| Patent application number | Description | Published |
|---|
| 20090136225 | Software Based Photoflash synchronization of camera equipped portable media device and external lighting apparatus - Methods of using software to synchronize the control of a camera on portable media device with the photoflash on an external lighting apparatus. | 05-28-2009 |
| 20100165169 | EMBEDDED CAMERA WITH PRIVACY FILTER - An apparatus includes a housing having an integrated camera. A panel is positioned in front of at least a portion of the camera and is operable to selectively switch between at least a substantially transparent state and at least a substantially opaque state. | 07-01-2010 |
| 20100214448 | Video Acquisition with Processing Based on Ancillary Data - Systems and techniques for processing sequences of video images involve receiving, on a computer, data corresponding to a sequence of video images detected by an image sensor. The received data is processed using a graphics processor to adjust one or more visual characteristics of the video images corresponding to the received data. The received data can include video data defining pixel values and ancillary data relating to settings on the image sensor. The video data can be processed in accordance with ancillary data to adjust the visual characteristics, which can include filtering the images, blending images, and/or other processing operations. | 08-26-2010 |
| 20100300856 | WHITE POINT ADJUSTMENT FOR MULTICOLOR KEYBOARD BACKLIGHT - There are provided systems, devices and methods for operating a light source to match a white point of ambient light. In one embodiment, a light control system is provided. The light control system includes a light source and a light sensor. The light sensor is configured to operate in conjunction with the light source to provide a visual effect. A controller is electrically coupled to the light source and the light sensor and configured to determine the intensity and color of light to which the light sensor is exposed and dynamically adjust the output of the light source to match the determined intensity and color of light to which the light sensor is exposed. | 12-02-2010 |
| 20100301755 | LIGHT SOURCE WITH LIGHT SENSOR - There are provided systems, devices and methods for operating a light source with a light sensor to provide a desired light output. In particular, in one embodiment, there is provided a light control system. The light control system includes a light source and a light sensor that share a common light pathway. Additionally, the light control system includes a controller electrically coupled to the light source and the light sensor. The controller operates the light source and the light sensor alternatively during a periodic cycle having a frequency of approximately 60 Hz or greater to achieve a desired visual effect based on ambient lighting conditions. | 12-02-2010 |
| 20100328935 | MULTICOLOR LIGHTING SYSTEM - A system for displaying multiple colors individually or in combination with one another. The system may emit red, green and blue light from light emitting diodes and may additionally provide white light to brighten the color provided by the red, green and blue light emitting diodes. The white light source may also be used to increase the power efficiency of the system, thus increasing the lifetime of the system for displaying multiple colors. The white light source may be used to backlight the color provided by the red, green and blue light emitted by the light emitting diodes, or may also be used as an additional light source to the light provided by the red, green and blue light emitting diodes. | 12-30-2010 |
| 20100328936 | MULTICOLOR LIGHT EMITTING DIODES - A device such as a multicolor light emitting diode that emits different colors of light and that may combine the different colors emitted by individual light emitting diodes. The multicolor LED may include a common anode terminal that may be connected to each anode of the individual light emitting diodes. The multicolor LED may be a five terminal multicolor LED. Additionally, the multicolor LED may include two anode terminals, in which the first anode terminal may be a common anode terminal connected to three of the individual color LEDs and the second anode terminal may be connected to an anode of a white LED. In this embodiment, the multicolor LED may be a six terminal multicolor LED. | 12-30-2010 |
| 20110012717 | METHOD AND APPARATUS FOR LOCALIZATION OF HAPTIC FEEDBACK - In an embodiment, a haptic feedback system includes a plurality of actuators to provide tactile feedback associated with an input surface. Each actuator is adapted to be activated independently of the other actuators. The system further includes a controller to activate a first actuator of the plurality of actuators to induce a first vibration at a selected input location of the input surface and to activate one or more additional actuators to induce at least a second vibration to localize the first vibration at the selected input location. | 01-20-2011 |
