BR102014028946A2 - method for dynamically adjusting the display of a virtual keyboard - Google Patents

Abstract

method for dynamically adjusting the display of a virtual keyboard. The present invention relates to a method for dynamically adjusting the display of a virtual keyboard on a user's mobile device screen, the mobile device having a plurality of tilt and / or proximity sensors and a built-in camera and a pointer device. The method comprises the steps of: obtaining measurements from the plurality of tilt and / or proximity sensors and the mobile device camera, where the tilt is measured relative to the vertical reference line or the user's line of sight; calculate the transparency level of the virtual keyboard based on measurements and images obtained from sensors and camera; define a relationship between a dominant color and a contrasting / complementary color of the image obtained from the current screen; and change in real time the state of the virtual keyboard between a maximum visibility state (311, 403, 503, 613) and a minimum visibility state (312, 401, 501, 611) transparency, according to the level value calculated transparency, and the contrast, gradient, and color of the text with the relationship between the dominant and contrasting / complementary colors defined.

Description

Patent Descriptive Report for: "METHOD FOR DYNAMICALLY ADJUSTING A VIRTUAL KEYBOARD DISPLAY".

Field of the Invention The present invention relates to the display of a virtual keyboard on a mobile device screen. More specifically, it relates to a method for dynamically adjusting the display of a virtual keyboard being displayed on a mobile device's screen as a pointer device approaches the mobile device or the mobile device is tilted to a line. reference line, vertical line, or line of sight.

Background of the Invention The present invention relates to the user experience (UX) and user interface (UI) for mobile devices. Most mobile user interfaces, including Android, provide a virtual keyboard in two positions: landscape and portrait. In portrait mode, the virtual keyboard occupies half of the screen leaving limited space for the running application, while in landscape mode the virtual keyboard occupies most of the screen area.

Although both screen size and screen resolution have grown over the years, the user experience with the current virtual keyboard causes a waste of a large useful keyboard area by blocking the view of a significant portion of the running application. . In Google Android, the landscape keyboard fills almost the entire screen of the device, making the user unable to view the context (emails, SMS, images, etc.) and type new text at the same time. This mainly affects chat programs (SMS, Viber, WhatsApp, Facebook Messenger, Google Hangout, etc.) or email applications, because each time the user starts typing, the conversation history is automatically hidden and the device displays only the text box and the virtual keyboard. Similarly, when using a web browser on the mobile device, a significant portion of the web page displayed on the screen is covered by the virtual keyboard.

[0004] US Patent Document 7,515,135 B2 entitled "Virtual Keypad for Touchscreen Display" by Research in Motion Ltd, published April 7, 2009, proposes a method for changing a transparency level of a virtual keyboard on a display screen by sliding a pointer device (a pen or fingertip, for example) over a display screen for a predetermined distance; such that sliding step causes the transparency level to change. The present invention differs from US Patent Document 7,515,135 B2 in that, instead of triggering the transparency change by dragging the pointer device and touching the touchscreen, it modulates the transparency of the software keyboard according to the distance of the pointer device. for the screen and / or the inclination of the screen plane to the vertical line. Furthermore, unlike US 7,515,135 B2 where the degree of transparency is statically adjusted, the present invention dynamically modulates it in real time.

US Patent 8,019,390 B2, entitled: "Statically Oriented On-Screen Translucent Keyboard" by Pradeep Sindhu, published September 13, 2011, describes a technique for displaying a statically oriented transparent virtual keyboard (ie only on landscape or portrait orientation) on a screen such that the display and hiding of the onscreen keyboard is triggered by changing the orientation of the device. The present invention differs from US 8,019,390 B2 which triggers the virtual keyboard by changing the orientation of the device by providing a transparency modulation method triggered by the approximation of a pointer device to the screen (pen, fingertip, etc. .) and / or change the screen tilt to vertical and / or change the screen position to the user's eyes. In addition, the subject matter disclosed in US 7,515,135 B2 uses a user-defined static transparency value, while the present invention dynamically defines it as it responds to real-time pointer tilt or proximity sensors.

