Abstract: A display device with an integrated touch screen including a display panel including electrodes divided into a plurality of block type groups and a plurality of data lines; a display driver IC configured to apply a common voltage to the electrodes when a driving mode of the panel is a display driving mode, sequentially apply a touch scan signal to each block type group when the driving mode of the panel is a touch driving mode, and apply a data signal to the data lines associated with a corresponding block type group when the touch scan signal is applied to the corresponding block type group; and a touch IC configured to generate the touch scan signal and apply the touch scan signal to the display driver IC.

Abstract: The present invention relates to a touch screen device, a handheld device and a method for operating a touch screen device.

Abstract: Disclosed is a mobile terminal including: a display unit; a touch sensor configured to sense a tap applied to the display unit; and a controller configured to control at least one of functions executable in the mobile terminal when a tap corresponding to a pre-set scheme is applied to the display unit, wherein the touch sensor is formed to sense the tap by using different schemes in an activated state or deactivated state of the display unit.

Abstract: An array substrate includes: a plurality of sub-pixel units arranged in an array, in which every two adjacent rows of the sub-pixel units form one sub-pixel-unit group, and two gate lines that are configured to respectively provide gate signals for the two rows of the sub-pixel units are disposed between the two rows of the sub-pixel units; a plurality of touch driving electrodes, disposed between the sub-pixel-unit groups that are provided on the array substrate, and arranged in a row direction of the sub-pixel units; and a plurality of touch sensing electrodes, disposed on the array substrate, arranged in a column direction of the sub-pixel units, and insulated from the touch driving electrodes and the gate lines.

Abstract: A method and apparatus for reducing user distraction is provided herein. During operation a user device will show content for limited periods of time during a context where the user is not to be distracted. So for example, a police officer driving may only be able to look at the screen of his device for a first period of time (e.g., 3 seconds). After that period of time, the device will prevent further viewing (preferably by turning off the screen). After a second period of time (e.g., 10 seconds), the device will again allow the officer to look at the screen for the first period of time. When the device has determined that user distraction does not need to be prevented, the device will allow full access to the user.

Abstract: A mobile device and a corresponding proximity detection method are provided. The mobile device includes an infrared emitter and a proximity sensor. The infrared emitter emits an infrared using first power in a first mode or emits the infrared using second power in a second mode. The first power and the second power are different. The proximity sensor detects the reflection of the infrared and determines whether or not there is an object in close proximity to the mobile device based on the reflection.

Abstract: According to one embodiment, an interface apparatus includes a function device, plural conductive elements regularly arranged on a surface of the interface apparatus, and a control part. The function device receives an operation from a user and acquires first data based on the operation of the user. The control part converts the first data acquired from the function device into an arrangement pattern coincident with the first data, and controls to energize a conductive element at a position coincident with the arrangement pattern among the plural conductive elements.

Abstract: A method for content interaction through overlays on a mobile device includes the steps of receiving a content on a display of the mobile device, generating an overlay image on the received content, matching the overlay image only or together with received content to a set of templates for identifying a template associated with the overlay image only or together with received content, identifying a template matched to the overlay image only or together with received content, assigning the overlay template and an action, if any associated with the template, to the received content.

Abstract: A force sensing device can be included in a display. Noise produced by various sources can be injected into the force signals produced by the force sensing device. Example noise sources include, but are not limited to, the display, Johnson or Thermal noise from the force sensing device, system noise, and magnetically-coupled or background noise produced by ambient light sources. A sampling scheme that includes one or more noise cancelling techniques can be employed to reduce the amount of noise in the force signals.

Abstract: An array substrate and a display device are disclosed. The array substrate includes a base substrate, a transmitting touch electrode pattern and a receiving touch electrode pattern; the transmitting touch electrode pattern is formed on a first face of the base substrate, the receiving touch electrode pattern is formed on a second face of the base substrate, and the first face and the second face are opposite to each other. With the array substrate, shadows of the transmitting touch electrode pattern and the receiving touch electrode pattern can be eliminated or alleviated, and the transmitting touch electrode pattern and the receiving touch electrode pattern can be avoided from being scratched.

