Patent application number | Description | Published |
20120319959 | DEVICE INTERACTION THROUGH BARRIER - There is provided an electronic device having a touch-sensing element configured for sensing touches on a surface thereof. A baseline sensitivity setting determines a sensitivity of the touch-sensing element. The touch-sensing element is configured to register a touch that meets or exceeds the baseline sensitivity setting, and to ignore a touch that does not meet the baseline sensitivity setting. The device further includes a sensor that senses an operating condition of the device. A memory of the device includes code executable by the device and configured to adjust the baseline sensitivity setting based upon the sensed operating condition. | 12-20-2012 |
20140240295 | INPUT TOOLS HAVING VIOBRO-ACOUSTICALLY DISTINCT REGIONS AND COMPUTING DEVICE FOR USE WITH THE SAME - An input tool includes a body in the form of a stylus with plurality of vibro-acoustically distinct regions. The vibro-acoustically distinct regions produce vibro-acoustic responses when the regions touch the surface of the touch screen. The vibro-acoustic responses are used in a computing device to detect what region of the input tool was used. | 08-28-2014 |
20140289659 | METHOD AND SYSTEM FOR ACTIVATING DIFFERENT INTERACTIVE FUNCTIONS USING DIFFERENT TYPES OF FINGER CONTACTS - A method activates different interactive functions based on a classification of vibro-acoustic signals resulting from touch events with finger parts of a user. A primary function is trigger when an interactive element on a touch screen is touched with a finger tip of the user. An auxiliary function is launched when the interactive element is touched with a knuckle or fingernail of the user. The touch events result in generating the vibro-acoustic signals. The vibro-acoustic signals are classified and used to distinguish what finger part was used based on the classification of the vibro-acoustic signals. | 09-25-2014 |
20140310631 | Virtual Tools for Use with Touch-Sensitive Surfaces - An electronic device includes a touch-sensitive surface, for example a touch pad or touch screen. The user interacts with the touch-sensitive surface, producing touch interactions. Some of these touch interactions may be detected as indicative of a grasp for manipulating a physical tool (e.g., the grasp for holding a pen). When these touch interactions are encountered, a corresponding virtual tool is instantiated. The virtual tool controls an action on the electronic device that is similar to an action that can be performed by the physical tool. For example, the virtual pen can be used to draw on the display, whereas the physical pen draws on paper. A representation of the virtual tool is also displayed on a display for the electronic device, possibly providing additional affordances, at a location that corresponds to a location of the detected touch interaction. | 10-16-2014 |
20140327626 | Using Finger Touch Types to Interact with Electronic Devices - An electronic device includes a touch-sensitive surface, for example a touch pad or touch screen. The user interacts with the touch-sensitive surface, producing touch interactions. The resulting actions taken depend at least in part on the touch type. For example, the same touch interactions performed by three different touch types of a finger pad, a finger nail and a knuckle, may result in the execution of different actions. | 11-06-2014 |
20150035759 | Capture of Vibro-Acoustic Data Used to Determine Touch Types - An electronic device includes a touch-sensitive surface, for example a touch pad or touch screen. The user physically interacts with the touch-sensitive surface, producing touch events. The resulting interface actions taken depend at least in part on the touch type. The type of touch is determined in part based on vibro-acoustic data and touch data produced by the touch event. | 02-05-2015 |
20150199014 | INPUT TOOLS HAVING VIBRO-ACOUSTICALLY DISTINCT REGIONS AND COMPUTING DEVICE FOR USE WITH THE SAME - An input tool includes a body in the form of a stylus with plurality of vibro-acoustically distinct regions. The vibro-acoustically distinct regions produce vibro-acoustic responses when the regions touch the surface of the touch screen. The vibro-acoustic responses are used in a computing device to detect what region of the input tool was used. | 07-16-2015 |
20150242009 | Using Capacitive Images for Touch Type Classification - An electronic device includes a touch-sensitive surface, for example a touch pad or touch screen. The user physically interacts with the touch-sensitive surface, producing touch events. The resulting interface actions taken depend at least in part on the touch type. The type of touch is determined in part based on capacitive image data produced by the touch event. | 08-27-2015 |