) of FIG. 15 shows the state when switched to a narrow viewing angle, and (b) of FIG. 15 switches to a wide viewing angle. The state when

  One embodiment of a portable terminal according to the present invention will be described below with reference to FIGS.

(Configuration of mobile terminal 1)
FIG. 1 is a block diagram showing a main configuration of a mobile terminal 1 according to an embodiment of the present invention. As shown in FIG. 1, the mobile terminal 1 includes a display unit 2, a setting unit 3, a photographing unit 4, an operation mode switching unit 5, a user detection unit (detection unit) 6, a viewing angle control unit 7, and a viewing angle setting input. Part 9 is provided.

  The portable terminal 1 is a portable terminal with a photographing function that photographs an image such as a moving image or a still image. Moreover, the portable terminal 1 controls the viewing angle of the display unit 2 displaying the image being shot. Specifically, if the user is in a state of viewing the display unit 2 from the front, the display unit 2 can be displayed so that the appearance of the front view is improved by narrowing the viewing angle. On the other hand, if the user is in a state of viewing the display unit 2, the display unit 2 can be displayed so as to improve the appearance of the perspective state by widening the viewing angle. As described above, the user can sufficiently check the image displayed on the display unit 2 even when the display unit 2 is not viewed from the front.

  The display unit 2 displays an image being shot by the shooting unit 4 and may function as a viewfinder when shooting using the mobile terminal 1. Further, the viewing angle of the display unit 2 is controlled by the viewing angle control unit 7. The display unit 2 is configured as a display panel 8 integrally with the viewing angle control unit 7, for example. Although it does not specifically limit as the display panel 8, For example, a liquid crystal display panel is included.

  Note that what is displayed on the display unit 2 is not limited to the image currently captured by the image capturing unit 4, for example, an image captured in the past stored in a storage memory (not shown) or in the mobile terminal 1. A selection screen (hereinafter also referred to as “menu screen”) for selecting various settings may be displayed. Further, the selection screen may be superimposed on the image photographed by the photographing unit 4 and simultaneously displayed.

  The setting unit 3 sets (transmits) the viewing angle control information of the display unit 2 to the viewing angle control unit 7. That is, the setting unit 3 receives user detection result information from the viewing angle detection unit 6 or user input information from the viewing angle setting input unit 9, and uses the received information as setting information for the viewing angle control unit 7 Send to. The viewing angle control unit 7 controls the viewing angle according to the transmitted setting information.

  As described above, the information input to the setting unit 3 can be automatically performed based on the information from the user detection unit 6 or can be manually performed by the user himself / herself. In addition, as the viewing angle setting information to be transmitted to the viewing angle control unit 7, the user can determine in advance which information of the viewing angle detection unit 6 or the viewing angle setting input unit 9 is prioritized. Therefore, when the priority is given to the information from the viewing angle setting input unit 9, for example, when the user takes a picture, the user himself / herself displays the display unit 2 so that the appearance of the display unit 2 can be improved from any position. The viewing angle of the part 2 can be set.

  Note that the transmission method from the setting unit 3 to the viewing angle control unit 7 is not particularly limited. For example, there is a transmission method by command setting from the setting unit 3 such as an interface such as SPI or I2C. There is also a method in which one of the input terminals to the viewing angle control unit 7 is provided with a setting terminal for setting the control of the viewing angle, and a “High” or “Low” signal is transmitted from the setting unit 3.

  The setting unit 3 can transmit the input setting information to the operation mode switching unit 5 when an operation mode switching setting is input by a user in a viewing angle setting input unit 9 described later.

  The imaging unit 4 captures an imaging target and includes, for example, a lens and an imaging device. That is, the imaging unit 4 transmits the captured image to the display unit 2. The display unit 2 displays the image transmitted from the imaging unit 4.

