KR100990000B1 - Method and apparatus for supplying color overlay reducing visual stress - Google Patents

Abstract

The present invention helps to improve dyslexia, migraines and various optically related symptoms by placing a colored transparent overlay on a document to be read or viewed on a computer or device with a computing unit and display unit or by selecting a color for the display window. A method and apparatus for providing a color overlay for giving, wherein each value of a colorimetric parameter applied to a color overlay that can be provided for operating a visual environment suitable for a user in a computer or equivalent device is obtained during a test procedure. The present invention provides a method and apparatus for providing a color overlay, which is provided in connection with a biosignal analysis and an associated index of a patient and mitigates visual stress by changing the colorimetric parameters to estimate an optimal value.

Virtual color overlay, visual aids, vital signs, dyslexia, migraine, visual stress, colorimetric parameters

Description

METHOD AND APPARATUS FOR SUPPLYING COLOR OVERLAY REDUCING VISUAL STRESS}

1 is a simplified diagram of a computing system in which visual aids operate in accordance with the present invention;

2 is a control flow diagram illustrating an inspection process performed by the visual aiding means according to the present invention for color selection of an overlay;

3 is a signal processing diagram for performing a transition between an overlay and an adjacent window according to the present invention;

4 is a block diagram of a visual aid means according to the present invention;

5 is a graph showing the relationship between the use of the overlay and the EEG according to the present invention,

6 is a waveform diagram of observation of abnormal eye movements of both eyes detected in the inspection process of FIG. 2;

7 is a basic pattern inducing visual stress used in the inspection process of FIG.

The present invention relates to a visual aid used in an optical recognition task including reading and a test method for selecting a color applicable to the visual aid, in particular, the present invention relates to dyslexia, migraine, symptoms related to visual stress and A visual aid means for relieving visual stress that may help reduce the effects of an optical disorder and a method of inspection for selecting the color of the visual aid means.

'Visual aids' are computer programs that provide effects of reducing dyslexia, migraine headaches, symptoms associated with visual stress and optical disturbances by using colorimetric parameters specific to the background color of the visual display screen, storage media recording such computer programs and It includes an execution result implemented on the visual display screen according to the execution of the computer program, hereinafter refers to a device for providing a color overlay and a device for performing a color overlay providing method.
As a related art related to visual aid, US Patent No. 4,961,640 (Irlen, registered on Oct. 9, 1990, hereinafter referred to as “Document 1”), which intends to provide sunglasses (specially colored lenses) which the user always uses, and color overlay Alternatively, U.S. Patent No. 6,729,729 (Irons, 2004.05.04, hereinafter referred to as "Document 2"), which intends to provide a background color changing tool and a line selection test tool for a video display device, has been proposed. In the system of document 1, the sunglasses element is selected depending on the data obtained by a purely intuitive method based on the patient's own interpretation of the selected threshold. Case 1 refers to a woman who is 21 years old and details the injury. The eye was diagnosed with the IVPS test attached to Appendix 1, with a 62% positive response. Document 1 does not include Annex 1 and nothing has been published in connection with this test. Nevertheless, it has been shown that this test is a pure diagnostic test related to the diagnosis of cognitive impairment mentioned above.
In Patent No. 2, the test is mainly conducted by reading speed measurement. However, since the tester must hear and judge the word of the test participant in the reading test, there is a possibility of misjudgment when the pronunciation is unclear. In addition, when conducting a test for a large number of words, the presenter listens to the reader to read the judgment. Therefore, one tester is required for each tester. It will interfere with the decision. In addition, the visual stress of the patient depends on the duration of the reading task and the complexity of the pattern of the reading object.If the test is ignored at these factors, it may not be possible to make an accurate judgment at first because it does not affect the reading speed at all. Occurs. Rather, this factor is evident when analyzing the subjective response of Document 1.
Document 2 has no test content that reflects these factors, and since the accuracy of word reading by test subjects is determined mainly by reading tests and listening of the test operator's pronunciation, the test proceeds in the same place for multiple test subjects. This is almost impossible. Unstable eye movements in patients with dyslexia with visual impairment are a symptom found in several clinical studies prior to the publication of Document 2.
Therefore, it is desirable to convert the subjective response of the patient into general colorimetric parameters to quantitatively determine it and to implement the visual aid universally according to the structured test processor. .

