JP2014038200A - Display device, banking system device, and liquid crystal screen display method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable a liquid crystal screen of a display device to be viewed more easily.SOLUTION: A display device 100 including a liquid crystal display 103 comprises: a client image acquisition unit 501 that is disposed near the liquid crystal display 103 and photographs a face image of a client; a determination unit 602 that recognizes the face position of the client from the image data photographed by the client image acquisition unit 501 and calculates the angle of the eye line of the client relative to the liquid crystal display 103 on the basis of the face position of the client; a correction data table 610 that holds a correction value for correcting the display color of the pixel for every predetermined region of the liquid crystal display 103 in accordance with the angle; and a screen display control unit 605 that corrects the display color of the pixel for every predetermined region of the image data to be displayed in the liquid crystal display 103 on the basis of the correction value acquired from the correction data table 610 on the basis of the angle obtained by the determination unit 602.

Description

  The present invention relates to a display device including a liquid crystal screen, a financial system device including the display device, and a liquid crystal screen display method.

2. Description of the Related Art In recent years, automatic transaction apparatuses such as automatic teller machines have become widespread in financial systems represented by banks, and it has become possible to conduct transactions only with automatic transaction apparatuses for simple financial transactions. . In addition, for customers who are unfamiliar with automatic transaction devices such as complicated financial transactions and the elderly, transactions are made through an operator who operates a window terminal at the window of a financial institution. Such automatic transaction apparatuses and window terminals have a display device with a liquid crystal screen in order to perform operations, input information, browse documents, and the like.
Some conventional display devices correct and display an image based on display correction data in order to reduce color unevenness and color shift from the same viewpoint (for example, see Patent Document 1).

JP 2005-338148 A

However, in the conventional technology, the position and angle of the liquid crystal screen of the automatic transaction apparatus and the window terminal are fixed, and may be out of the viewing angle of the liquid crystal screen depending on the height and standing position of the customer. Even if it is within the range of the corners, if it moves away from the front line of sight on the liquid crystal screen, the brightness and color tone may change, which makes it difficult to see the liquid crystal screen.
An object of the present invention is to solve such a problem and to make it easy to see a liquid crystal screen of a display device.

  Therefore, the present invention provides a display device having a liquid crystal screen, a customer image acquisition unit that is arranged in the vicinity of the liquid crystal screen and captures a customer's face image, and image data captured by the customer image acquisition unit. And an analysis unit for deriving an angle of the customer's line of sight with respect to the liquid crystal screen from the customer's face position, and correcting a display color of a pixel for each predetermined region of the liquid crystal screen in accordance with the angle A correction data holding unit for holding a correction value to be processed, and a pixel for each predetermined region of image data displayed on the liquid crystal screen based on the correction value acquired from the correction data holding unit based on the angle derived by the analysis unit And a screen display control unit for correcting the display color.

  The effect of the present invention as described above is that the liquid crystal screen of the display device can be easily viewed.

The block diagram which shows the structure of the display apparatus in an Example Explanatory drawing which shows the structure of the display apparatus in an Example. The flowchart which shows the flow of the display process in an Example Explanatory drawing which shows the angle of the eyes in an Example, and the distance of a liquid crystal display and a customer's eyes Explanatory drawing of the correction data table in an Example Explanatory drawing of the liquid crystal display after correction in the embodiment Explanatory drawing of the correction data table classified by age in an Example Illustration of liquid crystal display contents in the embodiment Illustration of liquid crystal display contents in the embodiment Explanatory drawing of the correction data table in an Example

  Hereinafter, embodiments of a display device, a financial system device, and a liquid crystal screen display method according to the present invention will be described with reference to the drawings.

FIG. 2 is an explanatory diagram illustrating the configuration of the display device according to the embodiment.
In FIG. 2, a display device 100 having a liquid crystal screen includes a control computer 101, a camera 102, and a liquid crystal display 103. The control computer 101 and the camera 102 are communicably connected via an image transfer cable 104. The control computer 101 and the liquid crystal display 103 are communicably connected via an image display cable 105.
The display device 100 is provided in a financial system device such as an automatic transaction device such as an automatic teller machine or a window terminal of a financial institution.