| 20110012727 | METHOD AND APPARATUS FOR DETERMINING THE RELATIVE POSITIONS OF CONNECTORS - In an embodiment, a system includes a plurality of ports and a proximity detection circuit to detect the presence of a connector relative to at least one port of the plurality of ports, prior to engagement of the connector with the port. Alternatives include a position sensor to determine the general distance of the connector from the port, and an orientation sensor to determine the orientation of the connector relative to the port. The system further includes a signal generator to provide at least one user-detectable signal representative of one or more of the proximity, position and orientation of the connector relative to the port to assist a user in engaging the connector with the port. | 01-20-2011 |
| 20110012838 | COMPUTER INPUT DEVICE INCLUDING A DISPLAY DEVICE - In an embodiment, an input device, such as computer mouse, includes an interface to communicate user interactions to a host system and a display assembly to display an image to a user. In some examples, the display device will include a collimated glass component. A method is disclosed that includes displaying an image at an input device, such as a mouse, and then displaying a second image in response to a user input through the input device. | 01-20-2011 |
| 20110037624 | SENSING CAPACITANCE CHANGES OF A HOUSING OF AN ELECTRONIC DEVICE - Methods and apparatuses are disclosed that allow measurement of a user's interaction with the housing of an electronic device. Some embodiments may measure the electrical characteristics of a housing of an electrical device, where the housing is capable of being temporarily deformed by the user's interaction. By measuring the electrical characteristics of the housing, such as the housing's capacitance, the user's interaction with the housing can be measured in a manner that is independent of the user's electrical characteristics and/or in a manner that may allow the pressure applied to the housing to be quantified. | 02-17-2011 |
| 20110037734 | ELECTRONIC DEVICE HOUSING AS ACOUSTIC INPUT DEVICE - There are provided systems, devices and methods for related to an electronic device housing having input functionality. Specifically, in one embodiment, the electronic device includes a housing and one or more acoustic transducers positioned within the housing each operative to generate an electrical signal in response to detecting a sound resulting from an impact with the housing. Additionally, the electronic device includes a microprocessor coupled to the one or more acoustic transducers and configured to receive the electrical signals generated by the one or more acoustic transducers. The microprocessor operative to interpret the generated electrical signals as input to the electronic device. | 02-17-2011 |
| 20110038114 | HOUSING AS AN I/O DEVICE - There are provided systems, devices and methods for operating a housing for an electronic device as an input/output (I/O) device. In one embodiment, an electronic device includes a housing configured to function as an integrated housing and I/O device and one or more sensors obscured by a panel of the housing. The one or more sensors being configured to sense via the panel of the housing. The electronic device further includes a processing unit communicatively coupled to the one or more sensors and configured to interpret electrical signals generated by the one or more sensors. One or more output devices are communicatively coupled to the processing unit and configured to provide an output in response to the one or more sensors generating an electrical signal. | 02-17-2011 |
| 20110074683 | INCORPORATING CHROMATIC SENSORS IN COMPUTER MICE - Methods and apparatuses are disclosed that incorporate chromatic sensors in a mouse to vary the operation of the mouse. Some embodiments may include a method of modifying the programming of a mouse that includes sampling, with the chromatic sensor, an optical property of a surface upon with the mouse is operating (such as color of the surface), and then dynamically modifying the programming of the mouse based upon the sampled optical property. In this manner, the operation of the mouse, such as tracking resolution, may be customized based upon the properties of the surface upon which the mouse is operating. Other embodiments may include utilizing the mouse with the chromatic sensor as a scanner to display images on a housing of the mouse. | 03-31-2011 |
| 20110074931 | SYSTEMS AND METHODS FOR AN IMAGING SYSTEM USING MULTIPLE IMAGE SENSORS - Systems and methods may employ separate image sensors for collecting different types of data. In one embodiment, separate luma, chroma and 3-D image sensors may be used. The systems and methods may involve generating an alignment transform for the image sensors, and using the 3-D data from the 3-D image sensor to process disparity compensation. The systems and methods may involve image sensing, capture, processing, rendering and/or generating images. For example, one embodiment may provide an imaging system, including: a first image sensor configured to obtain luminance data of a scene; a second image sensor configured to obtain chrominance data of the scene; a third image sensor configured to obtain three-dimensional data of the scene; and an image processor configured to receive the luminance, chrominance and three-dimensional data and to generate a composite image corresponding to the scene from that data. | 03-31-2011 |