It is therefore an object of the present invention to provide a method for color selection of an improved visual aid device.
Another object of the present invention is to provide a method for quantitatively determining a color parameter (three-dimensional color space) by monitoring a patient's biosignal response on a numerical basis according to a systematic test procedure and recording test data. To provide.
Still another object of the present invention is to provide a method for interpreting recorded test data to an optimal value of a colorimetric parameter and determining an optimal value of a parameter for a patient.
It is also an object of the present invention to provide a method for indirectly detecting and quantifying an increase time of a target tracking time indicative of the effects of an unstable eye movement without directly monitoring the eye movement.
In addition, the object of the present invention is that the computer automatically analyzes the bio signals measured in association with the test procedure during the period, and does not rely on humans for the evaluation of the visual impairment test, such as the reading speed test, the eye movement test directly The present invention provides a method for computing and interpreting the obtained test data, such as measuring the reaction time of the human body associated with eye movements.
It is also an object of the present invention to provide a method that can be objectively and numerically performed by a computer without relying on its own evaluation and intuitive approach to quantitative interpretation of test results.
In addition, an object of the present invention is to measure the reading speed in terms of words per hour, and to directly measure or related biomarkers such as EEG, tension, and indirect index of eye movement, and to measure related indirect indicators. Numerical data can be obtained and automatically analyzed during or during standardized protocols, providing a way to use these values as quantitative gain values obtained from visual aids during the trial.
In addition, the object of the present invention is to select a specific value in the three-dimensional color space by means of analysis and interpretation of numerical or other quantitative data, rather than selecting one of the test elements that results better than the other, The present invention provides a method for selecting a value corresponding to an optimal result.