  In this specification, the state in which the photographing unit 4 is photographing means a state in which a video signal transmitted from the imaging element is displayed on the display unit 2, that is, a state in which photographing is possible. Therefore, the recorded image may be recorded by pressing a shutter or the like in the case of a still image, and may be recorded by pressing a recording start button or the like in the case of a moving image.

  The operation mode switching unit 5 switches the operation mode in the mobile terminal 1. Here, the operation mode is a mode in which the operation of the mobile terminal 1 is set, and the screen displayed on the display unit 2 is switched according to the operation mode.

  That is, the operation mode switching unit 5 switches the screen displayed on the display unit 2 to the shooting mode when shooting with the shooting unit 4, and switches the screen displayed on the display unit 2 to the display mode when checking the captured image. .

  Here, the shooting mode is a mode in which the display unit 2 displays an image being shot by the shooting unit 4. The display mode is a mode for causing the display unit 2 to display images captured by the imaging unit 4 in the past. The operation mode is not limited to this, and includes, for example, a selection mode in which the above-described menu screen is displayed on the display unit 2.

  The user detection unit 6 detects whether or not there is a user within a range where the display unit 2 is viewed from the front. That is, the user detection unit 6 determines the presence or absence of a user by using, for example, a sensor or the like depending on whether or not the sensor detects the user. Thereby, it is possible to determine in what state the user is viewing the display unit, that is, whether the user is in a front view state or a perspective state. The user detection unit 6 transmits information thus detected to the setting unit 3. Based on the information detected by the user detection unit 6, the setting unit 3 transmits setting information indicating which viewing angle mode is displayed to the viewing angle control unit 7.

  Examples of this sensor include an infrared sensor, a thermal sensor, an image sensor, and the like.

  The viewing angle control unit 7 controls the viewing angle of the display unit 2 on which the image being photographed by the photographing unit 4 is displayed. Thereby, it is possible to display an image that looks good for the user depending on the situation, regardless of whether the user is viewing the display unit 2 from the front or in a perspective view.

  For example, if the user is in a state where the display unit 2 is viewed from the front, display suitable for the front view can be performed by narrowing the viewing angle of the display unit 2. On the other hand, if the user is in a state of squinting the display unit 2, widening the viewing angle of the display unit 2 enables display suitable for strabismus. As a result, the user can see the image displayed on the display unit 2 even if the user is not in the range of viewing the display unit 2 from the front.

  Therefore, for example, when the user shoots by directly viewing the display unit 2, when shooting from behind the fence, or when the user moves the position to be shot while shooting, Even if the position of the user with respect to the display unit 2 changes according to the shooting situation, the viewing angle of the display unit 2 can be easily switched.

  The viewing angle control unit 7 is not particularly limited, but may be built in a source driver in the display panel 8.

  The viewing angle setting input unit 9 inputs a setting of what viewing angle the display unit 2 is set by the user. The setting unit 3 receives the input setting information and transmits it to the viewing angle control unit 7. The viewing angle control unit 7 controls the viewing angle according to the transmitted setting information. In this way, the user can make the setting for controlling the viewing angle.

  In addition, as a method for the user to input the setting to the viewing angle setting input unit 9, for example, a menu screen that can set the viewing angle is displayed on the display unit 2, and an operation key (not shown) provided on the mobile terminal 1 is displayed. Etc., and input so that the desired viewing angle is set. The input method is not limited to this, and for example, the mobile terminal 1 may be directly provided with a viewing angle changeover switch or a push button so that the viewing angle can be set only by pressing them.

(Viewing angle control in the portable terminal 1)
Next, viewing angle control in the mobile terminal 1 according to the present embodiment will be described below. FIG. 2 is an explanatory diagram showing a state in which the display unit 2 in the mobile terminal 1 according to the embodiment of the present invention is set to a narrow viewing angle.