[0006] US Patent Document 7,659,885 B2, entitled: "Method and System for Using a Keyboard Overlay with a Touch-Sensitive Display Screen", published on February 9, 2010, describes the implementation of a virtual keyboard. transparent to mobile devices, such that applications respond differently according to how transparent the keyboard is. The present invention differs from US Patent Document 7, 659, 885 B2 in that it does not alter the default behavior of applications installed on the device except the virtual keyboard itself. Thus, instead of compromising the behavior of traditional word prediction applications such as SwiftKey (SwiftKey) or Swype (Nuance Communications Inc), it can be used as an enhancement to the user experience combined with such applications.

[0007] US Patent Document 8,606,331 B2 entitled Huawei's "Soft Keyboard Display Method and Mobile Terminal", published December 10, 2013, proposes a method for combining the mobile terminal with a virtual keyboard based on a α-blending factor (ie a user-entered transparency parameter) which, once set, does not change over the lifetime of the keyboard.The present invention differs from the subject matter of US 8,606,331 B2 in that, rather than simply defining Statically the a-blending factor, the method dynamically adjusts the transparency of the virtual keyboard according to user interaction, such as the proximity of the finger and / or pen to the screen of the mobile device or its inclination, and is not limited to these. .

[0008] US 6,501,464 Bl patent document entitled "On-Screen Transparent Keyboard Interface" of Intel Corporation, published December 31, 2002, proposes a method for implementing a graphical user interface in the form of a transparent keyboard. superimposed on the pre-existing screen of a computer. Unlike US 6,501, 464 Bl, which does not adjust the level of transparency in real time, this is because this adjustment is performed simultaneously with any change in device tilt, user eye position, and / or pointer device distance ( finger or pen) relative to the screen.

[0009] Patent document KR 1186816, entitled "SK TELECOM Method for Providing User Interface Protection of Privacy and Terminal", published December 31, 2012, describes a method for protecting user privacy through display darkening according to an event value detected by a sensor The present invention differs from patent KR 1186816 in that they both have quite different purposes: while the prior art document aims to protect privacy by darkening the entire screen of the device, the present invention aims to improve the user experience (UX) during simultaneous reading and writing using a virtual keyboard by modulating its transparency.Kr 1186816 cited describes a sequential method for reducing the visibility of the without any concern for the user's read and write (1/0) interaction. If the document method KR 1186816 were applied o With the virtual keyboard, the user experience would be discontinuous and inconvenient, forcing the user to stop typing to adjust the transparency factor for reading and readjust the transparency to retype.

[0010] US Patent Document 7515135 entitled: JJTitle Virtua.1 keypad for Touchscreen Display "by Research In Motion, published April 7, 2009, describes a method of changing the transparency level of the virtual keyboard overlaid on the display. at a predetermined value in response to dragging a stylus pen over a given distance.The present invention differs from US 7515135 in that the patent in question would have sequential steps for alternating between reading the bottom screen and writing on the virtual keyboard, not providing the user with a continuous and fluid experience as in the present invention.While in the present invention the user continually switches between reading and writing on the virtual keyboard, this same action would be discontinuous and not convenient if applied the patent method in question: the user stops reading content in full screen, should slide the pen to make the virtual keyboard visible, writes, must slide the pen to make keyboard invisible, resume reading content in full screen. The poor interactivity of the virtual keyboard is precisely the problem solved by this invention: the presented method allows the user to dynamically and continuously modulate the keyboard transparency factor according to his reading or writing needs, without interruptions between reading. and text writing.

[0011] The Google Play app http://goo.gl/Pvkceu, titled: "Transparent Keyboard Phone" by Touchscape Software, and the http://goo.gl/QNZOhõ app, titled "Transparent Keyboard", Shota Iuchi, provide a virtual keyboard with adjustable color and shadow effects. Once these attributes are defined, they remain constant. The present invention differs from these applications because, in addition to using the standard white text color on a transparent black keyboard as in the above applications, the method of the present invention also offers the possibility to dynamically detect the dominant background color and automatically adjust the color of the virtual keyboard text according to a complementary color. In addition, unlike the above-mentioned prior art applications, the present invention is capable of dynamically adjusting the transparency of the virtual keyboard according to user interaction, such as the proximity of the finger and / or pen to the mobile device, positioning of the user's eyes and / or the inclination of the mobile device, not limited to these.

SUMMARY OF THE INVENTION The virtual keyboard present on most smart mobile devices such as mobile phones is a good alternative to replacing keyboard hardware, but still has some disadvantages: often a large portion of on-screen information is covered, making it difficult to simultaneously write and view application content (previous messages, for example).