The control computer 101 is a general-purpose computer such as a personal computer, and is equipped with a screen display program (software).
The camera 102 includes a CCD (Charge Coupled Device) camera or the like, and takes a still image or a moving image. In the present embodiment, the camera 102 is fixedly arranged near the liquid crystal display 103 toward the customer and takes a picture of the customer's face. Accordingly, it is possible to detect the angle of the line of sight with respect to the customer's liquid crystal display 103 and the distance between the customer's eyes and the liquid crystal display 103 from the customer's face image taken by the camera 102.

A liquid crystal display 103 as a liquid crystal screen is a general-purpose display having a function of displaying an image, and displays an image in accordance with an instruction from the control computer 101.
The image transfer cable 104 is a communication cable that conforms to a standard such as USB (Universal Serial Bus), and connects the camera 102 and the control computer 101 so that they can communicate with each other. Therefore, the control computer 101 can receive image data captured by the camera 102 via the image transfer cable 104.

  The image display cable 105 is a communication cable that complies with standards such as VGA and DVI, and connects the control computer 101 and the liquid crystal display 103 so that they can communicate with each other. Therefore, the control computer 101 can transmit image data captured by the camera 102 to the liquid crystal display 103 via the image display cable 105.

FIG. 1 is a block diagram illustrating a configuration of a display device according to an embodiment.
In FIG. 1, the camera 102 includes a customer image acquisition unit 501 and a customer image transmission unit 502. In this embodiment, the camera 102 is arranged in the vicinity of the liquid crystal display 103 of the financial system apparatus, and takes a face image of a customer who makes a financial transaction using the financial system apparatus.
The customer image acquisition unit 501 captures a customer's face image and acquires it as digitized image data.

The customer image transmission unit 502 transmits the customer face image data acquired by the customer image acquisition unit 501 to the control computer 101.
The camera 102 configured as described above includes a control unit such as a CPU (Central Processing Unit) and a storage unit such as a memory, and the control unit performs the entire operation based on a control program (software) stored in the storage unit. Be controlled.
The control computer 101 includes a customer image reception unit 601, a determination unit 602, a face position recognition unit 603, an age recognition unit 604, a screen display control unit 605, and a screen information transmission unit 606.
The customer image receiving unit 601 receives customer face image data transmitted from the camera 102.

  The determination unit 602 as an analysis unit sends the customer face image data received by the customer image reception unit 601 to the face position recognition unit 603, and causes the face position recognition unit 603 to detect the position of the customer's face in the image data. The angle of the customer's eyes (line of sight) with respect to the liquid crystal display 103 and the distance between the customer's eyes and the liquid crystal display 103 are detected from the detected position of the customer's face. At this time, the angle of the customer's eyes is calculated for each pixel of the liquid crystal display 103 as necessary. Note that the processing performed by the determination unit 602 to detect the angle of the customer's eyes (line of sight) with respect to the liquid crystal display 103 and the distance between the customer's eyes and the liquid crystal display 103 from the position of the customer's face is known in advance. The relative relationship between the liquid crystal display 103 and the customer's eyes based on the information on the three-dimensional arrangement of the center of each pixel 103 or each pixel, the arrangement angle, the screen size, and the detected three-dimensional arrangement of the customer's face (eyes). It is assumed that a known technique is used by grasping the positional relationship. The position of the customer's eyes may be in the middle of the left and right eyes, either in accordance with either the left or right eye.

Here, the angle of the customer's eyes (line of sight) with respect to the liquid crystal display 103 and the distance between the customer's eyes and the liquid crystal display 103 will be described.
4A and 4B are explanatory views showing the angle of the line of sight and the distance between the liquid crystal display and the customer's eyes in the embodiment. FIG. 4A is a view of the liquid crystal display 103 viewed from the side, and FIG. It is the figure which looked at from the front.
In FIG. 4, one direction (longitudinal direction of the liquid crystal display 103 in the figure) of the display surface 103a of the liquid crystal display 103 shown in FIG. 4B is the X direction, and the other direction (short side of the liquid crystal display 103 in the figure). Direction) is defined as the Y direction, and the direction perpendicular to the X direction and the Y direction (display surface 103a) is defined as the Z direction.

