Patent application number | Description | Published |
20140267136 | Touch Sensitive Surface with Recessed Surface Feature for an Electronic Device - An electronic device ( | 09-18-2014 |
20150042570 | METHOD AND APPARATUS FOR KEYWORD GRAPHIC SELECTION - A method on an electronic device is described. A set of graphics and a set of stored keywords are received in a higher-power mode of operation, each graphic corresponding to one or more of the stored keywords. The higher-power mode of operation is discontinued to enter a lower-power mode of operation. In the lower-power mode: audio signals are listened for; it is detected whether any keywords of the set of stored keywords are present in the audio signals; detected keywords present in the audio signals are stored; a graphic is selected from the set of graphics based on a comparison between the set of detected keywords and the set of stored keywords; a first portion of the selected graphic is displayed, in response to the at least one control signal, on a first area of a touch screen display that is within a first portion of the touch screen display. | 02-12-2015 |
20150042571 | METHOD AND APPARATUS FOR ACTION INDICATION SELECTION - A method on an electronic device is described. A touch screen display of the electronic device is actively controlled in a higher-power mode of operation. The higher-power mode is discontinued to enter a lower-power mode of operation. In the lower-power mode: a first control signal is provided to the touch screen display and a first image is displayed on a first area of the touch screen display; occurrence of a first touch input that corresponds to the first area is determined and in response thereto, a second control signal is provided to the touch screen display and each action icon of a set of action icon is displayed on the touch screen display; occurrence of a second touch input that corresponds to an action icon is determined and in response thereto, an action indication for the current display session is selected and a corresponding selected action is performed. | 02-12-2015 |
20150042572 | METHOD AND APPARATUS FOR USER INTERACTION DATA STORAGE - A method on an electronic device is described. A touch screen display of the electronic device is actively controlled in a higher-power mode of operation. Actively controlling the touch screen display in the higher-power mode is discontinued to enter a lower-power mode of operation. In the lower-power mode: at least one first control signal is provided to the touch screen display; in response to the at least one first control signal, a first portion of the touch screen display is activated and a first portion of a graphic is displayed on a first area of the touch screen display within the first portion; occurrence of a first user interaction that corresponds to the first portion of the graphic during the display of the first portion of the graphic is determined; and user interaction data is stored for the first portion of the graphic based on the first user interaction determination. | 02-12-2015 |
20150086034 | Audio Routing System for Routing Audio Data to and from a Mobile Device - A method includes receiving sound by a first audio unit installed in an electrical outlet, routing audio data corresponding to the received sound from the first audio unit to a second audio unit installed in a second electrical outlet, and sending the audio data to a mobile device using a wireless link between the mobile device and the second audio unit. Routing the audio data may include receiving the audio data from the first audio unit by a third audio unit and routing the audio data to the second audio unit by the third audio unit serving as a router. The data may be routed using table driven routing, on-demand routing or some other appropriate routing protocol. The method may also include performing voice recognition on the audio data and detecting a command word and routing command word data to the second audio unit. | 03-26-2015 |
20150235594 | METHOD AND APPARATUS FOR USER INTERACTION DATA STORAGE - A method on an electronic device is described. A touch screen display of the electronic device is actively controlled in a higher-power mode of operation. Actively controlling the touch screen display in the higher-power mode is discontinued to enter a lower-power mode of operation. In the lower-power mode: at least one first control signal is provided to the touch screen display; in response to the at least one first control signal, a first portion of the touch screen display is activated and a first portion of a graphic is displayed on a first area of the touch screen display within the first portion; occurrence of a first user interaction that corresponds to the first portion of the graphic during the display of the first portion of the graphic is determined; and user interaction data is stored for the first portion of the graphic based on the first user interaction determination. | 08-20-2015 |
20150355604 | SMART DEVICE INCLUDING BIOMETRIC SENSOR - An apparatus can include a wrist worn device configured to be worn on a wrist of a user. The apparatus can include a controller. The apparatus can include a power supply. The apparatus can include a light emitter that can emit light from a user side of the wrist worn device to a wrist of the user. The apparatus can include a light detector that can detect light reflected from the wrist of the user from the first light emitter and can send a detector signal to the controller. The detector signal can be based on the detected light. The apparatus can include a lens coupled to a user side of the wrist worn device external to the light emitter and light detector. The lens can include an opaque section. The lens can also include light transmissive section that transmits light from the light emitter to the user. | 12-10-2015 |
20150370411 | METHOD AND ELECTRONIC DEVICE FOR CARRYING OUT EDGE SUPPRESSION AND CORRECTION - An electronic device (“the device”) includes a touchscreen display that has a centroid within a curvilinear active area of the touchscreen display. The device detects a touch at a location on the touchscreen display and determines the length of a vector between the centroid and the location. If the length is less than a predefined threshold radius, the device carries out a function in response to the touch. If the length is greater than the predefined threshold radius, the device suppresses the touch. In some implementations, the device carries out edge correction by detecting that the touch is sliding towards an edge of an active area the touchscreen display and, if the length is greater than the distance between the centroid and a predefined edge threshold, the device processes the touch as if the touch was actually closer to the predefined edge threshold. | 12-24-2015 |
20150371028 | WEARABLE ELECTRONIC DEVICE AND METHOD FOR SECURING SAME - The disclosure is directed to a wearable device that is configured to secure itself based on signals received from a pulse sensor. According to one implementation, the pulse sensor includes a light source (e.g., a light-emitting diode) and a photo sensor. The light source, under the control of a processor, shines light having a particular wavelength (e.g., green or infrared). The photo sensor generates signals based on light that it senses. For example, when the light from the light source reflects off a person's skin, then the photo sensor will generate signals based on the reflected light that the photo sensor detects. In this manner, the wearable device can accurately determine whether it is being worn by a user (e.g., by taking a photoplethysmogram) and, when necessary, secure the wearable electronic device. | 12-24-2015 |