Unlike other implementations, the present invention provides a convenient and intuitive solution to this problem, allowing the user to enter information without compromising information display. It provides a virtual keyboard user experience whose transparency is adjusted according to the following methods, but is not limited to these: • Finger and / or pen distance to / from the screen; • Inclination of the mobile device in relation to the vertical line; and • Tilt of the mobile device to the user's eye line.

Instead of being a passive input tool that blocks data visualization, this method transforms the virtual keyboard into an agent capable of differentiating user intent between typing and visualization. As a result, it becomes visible only when it's really needed and provides a better user experience and smoother typing.

The proposed objectives are achieved by a Method for dynamically adjusting the display of a virtual keyboard on a user's mobile device screen, the mobile device having a plurality of built-in tilt and / or proximity sensors, and a camera. a pointer device, the method comprising the steps of: obtaining measurements from the plurality of tilt and / or proximity sensors and the mobile device camera; - calculate the transparency level of the virtual keyboard based on measurements and images obtained from sensors and camera; - define a relationship between a dominant color and a contrasting / complementary color of the image obtained from the current screen; and - change the state of the virtual keyboard between a maximum visibility state and a minimum visibility state in real time to change the transparency according to the value of the calculated transparency level and the contrast, gradient and color of the text with relationship between the dominant and contrasting / complementary colors defined.

[0016] The present invention not only adjusts the transparency of the virtual keyboard, but also its contrast, gradient, background color and fonts in real time and harmoniously.

Dynamic modulation is achieved by three methods associated with hardware inputs: • proximity sensors: hardware is capable of detecting the distance and position of the pointer related to the mobile device's screen. These sensors can be used as virtual keyboard transparency regulators (and other UI attributes) with dynamic modulation. The user's finger or a stylus pen can be used as a pointer, not limited to these. Examples of sensors for detecting the proximity of the device or finger pointer include magnetic, thermal, capacitive, inductive and visual sensors (e.g. use of front camera). • Tilt sensors: Gravity, accelerometer, and gyro sensors that provide precise guidance over Cartesian space, resulting in dynamic adjustment to suit the tilt of the device. • Front camera and face recognition: The front camera is used to detect the user's eye position and then calculate the screen's tilt relative to them, so they can also be used to trigger dynamic transparency modulation according to the angular variation from the user's eye line. A similar feature known as "Samsung Smart Scroll" is present in a device known in the prior art. Tilt sensors and front camera can be used in combination for even more precise adjustment and / or independent methods.

Conventional user experience displays the virtual keyboard covering the content of the running application, which is moved to the back behind the virtual keyboard, and its content is partially or completely overlapped. The present invention enhances the user experience by providing a dynamic and intuitive approach to transparency by allowing the simultaneous display of text in the background and the foreground virtual keyboard to be modulated to the user's convenience. The virtual keyboard is naturally visible when requested by the user and without compromising the visualization of the information. Brief Description of the Figures The objects and advantages of the present invention will become clearer by the following detailed description of a preferred but not limiting embodiment of the invention in view of the accompanying figures, in which: 1 illustrates an exemplary mobile keyboard with portrait and landscape mode virtual keyboard according to the state of the art;

Figure 2 shows an exemplary virtual keyboard application according to the state of the art;

Figure 3 shows a state diagram representing the life cycle of the virtual keyboard, according to the preferred embodiment of the present invention;

Figure 4 shows a proximity transparency modulation of the finger and / or pen according to the preferred embodiment of the present invention.

Figure 5 shows a modulation of transparency by varying the inclination of the device with respect to the vertical line in accordance with the preferred embodiment of the present invention.

Figure 6 shows a modulation of transparency by varying the inclination of the device with respect to the user's line of sight, according to the preferred embodiment of the present invention.

Figure 7 shows an exemplary color wheel according to a preferred embodiment of the present invention.

Detailed Description of the Invention The present invention describes a method for responsive transparency for virtual keyboards that can be applied to (and is not limited to) mobile devices such as smartphones, tablets, ultrabooks, notebooks, etc. Other aesthetic attributes such as gradient, contrast, background and foreground colors, text font and its color can also be dynamically adjusted by this method.

In order to provide a concise description, both detailed hardware and software implementations will be omitted, however, without compromising their understanding. However, some theoretical concepts will be previously presented.