  As shown in FIG. 4A, the distances between the center 42 of the display surface 103a of the liquid crystal display 103 and the customer's eyes 41a to 41e are distances La to Le. When the angle between the axis 43 passing through the center 42 and orthogonal to the display surface 103a and the eyes 44a to 44e of the eyes 41a to 41e in the Y-axis direction is a vertical angle, the vertical angle of the eye 44a is (−α2). The vertical angle of 44b is (−α1), the vertical angle of the eye line 44c is (0), the vertical angle of the eye line 44d is (α1), and the vertical angle of the eye line 44e is (α2).

As shown in FIG. 4B, the distances between the center 42 of the display surface 103a of the liquid crystal display 103 and the customer's eyes 51a to 51e are distances La to Le. If the angle between the axis 53 passing through the center 42 and orthogonal to the display surface 103a and the eyes 54a to 54e of the eyes 51a to 51e in the X-axis direction is a horizontal angle, the horizontal angle of the eye 54a is (−β2). The horizontal angle of 54b is (−β1), the horizontal angle of the eye line 54c is (0), the horizontal angle of the eye line 54d is (β1), and the horizontal angle of the eye line 54e is (β2).
Thus, the determination unit 602 detects the distance between the customer's eyes and the liquid crystal display 103 from the vertical and horizontal angles as the angle of the customer's line of sight (line of sight) with respect to the liquid crystal display 103 and the position of the customer's face.

Returning to the description of FIG. 1, the determination unit 602 sends the image data of the customer's face received by the customer image reception unit 601 to the age recognition unit 604 and causes the age recognition unit 604 to derive the age of the customer.
In this way, the determination unit 602 recognizes the customer's face position from the image data captured by the customer image acquisition unit 501 of the camera 102, and determines the angle of the customer's line of sight with respect to the liquid crystal display 103 from the customer's face position. The distance between the customer's eyes and the liquid crystal display 103 is derived from the face position. Further, the age of the customer is acquired from the age recognition unit 604.
The face position recognition unit 603 analyzes the customer face image data sent from the determination unit 602, extracts the customer face in the image data, and detects the position of the customer face in the image data.

An age recognizing unit 604 serving as an age acquiring unit analyzes the image data of the customer's face sent from the determining unit 602, and estimates and derives the customer's age. Note that the process of estimating the age of the customer performed by the age recognition unit 604 is performed by a known technique.
In this embodiment, the age acquisition unit that acquires the customer's age is described as an age recognition unit 604 that analyzes the image data of the customer's face, estimates the customer's age, and derives the customer's age. The customer identification information may be read from a storage medium such as a card, and the customer age may be acquired from a customer database (not shown) in which the customer age (or date of birth) is stored in association with the customer identification information. .

The screen display control unit 605 instructs a vertical angle and a horizontal angle, which are angles of the customer's line of sight with respect to the liquid crystal display 103 detected by the face position recognition unit 603, and between the customer's eyes and the liquid crystal display 103 according to an instruction from the determination unit 602. Based on the distance, the display color of the pixel is corrected for each predetermined area of the image data on the screen displayed on the liquid crystal display 103 with reference to the correction data table 610 stored in advance in the storage unit.
Further, the screen display control unit 605 displays the display color of the image data corrected based on the vertical and horizontal angles, which are the angles of the customer's eyes with respect to the liquid crystal display 103, and the distance between the customer's eyes and the liquid crystal display 103. The correction is made with reference to the correction data table 610 stored in advance in the storage unit based on the customer age derived by the age recognition unit 604.

Here, the correction data table 610 will be described.
The correction data table 610 as the correction data holding unit corresponds to the vertical angle and the horizontal angle that are the angles of the customer's eyes with respect to the liquid crystal display 103, and corresponds to the distance between the customer's eyes and the liquid crystal display 103. A correction value for correcting the display color of the pixels for each predetermined area is held, and further, a correction value for correcting the display colors of the pixels in the entire area of the liquid crystal display 103 corresponding to the age of the customer is held. is there.

In this embodiment, the correction data table 611 shown in FIG. 5 or the correction data table 613 shown in FIG. 10 and the age-specific correction data table 612 shown in FIG. 7 are used.
First, the correction data table 611 that holds correction values according to the vertical and horizontal angles, which are the angles of the customer's eyes with respect to the liquid crystal display 103, and the distance between the customer's eyes and the liquid crystal display 103 will be described.