The present invention provides a novel approach to color transparent visual aid and selection for the purposes of the present invention described above.
The present invention provides a method for the color selection, manufacture and use of visual aid devices that provide improvements in connection with one or more of the issues discussed. According to the inventor there is a provided method and apparatus for claiming rights. As an embodiment of the invention, a method of quantitatively determining a color screen device, or color parameter (three-dimensional color space), monitors a patient's biosignal response on a numerical basis according to a systematic test procedure and records test data. It includes.
The recorded data can be used as an interpretation of the optimal value of the colorimetric parameter, and the next step in this method is that the evaluation is relatively a relatively discreet number of the relevant parameter for the patient whose numerical value is questioned. Allow for accurate decisions. We found that the best available indicators are the alpha-waves of the EEG and the skin impedance at the fingertips that indicate tension during reading, accompanied by visual stress.
Alternatively, a mixture of text and patterns that add visual stress is presented as a test pattern, the time it takes to find the array of letters presented in the mixed pattern, and these mixed patterns are maintained for a period of time according to a standardized procedure. If presented, it can be a test having a similar effect to reading speed measurement.
The distinctive feature of this approach is to indirectly identify and quantify the increase in target tracking time, which is caused by the effects of unstable eye movements, rather than directly monitoring eye movements. The method of the present invention is based on the time at which quantitative and numerical data is used to find hidden elements in the data area, or on the total tracking time of reading and accompanying eye movements as an indirect indicator of eye movements during such operations. Can be obtained for the examples on the basis of quantitative measurements.
As such, other indicators suitable as a basis for quantitative decision steps as embodiments of the present invention include indexes of eye movement during reading or standardized procedures associated with it. These eye movement data indices provide a numerical measure of the patient's response to the sequential use of arranged colorimetric visual aid test elements, such as a colored filter screen or a colored background on a video display unit screen.
In the process of concretely realizing the invention, the present invention has begun based on an intuitive interpretation that visual symptoms are alleviated by color screen improvement. For path selection in the opposite direction, the embodiment of the present invention provides a new approach to colorimetric determination of screens and other visual aid data. Likewise, the previous invention does not include any correct perception of nature and does not include the need for optical work or the importance of using the three parameters of the color space. The present invention provides significant performance improvements by measuring, analyzing, and performing tests on all two dimensions of the color space.
An inventive aspect of the present invention is that, for example, the computer automatically analyzes the bio signals measured in association with the test procedure during the period of time without relying on the evaluation of the reading speed test, and the eye movement test directly. It is about the interpretation and use of the test data obtained, such as measuring the response time of the human body associated with eye movement rather than performing it. The specification of the present invention does not depend at all on its own evaluation and intuitive approach to the quantitative interpretation of test results. The embodiment of the present invention is free from subjective interpretive errors and obtains quantitative data by means of simple and reliable observational steps. The approach of Document 1 above requires a subjective evaluation of the gain obtained for a given color or color-tested environment, eg, "Yes, pretty good" or "not good" as follows. .
On the other hand, the present invention measures the reading speed in terms of words per hour, and at the same time directly measures the biological signal such as EEG, tension, and indirect index of eye movement or measures related indirect indicators, during the test procedure or Numerical data are acquired and automatically analyzed according to standardized protocols. The values are then used as quantitative gains from visual aids during the trial.
The present invention allows the selection of specific values in the three-dimensional color space by means of analysis and interpretation of numerical or other quantitative data, rather than selecting one of the test elements that produces better results than the other. The value is the value corresponding to the optimal result. In this connection, the results are interpreted by graphical techniques and informed of the interpretation of test data performed on a particular patient using template data obtained from previous patients' databanks. In other words, the profile of reading speed indicators for colorimetric parameters may vary from patient to patient, but there are general profiles used to aid interpretation. Visual aids and colorimetric parameters relate to chromaticity, saturation, and brightness, and can be recorded as points in a perceptual three-dimensional color space, which is the corresponding RGB value or CIE Luv. , May be specified as a color coordinate value on a perceptual color space, such as CIE Lab.
DETAILED DESCRIPTION Hereinafter, detailed descriptions of preferred embodiments of the present invention will be described with reference to the accompanying drawings. It should be noted that the same components in the drawings represent the same numerals wherever possible. Specific details are set forth in the following description, which is provided to aid a more general understanding of the present invention. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.
The present invention relates to a method for diagnosing migraine and dyslexia caused by visual stress, and to alleviate the symptoms thereof, and a device associated therewith. The inspection method for doing this is explained in full detail.
1 is a simplified diagram of a computing system in which visual aids are operated in accordance with the present invention, the components of which are shown. Similar configurations include cell phones, various kiosks and portable computers with visual display units and computing capabilities.
As shown in FIG. 1, when the electronic document 101 is viewed on the screen 100 displayed in the visual display unit (monitor), the characters and graphic elements included in the electronic document 101 may be visually stressed. May cause By operating the overlay 102 (hereinafter referred to as “overlay”) having a virtually transparent color on the contents of such electronic document 101 and making it appear superimposed on the electronic document 101, the visual stress can be alleviated or eliminated.
The overlay 102 has function buttons 103 for selecting a color, a size of the overlay 102, and the like, and selecting a button using the keyboard 105 or the mouse 106 to perform the function. It can be activated. When multiple windows are activated on the screen, the windows may be moved through a transparency function that operates only between the overlay 102 and a window in which the overlay 102 is overlapped (hereinafter referred to as an “overlay application window”). This function uses the tray icon button 104 placed at the bottom of the screen. This method can be used to move graphical elements in a computer game using the mouse after applying the overlay 102, to select options from a listbox at a specific location in e-commerce, or to specify a text input textbox with the mouse. Useful when
2 is a control flow diagram illustrating an inspection process performed by the visual aiding means according to the present invention for color selection of the overlay. As shown in FIG. 2, the visual aid first asks (200) whether it has experienced first several symptoms accompanying visual stress (200), and if so, whether the duration is short with respect to reading (201). This is because there is a significant proportion of patients with no symptoms at the beginning of reading. In these patients, further testing results in no improvement in reading speed or obvious biologic response. In such a case, therefore, reading should continue until fatigue (202).
When symptoms appear, color selection is initiated (203) to perform a standardized reading test (205), during which time the brain waves are measured according to standardized procedures (204), or skin resistance at the fingertips is measured to determine tension. In operation 205, a reading is performed by mixing a pattern and a letter pattern causing a large visual stress such as FIG. 7 using a computer to measure eye tracking time (206). A method of discriminating visual stress by measuring brain waves in step 204 is illustrated in FIG. 5. 7 and 5 will be described in detail below. The skin resistance of the fingertips measured in step 205 is reduced when not subjected to visual stress.
The first color in the inspection process shown in FIG. 2 is colorless as it was done without overlay 102. Afterwards, the test procedure is selected by selecting various colors provided by the test procedure one by one, and each time, the bio signal or the indices related to the bio signal accompanying the test are measured and the result is stored. This result is compared to previously measured colorless results and converted into numerical gain values. The test run is limited to a limited number depending on the number of designated colors.
If it is judged that there is no or no improvement in the numerical gain value obtained in each test, the test procedure is repeated by selecting other colors (207). Instead of this iterative process, the patient may preferentially select the color that the symptoms are most likely to feel, and may be tested to determine the results. The recorded gain values and result values are analyzed (209) to select or estimate the most effective color among the colors used for the test, and to calculate the optimal color value (210). This calculated optimal color value is selected (211) and used in the visual aid used later.
3 is a signal processing diagram for performing a transition between an overlay and an adjacent window according to the present invention, and illustrates a process of controlling the transition between overlay application windows viewed through the overlay 201 in a diagram form.