Abstract: A touch controller can dynamically balance performance criteria, such as signal-to-noise ratio (SNR) thresholds, with power consumption for touch sensitive devices. A touch controller can be configured to reduce power consumption by reconfiguring bank boundaries for an active mode scan so as to reduce the number of banks scanned with a banked active mode scan. Additionally or alternatively, the stimulation signal amplitude and integration time of the touch controller can be dynamically adjusted to balance performance criteria with power consumption. Default integration times and default stimulation signal amplitudes can be increased in higher-noise operating environments to raise SNR, and can be reduced to save power in lower-noise operating environments.

Abstract: An information processing method, an information processing device and an electronic apparatus with a touch screen are provided. The method includes: obtaining a first parameter value of the touch screen at instant T1; obtaining a second parameter value of the touch screen at instant T2 after instant T1, where an instant T3 is defined between instant T1 and instant T2, and the instant T3 corresponds to a third parameter value, where the third parameter value is greater than or equal to the first parameter value and any one of parameter values corresponding to instants between instant T1 and instant T2; and generating an operation response instruction in a case that the second parameter value is greater than a preset parameter value and a correspondence among the first parameter value, the second parameter value and the third parameter value meets a preset condition.

Abstract: An image display apparatus includes a display panel, a driver configured to drive the display panel, a flexible printed circuit board connecting the driver to the display panel; a buffer under the display panel and overlapping with the display panel and with a region of the flexible printed circuit board that is adjacent to a first side of the display panel in a first direction, and a first adhesive under the buffer and overlapping with a region of a first side of the buffer in the first direction.

Abstract: An electronic device detects a first touch input on a first touch region of a touch-sensitive surface, and identifies a first intensity model identifier associated with the first touch region. In response to detecting the first touch input, the device determines a first intensity of the first touch input on the first touch region; determines a first touch characterization parameter; and, subsequently sends to a first software application the first touch characterization parameter. The device also detects a second touch input on a second touch region of the touch-sensitive surface, and identifies a second intensity model identifier associated with the second touch region. In response to detecting the second touch input, the device determines a second intensity of the second touch input on the second touch region; determines a second touch characterization parameter; and, subsequently sends to the first software application the second touch characterization parameter.

Abstract: An electronic device includes a touch-sensitive surface. The electronic device includes one or more sensors to detect intensity of contacts with the touch-sensitive surface. The device detects a first touch input on the touch-sensitive surface, and, in response to detecting the first touch input on the touch-sensitive surface, determines a first intensity applied by the first touch input on the touch-sensitive surface. The device identifies a first intensity model identifier from a plurality of predefined intensity model identifiers, and, in accordance with the first intensity applied by the first touch input on the touch-sensitive surface and one or more thresholds associated with the first intensity model identifier, determines a first touch characterization parameter. Subsequent to determining the first touch characterization parameter, the device sends first touch information to the first software application.

Abstract: An electronic device displays a user interface that includes a first display region and a second display region. The device detects a first intensity of a touch input at a first location on a touch-sensitive surface that corresponds to the first display region; detects a movement of the touch input to a second location on the touch-sensitive surface that corresponds to the second display region; after detecting the movement, detects a second intensity of the touch input at the second location; and, in response, in accordance with a determination that the first intensity does not satisfy a first intensity threshold, processes the second intensity using one or more intensity thresholds associated with the second display region; and, in accordance with a determination that the first intensity satisfies the first intensity threshold, processes the second intensity using one or more intensity thresholds associated with the first display region.

Abstract: A multimodal sensor includes first conductive electrodes that are arranged in parallel with one another, being spaced from one another by a certain distance, an insulating layer that is formed on the first conductive electrodes, second conductive electrodes that are formed on the insulating layer, crossing the first conductive electrodes, and are arranged in parallel with one another, being spaced from one another, and a controller that applies voltages to the first and second conductive electrodes. The controller detects capacitance formed between the first and second conductive electrodes, and senses an external temperature, intensity of a pressure or a position, to which a pressure is applied, in response to a variation of the capacitance.