  Although it does not specifically limit in the portable terminal 1 which concerns on this embodiment, As shown in FIG. 2, the display part 2 is set to the narrow viewing angle immediately after use start. In this case, when the user 11 is within the range of the viewing angle indicated by “A” in FIG. 2, that is, when the display unit 2 is viewed from the front, the display unit 2 is set to a narrow viewing angle. By doing so, the appearance of the image displayed on the display unit 2 is good.

  On the other hand, when the user 11 is outside the range of the viewing angle indicated by “A”, that is, in the perspective state, the viewing angle is controlled to widen the viewing angle range as shown in FIG. (A range indicated by “B” in FIG. 3). FIG. 3 is an explanatory diagram showing a state in which the display unit 2 in the mobile terminal 1 according to the embodiment of the present invention is set to a wide viewing angle. Thereby, even if the user 11 is in a state in which the display unit 2 is perspective, the appearance of the image displayed on the display unit 2 is good.

  It should be noted that the user 11 can quickly switch to a narrow viewing angle by ending the shooting mode after shooting at a wide viewing angle.

  Further, for example, when the user 11 is further outside the position shown in FIG. 3, the range of the viewing angle can be further expanded as shown in FIG. 4 by controlling the viewing angle (in FIG. 4). , “C” range). FIG. 4 is an explanatory diagram showing a state where the display unit 2 in the mobile terminal 1 according to the embodiment of the present invention is set to a wider viewing angle than the viewing angle shown in FIG.

  As described above, the mobile terminal 1 according to the present embodiment controls the viewing angle of the display unit 2 to various viewing angles according to the position of the user 11 instead of “narrow” or “wide”. be able to.

  Moreover, the following method is mentioned as a method in which the viewing angle control part 7 controls a viewing angle. Here, the case where the display unit 2 is a VA (vertical alignment) mode liquid crystal display panel will be described.

  For example, a liquid crystal display panel having a plurality of pixels arranged in a matrix is defined by a plurality of scanning lines and a plurality of data lines (signal lines) arranged orthogonal to each other on the liquid crystal display panel. ing. Each pixel is provided with a driving switching element (TFT or the like) and is driven for each pixel by these switching elements to display an image.

  In general, in the case of a VA mode liquid crystal display panel, when a user views the display unit 2 in a perspective state, the γ characteristic is floated and a whitish screen is obtained. Therefore, the viewing angle of the display unit 2 can be widened by suppressing the phenomenon that the γ characteristic is lifted.

  As a method for controlling the viewing angle, for example, there is a method of deepening the γ characteristics (gradation-luminance characteristics) to be displayed, that is, increasing the γ value. In this method, as shown in Table 1 below and FIG. 5, a narrow viewing angle mode (indicated by “A” in FIG. 5), a wide viewing angle mode 1 (indicated by “B” in FIG. 5), and a wide viewing angle. By setting the γ value higher as the viewing angle becomes wider with mode 2 (indicated by “C” in FIG. 5), even if the γ characteristic is lifted, the difficulty in viewing the screen can be reduced. FIG. 5 is a graph showing that the gamma characteristic of each viewing angle mode is different in the display unit 2, the horizontal axis indicates the gradation level, and the vertical axis indicates the luminance. In this specification, the wide viewing angle mode 2 is a mode in which the viewing angle is set wider than that of the wide viewing angle mode 1.

  FIG. 6 is a graph showing the γ characteristic in each viewing angle mode. In FIG. 6, γ = 2.2 is indicated by “A”, γ = 3.0 is indicated by “D”, γ = 3.4 is indicated by “B”, and γ = 5.4 is “C”. Show.

  As another viewing angle control method, for example, there is a method of displaying by assigning two γ characteristics to adjacent pixels. FIG. 7 is a diagram showing the display unit 2 in which different γ values (γA, γB) are assigned to adjacent pixels 10, and FIG. 7A is a γ characteristic in an mth frame (m is a natural number) of an image signal. FIG. 7B shows the assignment of γ characteristics in the (m + 1) th frame of the image signal.