As shown in FIG. 5, the correction data table 611 includes, for example, a vertical angle (vertical angle α shown in FIG. 4) and a horizontal angle (horizontal angle β shown in FIG. 4) that are angles of the customer's eyes with respect to the liquid crystal display 103. The brightness correction value of RGB (Red, Green, Blue) for each pixel is held every 10 degrees in the range of −90 degrees to 90 degrees. The correction data table 611 holds correction data tables 611a to 611j according to the distance L between the customer's eyes and the liquid crystal display 103 (in this embodiment, every 10 cm within a range of distance L = 10 to 100 cm). ing.
The correction value is a ratio (%) of increasing / decreasing the luminance of the pixel, and is expressed by a value from −127 to +127, for example, minus decreases the luminance, and positive increases the luminance.

FIG. 6 is an explanatory diagram of a liquid crystal display display after correction in the embodiment, and shows an example of a display screen of image data corrected by the correction data table 611 shown in FIG.
FIG. 6A shows a screen displaying corrected image data when the vertical angle α is −10 degrees, the horizontal angle β is 0 degrees, and the distance L is 50 cm, and the vertical angle α is −10 degrees. For this reason, the brightness of the pixels in the lower and lateral end regions of the liquid crystal display 103 is increased and displayed.
FIG. 6B shows a screen displaying the corrected image data when the vertical angle α is 0 degree, the horizontal angle β is 0 degree, and the distance L is 50 cm, and the vertical angle α and the horizontal angle β are 0. Therefore, the brightness of the pixels in the upper and lower portions of the liquid crystal display 103 in the drawing and the end portions in the horizontal direction is increased and displayed.

FIG. 6C shows a screen displaying the corrected image data when the vertical angle α is +10 degrees, the horizontal angle β is 0 degrees, and the distance L is 50 cm, and the vertical angle α is +10 degrees. The brightness of the pixels in the upper and lateral end regions of the liquid crystal display 103 is increased and displayed.
FIG. 6D shows a screen displaying corrected image data when the vertical angle α is −10 degrees, the horizontal angle β is 0 degrees, and the distance L is 100 cm, and the distance L is 100 cm. The luminance of the pixels in the entire area of the liquid crystal display 103 in the figure is increased and displayed as compared with FIG.

  In this embodiment, the correction data table 611 is provided for each pixel of all the pixels of the liquid crystal display 103, but for each rectangular area for each predetermined area (for example, 9 pixels or 25 pixels) of the liquid crystal display 103. A correction data table 610 may be provided. Furthermore, when the difference between the correction values in the correction data table is small, one correction value may be given to the entire area of the liquid crystal display 103.

Next, a correction data table 613 that holds correction values according to the vertical angle and horizontal angle that are the angles of the customer's eyes with respect to the liquid crystal display 103 shown in FIG. 10 will be described. This is because when the correction data table is provided for every pixel of the liquid crystal display 103, it is not necessary to perform correction based on the distance between the customer's eyes and the liquid crystal display 103, and the correction processing is speeded up. Therefore, the correction is performed only by the angle of the line of sight.
As shown in FIG. 10, the correction data table 613 includes, for example, a vertical angle (vertical angle α shown in FIG. 4) and a horizontal angle (horizontal angle β shown in FIG. 4) that are angles of the customer's eyes with respect to the liquid crystal display 103. The brightness correction value of RGB (Red, Green, Blue) for each pixel is held every 10 degrees in the range of −90 degrees to 90 degrees.

Although the correction data table 613 uses only the angle of the line of sight with respect to the pixel as a parameter, the color change characteristics with respect to the angle of the line of sight of each pixel of the liquid crystal display 103 are generally considered to be the same for all the pixels. Therefore, it is not necessary to prepare the correction data table 613 for all the pixels of the liquid crystal display 103, and only one correction data table 613 needs to be held, and the use efficiency of the storage area can be improved.
The correction value is a ratio (%) of increasing / decreasing the luminance of the pixel, and is expressed by a value from −127 to +127, for example, minus decreases the luminance, and positive increases the luminance.