Abstract: Touch and hover switching is disclosed. A touch and hover sensing device can switch between a touch mode and a hover mode. During a touch mode, the device can be switched to sense one or more objects touching the device. During a hover mode, the device can be switched to sense one or more objects hovering over the device. The device can include a panel having multiple sensors for sensing a touching object and/or a hovering object and a touch and hover control system for switching the device between the touch and hover modes. The device's touch and hover control system can include a touch sensing circuit for coupling to the sensors to measure a capacitance indicative of a touching object during the touch mode, a hover sensing circuit for coupling to the sensors to measure a capacitance indicative of a hovering object during the hover mode, and a switching mechanism for switching the sensors to couple to either the touch sensing circuit or the hover sensing circuit.

Abstract: According to one embodiment, a display device includes plural display pixels arranged in a matrix, plural gate lines, plural source lies and a control circuit which controls by applying intermittent driving and a column-inversion drive scheme, an operation in which drive signals are supplied to the gate lines and the source lines, and an image signal is supplied to the display pixels and held thereby, wherein the display pixels each include a liquid crystal in which alignment of liquid crystal molecules is changed by a voltage between pixel electrodes and a common electrode, and the control circuit applies in a signal stop period in the intermittent driving, a voltage corresponding to a gradation higher than or equal to white gradation to the source lines in a case where a display mode of the liquid crystal is a normally-black mode.

Abstract: A display device is configured that the common electrode wiring layer is divided in a source wiring layer direction, the metal wiring layer is disposed above the source wiring layer at a position in contact with the upper part of the common electrode wiring layer, and the metal wiring layer is not disposed at a position where the common electrode wiring layer is divided. Alternatively, the metal wiring layer is not disposed at a position between the same colors as those at the division position of the common electrode wiring layer.

Abstract: A 3-dimensional (3D) flat panel display with a built-in touch screen panel includes a first substrate, a plurality of pixels on the first substrate, a plurality of first electrode patterns spaced apart from one another at a first predetermined interval along a first direction, the plurality of first electrode patterns for driving the plurality of pixels, a second substrate positioned to face the first substrate, and a plurality of barrier patterns formed on an outer surface of the second substrate and spaced apart from one another at a second predetermined interval along a second direction, intersecting the first direction. At least one of the plurality of first electrode patterns and at least one barrier pattern of the plurality of barrier patterns serve as electrodes for the built-in touch screen panel.

Abstract: One embodiment describes an electronic display. The electronic display includes display driver circuitry that displays at least a first image frame and a second image frame on the electronic device using a first display pixel and a second display pixel. The electronic display also includes touch sensing circuitry that detects user interaction with the electronic display. A timing controller of the electronic display determines at least a first insertion time for a first intra-frame pause for the first image frame and a second insertion time for a second intra-frame pause for the second image frame. The first and second intra-frame pauses are periods where the display driver circuitry is pauses rendering of image data to allow the touch sensing circuitry to detect user interaction. The insertion times for the first and second intra-frame pauses are varied from one another.

Abstract: Disclosed is a method for determining a touch input position, comprising the steps of: receiving a table including possible combinations, which can be formed with capacitance change values at a plurality of touch nodes, and information mapped to the possible combinations; acquiring a first combination related to capacitance change values at the plurality of touch nodes, which are generated by a touch input; acquiring first information mapped to the first combination by searching the table on the basis of the first combination among the possible combinations; and determining an input position of the touch input by using the acquired first information.

Abstract: Disclosed herein are methods and systems for providing haptic output and audio output on computing devices using the same haptic device and methods for calibrating the same. To produce the haptic and audio output, the computing device receives a profile of a desired output waveform that is to be provided by the haptic device. Using the desired output waveform, an input waveform is generated. Once the input waveform that will produce the desired output waveform is generated, the input waveform may be calibrated to account for various structural components of the haptic device and may also be combined with an audio waveform. The input waveform is then provided to the haptic device.

Abstract: A force sensitive touch screen device can include a device body including a first region and a second region, a window on the device body and corresponding to the first and second regions, a display unit below the window corresponding to the first region, a key input unit on the second region, and a touch sensor including a first touch sensing layer, a second touch sensing layer, and a force sensing layer, in which the first and second touch sensing layers are between a polarizer layer and a thin film transistor (TFT) layer that can detect a position of a touch input by sensing a change of capacitance on the first sensing layer and the second sensing layer, the force sensing layer can detect a force of the touch input by sensing capacitance on the third sensing layer, and a finger scan sensor is installed in the key input unit.