  As shown in FIG. 7A, in this method, different γ values are assigned to adjacent pixels 10 in the display unit 2 having the number of pixels of x rows and y columns. Further, the γ value assigned to each pixel 10 is, for example, assigned to γA and γB in the (m + 1) th frame shown in (b) of FIG. 7 which is the frame subsequent to the mth frame shown in (a) of FIG. 7 (a) may be reversed. In this method, 120 Hz driving may be performed.

  The γ value (γA, γB) is obtained by setting the relative luminance in the narrow viewing angle mode at an arbitrary gradation n as Ln and the relative luminance on γA and γB as LnA and LnB. At this time, the viewing angle can be expanded by setting γA and γB such that Ln = (LnA + LnB) / 2 is established. FIG. 8 shows a graph of the γ characteristic in the γ values (γA, γB) in the wide viewing angle mode 1 and the wide viewing angle mode 2 in which the target relative luminance is thus obtained. FIG. 8 is a graph showing the γ characteristics in the γ values (γA, γB) of the wide viewing angle mode 1 and the wide viewing angle mode 2. In FIG. 8, the narrow viewing angle mode is indicated by “A” and the wide viewing angle. ΓA in mode 1 is indicated by “E”, γB in wide viewing angle mode 1 is indicated by “F”, γA in wide viewing angle mode 2 is indicated by “G”, and γB in wide viewing angle mode 2 is “H”. It shows with.

  Therefore, in this method, by avoiding as much as possible the halftone region that greatly contributes to the floating of the γ characteristic, it is possible to suppress the floating of the γ characteristic as a whole.

  The viewing angle control method is not limited to this, and for example, four types such as γA, γB, γC, and γD may be applied. In this case, a plurality of γ characteristics may be assigned to a plurality of pixels spatially or temporally so that the appearance looks the same as the narrow viewing angle. Thus, the viewing angle of the display unit 2 can be controlled by changing the drive pattern of the liquid crystal display panel.

  Accordingly, even when the front view is the best appearance at a narrow viewing angle, the contrast ratio characteristic or the color reproduction range of the display unit 2 in the perspective state is deteriorated by switching the viewing angle at the time of shooting. It is possible to prevent and display in a state that looks good for the user.

  As described above, the mobile terminal 1 according to the present embodiment controls the viewing angle of the display unit 2 when the display unit 2 displays the image being captured by the imaging unit 4. Therefore, the viewing angle of the display unit 2 can be controlled so as to display an image that looks good for the user in accordance with the user's shooting situation.

(Viewing angle control according to the user detection unit 6)
FIG. 9 is an external view showing a configuration of the mobile terminal 1 according to the present embodiment. As shown in FIG. 9, in this embodiment, the mobile terminal 1 is a digital camera, and a viewing angle setting input unit 9 including operation keys and the like is provided in a part of the casing other than the display unit 2.

  In the mobile terminal 1 shown in FIG. 9, the user detection unit 6 includes an infrared transmission unit 61 that transmits infrared rays and an infrared reception unit 62 that receives infrared rays. Therefore, the user detection unit 6 can determine whether or not the user is within a range in which the display unit 2 is viewed from the front, depending on whether or not the infrared reception unit 62 receives infrared rays. Specifically, this will be described with reference to FIGS. 10 and 11.

  FIG. 10 and FIG. 11 are explanatory diagrams showing the usage state of the mobile terminal 1 according to the embodiment of the present invention. For example, when the range in which the infrared transmission unit 61 transmits infrared rays is within the range in which the display unit 2 is viewed from the front, as shown in FIG. 10, if the user 11 is within the range, the infrared transmission unit 61 The transmitted infrared light is reflected by the user 11. Therefore, when the infrared receiving unit 62 receives the reflected infrared light, the user detection unit 6 determines that the user is within the range.