  Next, the age-specific correction data table 612 shown in FIG. 7 will be described. The age-specific correction data table 612 shown in FIG. 7 is a correction value that is referred to when the screen display control unit 605 corrects image data based on the customer's age. The brightness of the image data is corrected based on the correction value acquired from the age-specific correction data table 612 according to the age.

As shown in FIG. 7, the correction value of the age-specific correction data table 612 is, for example, −10% when the customer age is 30 years old or less (class A), and 0 when the customer age is 31 years old or older (class B). %, 51 to 70 years old (Category C) is + 10%, and 71 years or older (Class D) is + 20%. The correction value is a ratio (%) of increasing / decreasing the luminance of the pixel, and is expressed by a value from −127 to +127, for example, minus decreases the luminance, and positive increases the luminance.
In this embodiment, the correction value increases the luminance as the customer's age increases, and the correction value decreases the luminance as the customer's age decreases. This is because a high-contrast image is relatively easy to feel eye fatigue for a young customer, and conversely, a low-contrast image is difficult to view for an elderly customer.

Returning to the description of FIG. 1, the screen information transmission unit 606 transmits the image data corrected by the screen display control unit 605 to the liquid crystal display 103 and causes the liquid crystal display 103 to display the image data.
The control computer 101 configured as described above includes a control unit such as a CPU and a storage unit such as a memory, and the overall operation is controlled by the control unit based on a control program (software) stored in the storage unit. .

The operation of the above configuration will be described.
The display process performed by the display device will be described with reference to FIG. 1 according to the step represented by S in the flowchart showing the flow of the display process in the embodiment of FIG. In the present embodiment, a case will be described in which transaction information is displayed to the customer using the liquid crystal display 103 of the display device 100 of the window terminal in the low counter service of the window of the financial institution. Further, it is assumed that the liquid crystal display 103 is disposed in a standing position on the low counter.

S1: When displaying a screen on the liquid crystal display 103 of the display device 100, first, the customer image acquisition unit 501 of the camera 102 captures a customer's face image to acquire customer's face image data, and a customer image transmission unit 502. Transmits the customer face image data acquired by the customer image acquisition unit 501 to the control computer 101.
S2: The customer image reception unit 601 of the control computer 101 receives the customer face image data transmitted from the camera 102 and sends it to the determination unit 602. The determination unit 602 notifies the face position recognition unit 603 of an instruction to detect the position of the customer's face in the image data based on the customer's face image data. Upon receiving the instruction, the face position recognition unit 603 analyzes the customer face image data sent from the determination unit 602, extracts the customer face in the image data, and detects the position of the customer face in the image data. .

  S3: The determination unit 602 detects the angle of the customer's eyes (line of sight) with respect to the liquid crystal display 103 and the distance between the customer's eyes and the liquid crystal display 103 from the position of the customer's face detected by the face position recognition unit 603. Here, the angle of the customer's eyes (line of sight) with respect to the liquid crystal display 103 is the vertical angle α and the horizontal angle β shown in FIG. 4, and the distance between the customer's eyes and the liquid crystal display 103 is the distance L shown in FIG. is there.

S4: The determination unit 602 notifies the age recognition unit 604 of an instruction for deriving the age of the customer in the image data based on the customer's face image data. Upon receiving the instruction, the age recognition unit 604 analyzes the customer's face image data and derives the customer's age.
S5: The screen display control unit 605 instructs the vertical and horizontal angles, which are the angle of the customer's line of sight with respect to the liquid crystal display 103 detected by the face position recognition unit 603, and the customer's eyes and the liquid crystal display 103 according to the instruction of the determination unit 602. The correction value is acquired with reference to the correction data table 610 stored in advance in the storage unit on the basis of the distance.

  Here, when the screen display control unit 605 acquires the correction value based on the vertical angle and the horizontal angle, which are the angles of the customer's eyes with respect to the liquid crystal display 103, and the distance between the customer's eyes and the liquid crystal display 103, FIG. When the correction value is acquired from the correction data table 611 shown in FIG. 10 and the correction value is acquired based on the vertical angle and the horizontal angle that are the angles of the customer's eyes with respect to the liquid crystal display 103, the correction value is acquired from the correction data table 613 shown in FIG. To get. When the correction data table 613 is used, the angle with the customer's line of sight is obtained for each pixel.