Abstract: The invention provides a capacitive touch panel that hardly cause malfunction in a wide range of temperature environment from a low temperature to a high temperature. The capacitive touch panel according to the invention is a capacitive touch panel including a display device, a lower adhesive layer, a capacitive touch panel sensor, an upper adhesive layer, and a protective substrate in this order, in which a maximum value of tan ? of the upper adhesive layer and a maximum value of tan ? of the lower adhesive layer obtained from a temperature dependency evaluation test is 0.08 or less, and tan ? of the lower adhesive layer at each temperature of every 20° C. from ?40° C. to 80° C. is equal to or less than tan ? of the upper adhesive layer.

Abstract: A transmissive element including a diffractive and/or refractive pattern can be used with a display screen of a computing device to allow the display screen to function as a near field optical sensor (NFOS). The NFOS can be used to detect shadows cast on the display screen, and/or bright objects detected near the display screen, which can be used to determine the relative position of one or more features with respect to the device. These features can be, for example, the fingers or thumbs of a user attempting to provide input to the computing device. The device can support motion or gesture detection using cameras of the device, and touch input using touch screen functionality, but the NFOS can enable the device to also track motion in the dead zone between the field of view of the cameras and the touch screen.

Abstract: The present invention relates to an optical touch-sensitive device and a method of determining a position and determining a position change of an object contacting an optical touch sensitive device. In particular, the present invention relates to an optical touch pad and a method of determining a position and determining a position change of an object contacting an optical touch pad. A touch-sensitive device, according to the present invention may comprise a light source, a touch-sensitive waveguide, a detector array, and a first light redirecting member, wherein at least a part of the light propagating towards a specific point of the detector array is prevented from being incident upon the specific point of the detector array when an object contacts a touch-sensitive surface of the touch-sensitive waveguide at a corresponding specific contact point.

Abstract: To provide a touch panel with reduced disturbance of display and with improved mechanical strength by suppressing variation in the space between a pair of substrates which form the touch panel even when in contact with an object to be detected. A pixel portion including a plurality of pixels is provided between a pair of substrates. Each pixel includes a photosensor portion which detects that the object to be detected is in contact with one of the pair of substrates, and a MEMS portion which generates a mechanical displacement in a direction perpendicular to the pair of substrates when a signal based on a detection result of the photosensor portion is input.

Abstract: A projector includes a determining unit configured to determine whether the distance between an operation device and a distance measuring unit configured to measure a distance to the operation device is a first threshold or less, a switching unit configured to switch, when a mode of the projector is a first mode, the mode from the first mode to a second mode when it is determined that the distance between the operation device and the distance measuring unit is the first threshold or less, a detecting unit configured to detect the position indicated by the operation device, and a processing unit configured to, when indication of a first position on the screen is detected, perform first processing corresponding to the first position when the mode is the first mode and perform second processing different from the first processing corresponding to the first position when the mode is the second mode.

Abstract: A touch device and a display device including the same are provided. The touch device includes: a first substrate; a second substrate facing the first substrate, and disposed to be spaced apart from the first substrate by a predetermined interval; a third substrate connecting first end portions of the first and second substrates to each other, and propagating an ultrasonic signal propagated along the first substrate to the second substrate; a plurality of first ultrasonic transducers connected to second portions facing the first end portions in the first substrate, and propagating an ultrasonic signal to the first substrate; and a plurality of second ultrasonic transducers connected to the second portions facing the first end portions in the second substrate, and receiving an ultrasonic signal propagated along the second substrate, wherein a touch point may be detected based on signal intensity variations of ultrasonic signals received by the second ultrasonic transducers.

Abstract: A computer-implemented method for navigating time-based offers includes rendering a display image of a watch dial, symbols corresponding to each hour on the watch dial, and one or more time indicators, where each symbol corresponds to a time-based offer. The method also includes determining whether or not a touch event sensed at the touch display complies with a predefined gesture, and assigning, in response to the touch event complying with the predefined gesture, an action based on the predefined gesture, a display context and a temporal context.