Conventional color monitors typically use the RGB system (Red, Green, Blue or Red, Green and Blue). It is an additive color system, so almost all human-perceivable colors can be created through a different color combination from the RGB base. In a decimal representation, each color ranges from 0 to 255. In order to create the transparency effect, RGBA (red, green, blue and alpha) was created. The a, or alpha, is the multiplier factor, also between 0 (transparent) to 255 (opaque). This means that the RGBA 0xffff00b4: [0030] color is interpreted by humans as yellow with 30% transparent (or 70% opaque). Note that cx can be interpreted as a percentage value from 0 to 1 as well. Finally each pixel of the virtual keyboard is combined with the background image, creating the transparency effect on the current application screen.

Hardware sensors can detect the proximity of the finger or pen to the display screen of the mobile device, allowing the mobile device to accurately determine the position of fingers or a pen relative to the screen of the device.

During the life cycle of the virtual keyboard, its transparency can have numerous states of a, where 0 ^ oii <oí2 <. . . <θί <η_ΐ) <αη ^ 1, that is, ranging from transparent to opaque.

While an is the finger or pen when touching the screen, q is the infinite distance for the finger or pen. If the distance to the screen decreases, α increases; consequently, if the distance increases then α decreases.

In order to also benefit users who already have mobile devices unable to detect the proximity of the finger or pen, this method also provides modulation by making use of the acceleration and gyro sensors already present in these devices. Defining vertical, such as the direction parallel to gravitational acceleration, and horizontal, the direction perpendicular to vertical, if the device approaches vertical orientation, the α value decreases and the virtual keyboard becomes more transparent. Thus, if the device approaches the horizontal slope, the α value increases and becomes more opaque.

For the tilt method, in addition to using the angular variation on the vertical reference line, it is possible to alternatively determine the angular variation of the user's eye reference line of sight using face / eye recognition using the front camera of the device.

Note that the cc value is dynamically adjusted and can also be applied to other attributes such as contrast, gradient and not limited to these. In order to provide an even more refined virtual keyboard user experience, the method can be extended to others, but not limited to attributes such as contract and gradient. According to color theory, we have: - dominant color: the color most present in the totality of an image; and - contrasting colors: two colors which when combined in the right proportion result in white or black.

Rather than simply using white as the color of text on the virtual keyboard, these fundamental concepts of color theory can be applied in the present invention as a secondary aesthetic tool as follows: the method determines the dominant color of the content of the text. screen and based on that, set a text color on the virtual keyboard considering properties such as contrast and / or complement, not limited to these.

[0038] Figure 1 shows an exemplary mobile phone known from the state of the art using a virtual keyboard activated as follows: 1. User calls the virtual keyboard by selecting a text input field; 2 . The content becomes the application of the bottom layer of the mobile terminal screen, still filling the entire screen; 3 The virtual keyboard and text box go to the foreground layer. According to the gyro and accelerometer, the keyboard can be displayed in one of the following positions on the screen: a. Portrait: Covering about half of the background, leaving the other half to display background content; B. Landscape: covering almost the entire screen and little and no background content is displayed; 4. Once typing is complete, the user releases the virtual keyboard and the background occupies the screen entirely.

[0039] In a preferred embodiment of the present invention, a method for controlling the virtual keyboard life cycle capable of modulating the virtual keyboard between the maximum visibility 311 and minimum visibility 312 states is presented in FIG. keyboard loading when the user selects a text entry area in a field 301, and terminates after the keyboard is hidden by user 302. The user usually releases the keyboard by moving focus away from it by selecting the Enter key, or pressing the back key for devices with Android system. Between these two states 311, 312 the virtual keyboard can assume infinite transparency values, between maximum (completely cleared) and minimum (fully displayed).

[0040] In a preferred embodiment of the present invention, an alternative method for modulating virtual keyboard transparency in a mobile device capable of making use of thermal, capacitive, induced proximity, magnetic field proximity sensors is shown in Figure 4. infrared, not limited to these, in order to measure the variation in the distance of a pointer device, such as the user's finger or a Stylus pen, from the screen of the mobile device. These variations are used as a reference in calculating the transparency level, and are dynamically modulated according to such variations, so as the user approaches pointer 413, either the finger or pen, the foreground virtual keyboard assumes maximum visibility; and as the user moves pointer 403 away from the virtual keyboard, it assumes minimal visibility, while the application's background display content becomes more opaque and visible (assuming minimum or maximum visibility, respectively) and vice versa.