Further, the screen display control unit 605 obtains a correction value by referring to the correction data table 610 based on the customer's age derived by the age recognition unit 604. At this time, the screen display control unit 605 acquires a correction value from the age-specific correction data table 612 shown in FIG.
S6: The screen display control unit 605 displays the liquid crystal based on the correction value acquired from the correction data table 610 (the correction data table 611 shown in FIG. 5 or the correction data table 613 shown in FIG. 10) based on the angle of the customer's eyes. The image data of the screen displayed on the display 103 is corrected.

Further, the screen display control unit 605 corrects the corrected image data based on the correction value acquired from the correction data table 610 (the age-specific correction data table 612 shown in FIG. 7) based on the customer's age.
The screen information transmission unit 606 transmits the image data corrected by the screen display control unit 605 to the liquid crystal display 103.
S7: The liquid crystal display 103 displays a screen based on the image data received from the control computer 101, and the process proceeds to S1.

8 and 9 are explanatory diagrams of the contents displayed on the liquid crystal display in the embodiment.
FIG. 8 shows that the position of the customer's eyes is 41d shown in FIG. 4A and 51c shown in FIG. 4B, that is, the vertical angle is α1 degree and the horizontal angle is 0 degree, and the customer's age is It is the transaction screen displayed on the liquid crystal display 103 when 71 years old or older. In this screen, the brightness of the pixels in the upper and lateral edge regions in the figure, which are large from the customer's eyes, is increased, and the lower and horizontal central regions in the figure, where the distance from the customer's eyes is small. The brightness of the pixel is lowered. Further, since the customer's age is 71 years or older, the luminance of the pixels in the entire area of the screen is increased compared to FIG.

  FIG. 9 shows that the customer's eye position is 41b shown in FIG. 4 (a) and 51c shown in FIG. 4 (b), that is, the vertical angle is -α1 degree and the horizontal angle is 0 degree, and the customer's age This is a transaction screen displayed on the liquid crystal display 103 when is 30 years old or younger. In this screen, the brightness of the pixels in the lower and lateral edge areas in the figure with a large distance from the customer's eyes is increased, and the upper and horizontal areas in the figure with a small distance from the customer's eyes. The brightness of the pixel is lowered. Further, since the customer's age is 30 years old or less, the luminance of the pixels in the entire area of the screen is lowered as compared with FIG.

  As described above, the screen display control unit 605 is based on the vertical and horizontal angles, which are the angles of the customer's eyes with respect to the liquid crystal display 103 detected by the face position recognition unit 603, and the distance between the customer's eyes and the liquid crystal display 103. By correcting the image data on the screen displayed on the liquid crystal display 103 with reference to the correction data table 610 stored in advance in the storage unit, it is possible to generate image data that matches the position of the customer's eyes. The screen displayed on the liquid crystal display 103 by the display device 100 can be easily viewed without changing the position of the liquid crystal display 103 in accordance with the position of the customer's eyes.

In addition, since the screen display control unit 605 corrects the image data based on the correction value acquired from the age-specific correction data table shown in FIG. It is possible to display a screen with reduced brightness to alleviate fatigue and to display a screen with increased brightness so that it can be easily seen by elderly customers.
Further, by correcting the image data based on the vertical and horizontal angles, which are the angle of the customer's eyes with respect to the liquid crystal display 103, the distance between the customer's eyes and the liquid crystal display 103, and the age of the customer, the liquid crystal display The screen displayed on the screen 103 can be a screen that is difficult for other customers to distinguish, and leakage of personal information can be prevented.

As described above, in this embodiment, the image data of the screen to be displayed on the liquid crystal screen is based on the vertical and horizontal angles, which are the angles of the customer's eyes with respect to the liquid crystal screen, and the distance between the customer's eyes and the liquid crystal screen. By performing the correction, it is possible to generate image data that matches the position of the customer's eyes and to obtain an effect that the screen displayed on the liquid crystal screen of the display device can be easily viewed.
In addition, by correcting the image data according to the customer's age, a screen with reduced brightness to relieve eye fatigue is displayed for younger customers, making it easier for older customers to see The effect that a screen with increased brightness can be displayed is obtained.
Further, the liquid crystal screen can be made a screen that is difficult for other customers to distinguish, and the effect of preventing leakage of personal information and the like can be obtained.