  On the other hand, as shown in FIG. 11, if the user 11 is not in the range where the display unit 2 is viewed from the front, the infrared light transmitted by the infrared transmission unit 61 is not reflected by the user and proceeds as it is. Therefore, if the infrared receiving unit 62 does not receive infrared rays, the user detection unit 6 determines that there is no user within the range.

  As described above, in the viewing angle control method according to the present embodiment, the display unit 2 displays the image being captured on the display unit 2, and the range in which the user detection unit 6 views the display unit 2 from the front. When the viewing angle control unit 7 receives a detection process for detecting the presence or absence of the user 11 and a signal indicating that the user detection unit 6 does not detect the user 11 through the setting unit 3, the viewing angle control is performed. The unit 7 includes a viewing angle control step of controlling the viewing angle of the display unit 2 to a wide viewing angle.

  Therefore, it can be determined whether or not the user is within a range in which the user views the display unit 2 from the front, depending on whether or not the user detection unit 6 receives infrared rays. Further, the viewing angle of the display unit 2 is automatically controlled according to the detection result.

  In addition, in the user detection part 6, the timing which the infrared transmission part 61 transmits infrared rays is not specifically limited, For example, when the portable terminal 1 switches to imaging | photography mode, during imaging | photography mode, or at the time of imaging | photography mode, For example, when the shutter is half-pressed. The user can also set the timing at which the infrared transmitter 61 transmits infrared rays.

(Stepwise viewing angle control according to user detector 6)
FIG. 12 is a diagram illustrating another example of the mobile terminal 1 according to the present embodiment. As shown in FIG. 12, the infrared receivers 62 may be provided on the left and right sides of the infrared transmitter 61. FIG. 13 shows stepwise viewing angle control in the portable terminal 1. (A)-(c) of FIG. 13 is explanatory drawing which shows the use condition of the portable terminal 1 shown in FIG.

  As shown in FIG. 13 (a), when the user 11 is located substantially in the center with respect to the portable terminal 1 and the display unit 2 is viewed from the front, the infrared rays 12 transmitted vertically from the infrared transmission unit 61 are used. Reflected by the person 11 and received by the infrared receiver 62. In this case, the display unit 2 is driven in the narrow viewing angle mode.

  Further, as shown in FIG. 13 (b), when the user 11 is positioned slightly obliquely with respect to the mobile terminal 1 as shown in FIG. 13 (a), transmission is performed from the infrared transmitter 61 as before. The infrared ray 12 is not reflected by the user 11. Therefore, this time, the infrared rays 12 are transmitted in a direction slightly inclined from the perpendicular line 14 from the portable terminal 1. At this time, when the infrared receiving unit 62 receives the reflected light 13 from the user 11, the display unit 2 is driven in the wide viewing angle mode 1 described above.

  Next, as shown in FIG. 13C, when the user 11 is located further obliquely than the mobile terminal 1 as shown in FIG. 13B, infrared transmission is performed as in the above two cases. The infrared ray 12 transmitted from the unit 61 is not reflected by the user 11. As described above, when the reflected light 13 reflected from the user 11 cannot be received even when the infrared ray 12 transmitted from the infrared transmission unit 61 is tilted, the display unit 2 is driven in the wide viewing angle mode 2 described above.

  The arrangement and number of the infrared transmitters 61 and the infrared receivers 62 are not limited to this.

(Operation of mobile terminal 1)
Next, the flow of processing of viewing angle control in the mobile terminal 1 according to the present embodiment will be described with reference to FIG. FIG. 14 is a flowchart showing a flow of processing for viewing angle control in the mobile terminal 1 according to the embodiment of the present invention.