Abstract: The present disclosure relates to device configuration user interfaces. An electronic device receives a plurality of alerts comprising information. In response to receiving the plurality of alerts, the device displays local notifications on a first display corresponding to a first set of alerts of the plurality of alerts. The device further sends data representing at least a portion of the plurality of alerts, where the data includes instructions to cause a second electronic device to display remote notifications on a second display corresponding to a second set of alerts of the at least a portion of the plurality of alerts.

Abstract: A display apparatus includes a display section configured to display an image on a screen, a detecting section configured to detect the position of an indicator on the screen, a determining section configured to determine, when a start point or an end point of a track of the position of the indicator detected by the detecting section is present at an end or on the outside of the screen and a part of the track is present in an inner region of the screen, a dividing position of the screen according to the track, and a control section configured to divide the screen into a plurality of regions in the dividing position determined by the determining section and control the display section to display different images in the plurality of regions.

Abstract: A method for enabling a third party to dynamically reskin information displayed at a primary user device associated with a user account includes: transmitting a user interface template to a third party device, receiving assets from the third party device, delivering a bundle to a user device, and presenting the user interface based on the bundle.

Abstract: An embodiment of a method for enabling content personalization for a user based on a cognitive state of the user includes providing an interface configured to enable a third party to request cognitive state data of the user as the user interacts with a content-providing source; establishing bioelectrical contact between a biosignal detector and the user; automatically collecting a dataset from the user; generating a cognitive state metric; receiving a request from the third party for cognitive state data; transmitting the cognitive state data to the third party device; and automatically collecting a dataset from the user as the user engaged tailored content.

Abstract: A system and method are described for changing window's functionality upon detecting resizing events. According to one example method, a plurality of size thresholds is defined that are associated with a plurality of functional states for a window. Upon detecting that a size of a window reaches a first size threshold, a first functional state is applied to a window. Then, upon detecting another size threshold as the window is being increased or decreased in size, another functional state associated with the detected threshold is applied to the window.

Abstract: A system for controlling video thumbnail images, comprising an analytics engine that collects statistics related to user behavior regarding electronic media content, and a distribution engine that receives electronic media content and determines an optimal distribution of content to network-connected user devices, and a method for controlling video thumbnail images using the system of the invention.

Abstract: An electronic device: displays, on a display, a user interface that includes one or more user interface elements; and detects a press input by a contact on a touch-sensitive surface at a location that corresponds to a respective user interface element. In response to detecting the press input, the device: if the respective user interface meets first action criteria including a criterion that the respective user interface element is associated with a single option associated with the press input, initiates performance of an action corresponding to the single option; and, if the respective user interface element meets second action criteria including a criterion that the respective user interface element is associated with a first number of options associated with the press input, where the first number is greater than one, displays a first menu overlaid on the user interface with a first set of selectable options.

Abstract: An electronic device displays a user interface that includes one or more user interface elements; detects a user input on a touch-sensitive surface that includes detecting a contact at a location that corresponds to a respective user interface element; and, in response: if the user input satisfies menu-display criteria, including a criterion that is satisfied when the contact has an intensity above a first intensity threshold, displays a first menu overlaid on the user interface; and, if the user input satisfies action criteria, wherein the action criteria are capable of being satisfied when the intensity of the contact is below the first intensity threshold, initiates performance of an action associated with the respective user interface element without displaying the first menu.

Abstract: An electronic device with a touch-sensitive surface, a display, and one or more sensors to detect intensity of contacts: displays a plurality of user interface objects in a first user interface; detects a contact while a focus selector is at a location of a first user interface object; and, while the focus selector is at the location of the first user interface object: detects an increase in a characteristic intensity of the contact to a first intensity threshold; in response, visually obscures the plurality of user interface objects, other than the first user interface object, while maintaining display of the first user interface object; detects that the characteristic intensity of the contact continues to increase above the first intensity threshold; and, in response, dynamically increases the amount of visual obscuring of the plurality of user interface objects, other than the first user interface object.