In this embodiment, the case where the liquid crystal display is standing at the financial institution's window has been described. However, the present invention is not limited to this, and the liquid crystal display is embedded in a counter and is disposed substantially horizontally. Alternatively, it may be fixed to the automatic transaction apparatus at a predetermined angle.
In this embodiment, the image data is corrected by the control computer. However, the present invention is not limited to this, and the image data may be corrected by a server or the like connected to the communication line. You may make it cooperate with another system via a server.

DESCRIPTION OF SYMBOLS 100 Display apparatus 101 Control computer 102 Camera 103 Liquid crystal display 104 Image transfer cable 105 Image display cable 501 Customer image acquisition part 502 Customer image transmission part 601 Customer image reception part 602 Judgment part 603 Face position recognition part 604 Age recognition part 605 Screen Display control unit 606 Screen information transmission unit 610 Correction data table

Claims (6)

In a display device with a liquid crystal screen,
A customer image acquisition unit that is arranged in the vicinity of the liquid crystal screen and shoots a customer's face image;
Recognizing the customer's face position from the image data taken by the customer image acquisition unit, and deriving an angle of the customer's line of sight with respect to the liquid crystal screen from the customer's face position;
A correction data holding unit for holding a correction value for correcting the display color of the pixel for each predetermined area of the liquid crystal screen in correspondence with the angle;
A screen display control unit that corrects a display color of a pixel for each predetermined region of image data displayed on the liquid crystal screen based on a correction value acquired from the correction data holding unit based on the angle derived by the analysis unit; A display device comprising: The display device according to claim 1,
The analysis unit further derives a distance between the customer's eyes and the liquid crystal screen from the customer's face position,
The correction data holding unit further holds a correction value for correcting a display color of a pixel for each predetermined area of the liquid crystal screen in correspondence with the distance,
The screen display control unit further sets a pixel display color for each predetermined region of the image data displayed on the liquid crystal screen based on the correction value acquired from the correction data holding unit based on the distance derived by the analysis unit. A display device characterized by correcting. The display device according to claim 1 or 2,
An age acquisition unit for acquiring the age of the customer;
The correction data holding unit further holds a correction value for correcting display colors of pixels in the entire area of the liquid crystal screen in correspondence with the age,
The screen display control unit further displays a pixel for each predetermined region of image data displayed on the liquid crystal screen based on a correction value acquired from the correction data holding unit based on the age acquired by the age acquisition unit. A display device that corrects a color. The display device according to claim 3,
The display device according to claim 1, wherein the age acquisition unit is an age recognition unit that derives a customer's age from image data captured by the customer image acquisition unit. In a financial system apparatus having a display device with a liquid crystal screen,
A customer image acquisition unit that is arranged in the vicinity of the liquid crystal screen and shoots a customer's face image;
Recognizing the customer's face position from the image data taken by the customer image acquisition unit, and deriving an angle of the customer's line of sight with respect to the liquid crystal screen from the customer's face position;
A correction data holding unit for holding a correction value for correcting the display color of the pixel for each predetermined area of the liquid crystal screen in correspondence with the angle;
A screen display control unit that corrects a display color of a pixel for each predetermined region of image data displayed on the liquid crystal screen based on a correction value acquired from the correction data holding unit based on the angle derived by the analysis unit; A financial system device comprising a display device provided. In a liquid crystal screen display method for displaying a screen on a display device having a liquid crystal screen,
Photographing a customer's face image at a customer image acquisition unit disposed in the vicinity of the liquid crystal screen;
Recognizing the customer's face position from image data taken by the customer image acquisition unit, and deriving an angle of the customer's line of sight with respect to the liquid crystal screen from the customer's face position; and
Acquired from the correction data holding unit that holds a correction value for correcting a display color of a pixel for each predetermined region of the liquid crystal screen in correspondence with the angle based on the angle derived by the analysis unit. And a method of correcting a display color of a pixel for each predetermined region of image data displayed on the liquid crystal screen based on the corrected value.