  First, the user turns on the mobile terminal 1 (step S1). At this time, in the mobile terminal 1 according to the present embodiment, it is assumed that the screen in the initial state displayed on the display unit 2 is set to a moving image mode other than the shooting mode, such as a menu screen. Next, when the display unit 2 displays a menu screen and the user inputs a setting for switching the moving image mode to the shooting mode in the viewing angle setting input unit 9, the setting unit 3 receives the input setting information and switches the operation mode. Send to part 5. As a result, the operation mode switching unit 5 switches the operation mode to the shooting mode (step S2), and the mobile terminal 1 becomes ready for shooting. In the present embodiment, the viewing angle of the display unit 2 is set to a narrow viewing angle from when the portable terminal 1 is turned on to when the portable terminal 1 is switched to the shooting mode.

  Here, the viewing angle control unit 7 determines how to control the viewing angle depending on whether or not the user is viewing the display unit 2 from the front (step S3). That is, if the user is within the range in which the display unit 2 is viewed from the front, the display unit 2 already has a narrow viewing angle, and thus the image is taken as it is.

  On the other hand, when the user is not within the range in which the display unit 2 is viewed from the front, the viewing angle control unit 7 controls the viewing angle of the display unit 2 to a wide viewing angle (step S4). As described above, the viewing angle may be controlled manually by the user, or may be controlled by whether or not the user detection unit 6 detects the user. . Then, when the viewing angle becomes a wide viewing angle, shoot.

  Note that the mobile terminal 1 according to the present embodiment has a configuration in which both the viewing angle setting input unit 9 and the user detection unit 6 are provided as means for inputting instructions when the viewing angle control unit 7 controls the viewing angle. Although shown, it is not limited to this, What is necessary is just to provide either one.

  In addition, when both the viewing angle setting input unit 9 and the user detection unit 6 are provided, which instruction is given priority can be set in advance by the user, for example. Thereby, the viewing angle of the display screen can be controlled according to the use situation of the user.

  The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope shown in the claims, and embodiments obtained by appropriately combining technical means disclosed in different embodiments. Is also included in the technical scope of the present invention.

  The present invention can be applied to a portable terminal with a photographing function, and can be used for, for example, a digital camera and a cellular phone with a camera function.

DESCRIPTION OF SYMBOLS 1 Mobile terminal 2 Display part 3 Setting part 4 Image | photographing part 5 Operation mode switching part 6 User detection part 7 Viewing angle control part 8 Display panel 9 Viewing angle setting input part 61 Infrared transmission part 62 Infrared receiving part

Claims (8)

A shooting section;
A display unit for displaying an image being shot by the shooting unit;
A portable terminal comprising: a viewing angle control unit that controls a viewing angle of the display unit when the display unit displays an image being shot by the shooting unit.   The mobile terminal according to claim 1, further comprising a setting unit for transmitting viewing angle setting information to the viewing angle control unit. A viewing angle setting input unit for inputting setting information of the viewing angle by the user;
The mobile terminal according to claim 2, wherein the setting unit transmits the input setting information of the viewing angle to the viewing angle control unit. In the range where the display unit is viewed from the front, further comprising a detection unit for detecting the presence or absence of the user,
The viewing angle control unit controls the viewing angle to a narrow viewing angle when the detection unit detects the user, and sets the viewing angle when the detection unit does not detect the user. The mobile terminal according to claim 1, wherein the mobile terminal is controlled to have a wide viewing angle.   The portable terminal according to claim 4, wherein the detection unit detects presence or absence of the user by transmitting and receiving infrared rays.   The mobile terminal according to claim 1, wherein the display unit is a liquid crystal display panel.   The portable terminal according to claim 6, wherein the viewing angle control unit controls the viewing angle by changing a driving pattern of the liquid crystal display panel. An operation method of a mobile terminal including a display unit, a user detection unit, a setting unit, and a viewing angle control unit,
A display step in which the display unit displays an image being shot on the display unit;
In the range where the user detection unit is a front view of the display unit, a detection step of detecting the presence or absence of the user,
When the viewing angle control unit receives a signal indicating that the user detection unit does not detect the user through the setting unit, the viewing angle control unit controls the viewing angle of the display unit to a wide viewing angle. And a viewing angle control step.

Images