Abstract: An electronic device with a display, a touch-sensitive surface, and one or more sensors to detect intensity of contacts with the touch-sensitive surface: displays a first user interface that includes a plurality of selectable objects; while a focus selector is at a location that corresponds to a respective selectable object, detects an input that includes detecting a contact on the touch-sensitive surface; and in response to detecting the input: in accordance with a determination that detecting the input includes detecting an increase in intensity of the contact that meets intensity criteria, displays a menu that includes contact information for the respective selectable object overlaid on top of the first user interface; and in accordance with a determination that detecting the input includes detecting a liftoff of the contact without meeting the intensity criteria, replaces display of the first user interface with display of a second user interface.

Abstract: An electronic device with a display and one or more input devices: displays a first user interface that includes a plurality of user interface objects, wherein a respective user interface object is associated with a corresponding set of menu options; detects a first input that corresponds to a request to display menu options for a first user interface object; in response, and displays menu items in a menu that corresponds to the first user interface object. Displaying the menu includes: if the first user interface object is at a first location in the first user interface, displaying the menu items in a first order; and if the first user interface object is at a second location in the first user interface, displaying the menu items in a second order that is different from the first order.

Abstract: A system and method to create and update a live map of venues and events by defining a polygonal area around a pre-determined point, the point being defined by a latitude and a longitude, associating a time window with the polygonal area, associating a geographical region with the polygonal area, creating a dataset including one or more venues identified within the geographical region defined by the polygonal area, and outputting the created dataset to the user interface, wherein the user interface device is configured to generate data objects corresponding to the identified one or more venues in the created data set and present the data objects on the display.

Abstract: To increase processing efficiency, a computer system receives a plurality of inputs from a user into an application at a plurality of times. The system also receives data representing a plurality of states of the application at the plurality of times. Correspondences between the plurality of inputs and the plurality of states are identified based on the plurality of times. The system adapts elements of a user interface of the application based on the identified correspondences between the plurality of inputs and the plurality of states.

Abstract: The present invention provides a method of embedding, transferring and communicating custom generated emojis/emoticons having unique physical features.

Abstract: An online video lesson builder system and method. The remotely-located system generates a single interface having a lesson index display area and a video display area for displaying data presentation (e.g., video) content associated with a lesson. A section control menu provides edit and assembly control buttons for editing and assembling the lesson and for segmenting the lesson into a plurality of time sections, each time section being associated with a key concept of the lesson.

Abstract: Optical storage media often contain data structures for a menu suitable for selection of a title, a chapter, a parameter or others. Such menus usually comprise a number of buttons to be displayed, with each button having a state. Possible states of buttons are “unselected”, “selected” or “activated”. According to the invention, the representation of a menu button may vary, depending on its state. An image or an image sequence, e.g. cartoon, may be associated to a buttons state, providing user animation. Further, a sound or sound sequence, e.g. melody or click, may be associated to a buttons state, and may be played back when the button enters this state. A data structure is disclosed which allows storage of such menu data e.g. on a Blu-ray disc.

Abstract: A user interface is configured to present a plurality of user-selectable icons. Each user-selectable icon of the plurality of user-selectable icons is individually configured to trigger playing of different streaming media content in an area on the user interface of the user-selectable icon upon a cursor-over or hover action on the user-selectable icon or other selection action by the user. The user-selectable icons are presented in a digital container wherein the container is configured to display contents of the container within a defined area on the user interface such as a Web page. The container may include a single user-selectable icon that is individually configured to trigger playing of streaming media content or multiple different user-selectable icons that are each individually configured to trigger playing of different streaming media content based on assigned specifications or selected criteria.

Abstract: A structure of an interactive collaboration session is generated. The structure is typically based on an activity defined by a leader of the interactive collaboration session. The structure of the interactive collaboration session comprises different levels. For example, the structure of the interactive collaboration session may contain hierarchical levels that include top level items to discuss, a secondary level for responses to top level items, and a tertiary level for responses to the secondary level items. The structure of the interactive collaboration session is displayed to the leader. The leader controls the participants' display of the structure of the interactive collaboration as the interactive collaboration session progresses. For example, the leader may click on a button that disables the participants' ability to make comments during one part of the interactive collaboration session. Later, the leader can click on a button to enable the participants to make comments.