Referring to FIG. 3, when the overlay user 300 starts the visual aid program 301 installed on the first computer (306), the overlay 102 is positioned at the top of the computer screen, and the overlay 102 is located. Will have the focus.
In this case, in order to select a window under the overlay 102 and perform a desired operation, the overlay 102 should be closed or moved so as not to overlap with the window for which the position of the overlay 102 is to be manipulated so that the focus is given to the desired window. Input is possible. This imposes unnecessary mouse movement or operation of the keyboard on the user who wants to receive visual help through the overlay 102, and disables the operation of picking up and moving graphic objects on the screen by manipulating the mouse.
Therefore, in order to solve this problem, the present invention uses the keyboard hooking 302 and the tray icon 303 to move the focus between the overlay 102 and the lower window without moving the overlay 102. Suggest.
Continuing with reference to FIG. 3, when starting the visual aid program (306), the program 301 calls the keyboard hooking callback and tray callbacks (306, 307), such that the keyboard hooking 302 and the tray icon are present. Initialize to use (303).
Thereafter, the user inputs a keyboard input of the user 300 (309) to input the transparency setting input to move the focus of the overlay 102 to the overlay application window, or the input of the transparent display to move the focus in the overlay application window to the overlay 102. Or, it is checked whether the input is not related to transparency (310). As a result of confirmation 310, if the input is not related to transparency, the keyboard input is transmitted to the window system (315) to process the input value, and if the input is transparency setting, the transparency is set (311) and the focus is moved to the overlay application window. In operation 312, if the input of the transparency is canceled, the transparency is released (313) and the overlay 102 is manipulated (314).
In addition, when the user 300 selects the tray icon 303 menu (316), if the selected menu is a transparency setting menu, the transparency is set (317) to move the focus to the overlapping window to perform a desired operation (318), If the menu is not transparent, the transparency is released (319) and the overlay 102 is manipulated (320). In addition, if the user selects the end of the program (321), the keyboard hooking and tray icons are released (322, 323), and then the program is terminated (324).