In a preferred embodiment of the present invention, there is shown in Figures 5 and 6 a method for modulating the transparency of the virtual keyboard in a mobile device to allow simultaneous display of the foreground keyboard and application content in the screen as per the convenience of the user where the mobile device utilizes the built-in tilt sensors already present including gravity, accelerometer and gyroscope (as per Figure 5), and front camera (as per Figure 6) not limited to these, measure the angle of inclination relative to the vertical reference line (Figure 5) or the eye reference line of sight (Figure 6) and apply this measure to calculate the transparency level at which transparency is dynamically modulated according to the angle of inclination. As the user tilts the device backward, the 513, 603 foreground telephone virtual keyboard assumes maximum visibility 503, 613 and as the user tilts the device forward 511, 601 the virtual keyboard assumes minimum visibility 501, 611 , while the visibility of application content is displayed in the background in the opposite way (assuming the minimum or maximum visibility, respectively).

Additionally, the method according to a preferred embodiment of the present invention is capable of modulating the text color on the virtual keyboard, wherein the mobile device is able to determine the dominant color of the current screen background content, where the color dominant is the most current on the display screen. Based on this, it is able to set the color of the text on the virtual keyboard using properties such as contrast and / or complementarity, as illustrated in the color wheel of Figure 7, but not limited to this.

Although the present invention has been described in connection with a preferred embodiment, it should be understood that the invention is not intended to be limited to that particular embodiment. Rather, it is intended to cover all possible alternatives, modifications and equivalents within the spirit and scope of the invention as defined by the appended claims.

Claims (8)

Method for dynamically adjusting the display of a virtual keyboard on a user's mobile device screen, the mobile device having a plurality of tilt and / or proximity sensors and / or a built-in camera and a pointer device, the method characterized by understand the steps of: obtaining measurements from the plurality of tilt and / or proximity sensors and the mobile device camera; - calculate the transparency level of the virtual keyboard based on measurements and images obtained from sensors and camera; - define a relationship between a dominant color and a contrasting / complementary color of the image obtained from the current screen; and - changing the state of the virtual keyboard in real time between a maximum visibility state (311, 503, 613) and a minimum visibility state (312, 501, 611) transparency, according to the calculated transparency level value. , and the contrast, gradient, and color of the text with the relationship between the dominant and contrasting / complementary colors defined. Method for adjusting the display of a virtual keyboard according to claim 1, characterized in that the built-in tilt sensors comprise gravity sensors, accelerometer, gyroscope and front camera, among others. Method for adjusting the display of a virtual keyboard according to claim 1, characterized in that the proximity sensors comprise magnetic field, induction, thermal, capacitive, camera, infrared, among others. Method for adjusting the display of a virtual keyboard according to claims 1 and 3, characterized in that the step of calculating the level of transparency comprises establishing maximum visibility (311, 403) as one approaches pointer (413) and minimal visibility (312, 401) as you move a pointer (411) apart. Method for adjusting the display of a virtual keyboard according to claims 1 and 2, characterized in that the step of calculating the transparency level comprises establishing maximum visibility (311, 503) of the virtual keyboard as the user tilts the mobile device closer to the horizontal orientation (513) and minimal visibility (312, 501) as it tilts the mobile device closer to the vertical orientation (511). Method for adjusting the display of a virtual keyboard according to claims 1 and 2, characterized in that the step of calculating the transparency level comprises establishing maximum visibility (311, 613) of the virtual keyboard as the user tilts the mobile device backward (603) relative to the eye reference line of sight and minimal visibility (312, 611) as it tilts the mobile device (601) forward. Method for adjusting the display of a virtual keyboard according to claim 1, characterized in that the step of defining a relationship between dominant and contrasting / complementary color comprises associating a color of the current screen content with the dominant color. and a contrasting / complementary keyboard color associated with the dominant color by a contrast and / or complement ratio. Method for adjusting the display of a virtual keyboard according to claim 1, characterized in that it modulates the virtual keyboard between the maximum visibility (311) and minimum visibility (312) states and is initiated together with the keyboard display when The user selects a text entry area in a field (301), and terminates after the keyboard is hidden by the user (302). And between these two states the virtual keyboard can assume numerous transparency values, between maximum visibility (311) and minimum visibility (312).