Accordingly, through the present invention, the overlay user 300 may directly use the overlay application window overlapping the overlay 102 using a mouse or a keyboard as if the virtual color overlay does not exist. This method can greatly reduce the number of mouse or keyboard operations to select the desired window when many windows are active on the same screen. Conventionally, if only a multi-window control method provided by an operating system of a computer or a computing system requires moving several windows sequentially to switch windows, there is a problem in that the number of operations of a mouse or a keyboard is greatly increased to select a desired window. In addition, the mouse can not be used to select the content of the portion overlapped with the overlay 102, and the keyboard can only be used to select the content, and it is impossible to select and move the graphic object overlapped with the overlay 102 using the mouse. The disadvantages can be eliminated.
4 is a block diagram of a visual aiding means according to the present invention. As shown, the visual aiding means includes a help means manager and a button processor 403 for performing and managing functions of the function buttons 103 of FIG. The basic component includes a color palette DB 401 that stores data on specifications such as color, brightness, and transparency of the overlay 102 for colors provided by the visual aid.
Referring to FIG. 4, the color selector / synthesizer 402 selects one of an external diagnosis unit 400 or a color palette DB 401 as a diagnostic device to receive color data, and is basically not provided by the color palette DB 401. Colors that do not can be synthesized. The color selector / compositor 402 processes the specifications and processed handles for the processed colors to the overlay controller 405, which controls the overlay 102 appearing on the display unit.
The H / W overlay application control and restorer 406 limits the operation of the H / W overlay to operate the overlay 102 independently of the graphics device mounted on the computing system when the multimedia player is operating. When deactivated, it is responsible for restoring the original specified value.
Several windows may be activated in the video display unit of the computing system. If you are currently applying overlay 102 to an application, the topmost window in window management is overlay 102. The user may apply the mouse 105 to the overlay 102 in order to use various function buttons 103 for managing the overlay 102, and the mouse 105 or the keyboard 104 may be applied to the overlay application window. You can pass an input key.
In other words, it is necessary to transfer the information of the input device to different windows according to the user's intention, and not to other windows. The window management / input controller 404 is responsible for such a function and switches window management to the window management process switch button that appears at the bottom of the video display unit of the computing system without using the function buttons 103 of the overlay 102. It automatically creates a button (not shown) and allows you to choose the transition between the two windows in the button's menu. This method is simpler in that the process of monitoring the activation of a window in a multi-window environment is limited to two windows compared to all candidate windows. The advantage is that you do not need to select a window. In addition, there is an advantage that the mouse 105 and keyboard 104 information can be transferred directly to the overlay application window in input transmission.
5 is a graph showing the relationship between the use of the overlay and the brain wave in accordance with the present invention, and the waveform of the power spectrum is recorded by observing the alpha wave which is a kind of brain wave signal. The waveform of the EEG recorded in FIG. 5 indicates two signals, and the waveform below shows the application of the overlay 102 to the patient with visually stressed dyslexia to read the document and select the color that is most effective in alleviating the symptoms. The EEG acquired later while reading the document was recorded, and the above waveform recorded the EEG waveform when the overlay 102 was not applied.
As shown in FIG. 5, when the overlay 102 is not applied, the waveform of the power spectrum of the EEG obtained at a specific part of the head is characterized by the appearance of a large peak-shaped waveform near a frequency of 10 Hz . This feature is present in nearly every visually stressed person, and can vary in size from person to person. In the present invention, by observing the waveform of the power spectrum of the EEG, it is determined whether there is visual stress, and the color of the peak of the peak is the least effective color for symptom relief.
FIG. 6 is a waveform diagram of observation of abnormal eye movements of both eyes detected in the inspection process of FIG. 2, and records and displays waveforms of unstable movements of both the left eye and the right eye during the reading process. As shown in FIG. 6, when an unstable eye movement appears, it can be observed that the waveform suddenly decreases in size and recovers again at the same time in both eyes. In the present invention, the visual tracking time for the letters is increased by such unstable eye movement in a series of test procedures, and visual stress is compared by comparing the total tracking time with and without the overlay 102 applied. Used to determine
FIG. 7 is a basic pattern diagram for inducing visual stress used in the inspection process of FIG. 2 and is a pattern in which stripes are repeated at regular intervals as a pattern for inducing visual stress on a human body. This pattern does not necessarily have to be presented in a circle as shown in FIG. Such visual stress-inducing effects easily cause fatigue in people with visual stress syndrome, and can be used to select people with visual stress syndrome using such effects. This pattern itself is not the object of the present invention, and the present invention uses the fatigue-inducing effect of this pattern to target the manner in which the visual tracking time that occurs when a character is read by mixing this type of pattern with the letter is increased.

The present invention helps to alleviate or eliminate other optically related symptoms such as visual stress, dyslexia or migraine headaches that occur when reading or viewing a document on a computer or device that combines computing power with a visual display unit. Uncertain pronunciation or facilitator mistakes that may occur with reading tests, without the need for multiple test coordinators in tests where the subjects choose the optimal color to help alleviate or eliminate symptoms collectively in one place. Carelessness has the effect of removing elements that adversely affect the interpretation of the test results.
In addition, the present invention may provide objective data by numerically expressing the test results using the unconsciously appearing biosignal of the patient, and may additionally provide an effect of demonstrating the degree of assistance to the patient.
In addition, the present invention does not depend on a person for evaluation of visual impairment test such as reading speed test, and the computer automatically analyzes the bio signals measured in association with the test procedure during the period, and directly conducts eye movement test. Computation work can be performed on the interpretation and use of the test data obtained, such as by measuring the reaction time of the human body associated with eye movement, rather than by performing it.

Claims (11)

A method of providing a color overlay for alleviating or eliminating visual stress and accompanying symptoms, dyslexia due to visual information processing defects and migraines in a device having a display unit, A first step of displaying a test pattern including a character pattern for measuring a reading speed to a user through the display unit; Selecting a random character from the displayed test patterns and opening a pop-up window through the display unit to inform the user of a character to be found in the test pattern; A third step of measuring a time until the signal is detected and storing the signal at a reading speed when detecting a signal in which the character to be found in the test pattern is selected; A fourth process of displaying a color overlay on the test pattern and repeatedly performing the second and third processes while changing the color of the color overlay according to a preset order; A fifth process of comparing the reading speeds stored in the third process and the reading speeds stored in the fourth process, respectively, and selecting and storing the color of the color overlay having the shortest reading speed as an optimal color to alleviate visual stress of the user; ; And And a sixth step of changing the color of the color overlay to the optimal color stored in the fifth step and providing the color overlay to the user through the display unit. The method of claim 1, wherein the test pattern, And a stripe pattern that causes visual stress to the character pattern. A method of providing a color overlay for alleviating or eliminating visual stress and accompanying symptoms, dyslexia due to visual information processing defects and migraines in a device having a display unit, A first step of displaying to the user through the display unit a test pattern in which a visual stress-increasing pattern and a plurality of character patterns are mixed for indirect measurement of abnormal eye movement; A second process of selecting a random letter from the displayed test patterns and displaying the selected letter to the user through the display unit in a notification window separate from the test pattern, thereby informing the user of the letter to be found in the test pattern; ; A third step of measuring a time until the detection of the signal and detecting the signal in which the character to be found in the test pattern is detected and storing as an eye tracking time; A fourth step of measuring the time at which the signal for selecting the character is detected and measuring and storing the brain wave and terminal skin resistance of the user; A fifth process of sequentially selecting colors of the color overlay in a preset order and displaying the colors on the test pattern, and repeatedly performing the second to fourth processes; Comparing measured values stored in the third and fourth processes with measured values stored in the fifth process, and converting measured values according to colors of the color overlay stored in the fifth process into numerical gain values; 6 courses; A seventh step of selecting and storing the color of the color overlay having the largest gain value as an optimal color by comparing the gain values converted in the sixth step; And And an eighth step of changing the color overlay color to an optimal color selected in the seventh step, and providing the same to the user through the display unit. The pattern of claim 3, wherein the visual stress-increasing pattern is The method of providing a color overlay to mitigate visual stress, characterized in that the stripe pattern. An apparatus for providing a color overlay for alleviating or eliminating visual stress and various symptoms thereof, dyslexia due to visual information processing defects and migraines in a device having a display unit, A color overlay application control and restorer for limiting the color overlay operation when the multimedia player is operating and restoring a specified value of the color overlay when the multimedia player is inactive to operate a color overlay independently; An overlay controller configured to display a color overlay on the display unit under control of the color overlay application control and the restorer; A color palette database for storing data on specifications of color, brightness, and transparency of colors of the color overlay; A test pattern composed of a character pattern for measuring a reading speed is displayed on the display unit, and the reading speed and the color overlay are displayed on the test pattern without the color overlay being displayed on the test pattern. According to the color of the color overlay to measure the reading speed is applied, and displays the measured color values and the color overlay set to each color without displaying the color overlay and compare the measured values, respectively, A control unit which displays the set color overlay and converts the measured values into numerical gain values for each color, and then selects the color of the color overlay having the largest gain as an optimal color; The optimal color selected by the controller is selected from the color palette database, and if the selected optimal color is a color not provided from the color palette database, the selected optimal color is synthesized and provided to the overlay controller. Color selector and synthesizer; And And a color overlay manager configured to change the focus between the document displayed on the display unit and the color overlay, and to adjust the color, brightness, and transparency of the color overlay. The method of claim 5, wherein the test pattern, And a stripe pattern for causing visual stress on the character pattern. The method of claim 6, And an external diagnostic device for measuring the brain wave and terminal skin resistance of the user while measuring the reading speed. The controller displays the measured values without displaying the color overlay with respect to the EEG and terminal skin resistance of the user measured from the external diagnostic device, and displays the color overlay set with the respective colors and compares the measured values, respectively. Display the color overlay set to and convert the measured values into numerical gain values for each color, and then select the color of the color overlay having the largest gain as the optimal color. Device that provides color overlay. The method of claim 5, Create a window management switch button to enable the focus switch between the document displayed on the display unit and the color overlay, and select the switch between the document and the color overlay from the menu of the window management switch button. And a window management and input controller for confining the document and the color overlay. delete delete delete

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