| 20110075055 | DISPLAY SYSTEM HAVING COHERENT AND INCOHERENT LIGHT SOURCES - Embodiments are disclosed that allow light display systems, such as projectors, to be manufactured having lower power consumption, reduced speckling, and/or that are less expensive than conventional light projectors. In some embodiments, may include an incoherent light source and a coherent light source operating in concert with one another to produce a combined light beam that has similar wavelength contributions from the incoherent and coherent light sources. | 03-31-2011 |
| 20110078151 | COMPUTER SYSTEMS AND METHODS FOR COLLECTING, ASSOCIATING, AND/OR RETRIEVING DATA - Systems and methods may provide collection of data and association of searchable tags with the collected data. In an embodiment, a system may include at least one sensor configured to collect a primary data, and a processor configured to date and/or time stamp the primary data, to generate at least one searchable tag based on content of the primary data, and to associate the at least one searchable tag with the date and/or time-stamped primary data. Additionally, systems and methods may provide retrieval of primary data from a database based at least in part on tags that match at least part of a query. In an embodiment, the retrieved data may include at least one matching tag. | 03-31-2011 |
| 20110107958 | INPUT DEVICES AND METHODS OF OPERATION - The disclosure describes input devices for processor-based systems, including computing systems, to provide enhanced user experience. The described systems provide tactile sensations providing feedback to a user. In some systems, feedback is provided before actual contact with the key expelling air from the input device proximate the key when user selection is imminent. In other examples, the tactile sensation results from automatic movement of the key in response to detected user selection of the key. Additional examples and variations are described herein. | 05-12-2011 |
| 20110162035 | LOCATION-BASED DOCK FOR A COMPUTING DEVICE - One particular implementation conforming to aspects of the present disclosure takes the form of docking station for a computing device that maintains an indication of a docking station location. The location of the docking station may be utilized by the docking station and/or the computing device coupled to the docking station to configure the functionality and other aspects of the computing device. For example, the functionality of the computing device may be altered in response to the location of the docking station. Additionally, security features, display configurations and the availability of software applications may also be configured in response to the location of the docking station. In this manner, a single computing device may perform the functions of several computing devices based on the location of the docking station, without the need for the user of the device to configure the device manually. | 06-30-2011 |
| 20110162048 | LOCAL DEVICE AWARENESS - Certain embodiments may take the form of a method of operating an electronic device to find and determine an identity of other local devices. The method includes transmitting electromagnetic signals from a first electronic device to find devices within a prescribed distance of the first device and receiving electromagnetic response signals from a second electronic device within the prescribed distance from the first electronic device. The method also includes identifying the second electronic device using information received in the electromagnetic response signals. Additionally, the method includes determining if the second electronic device is aware of other electronic devices and, if the second electronic device is aware of other electronic devices, obtaining identifying information of the other devices from the second electronic device. | 06-30-2011 |
| 20110163944 | INTUITIVE, GESTURE-BASED COMMUNICATIONS WITH PHYSICS METAPHORS - A user can make an intuitive, physical gesture with a first device, which can be detected by one or more onboard motion sensors. The detected motion triggers an animation having a “physics metaphor,” where the object appears to react to forces in a real world, physical environment. The first device detects the presence of a second device and a communication link is established allowing a transfer of data represented by the object to the second device. During the transfer, the first device can animate the object to simulate the object leaving the first device and the second device can animate the object to simulate the object entering the second device. In some implementations, in response to an intuitive, gesture made on a touch sensitive surface of a first device or by physically moving the device, an object can be transferred or broadcast to other devices or a network resource based on a direction, velocity or speed of the gesture. | 07-07-2011 |
| 20110164163 | SYNCHRONIZED, INTERACTIVE AUGMENTED REALITY DISPLAYS FOR MULTIFUNCTION DEVICES - A device can receive live video of a real-world, physical environment on a touch sensitive surface. One or more objects can be identified in the live video. An information layer can be generated related to the objects. In some implementations, the information layer can include annotations made by a user through the touch sensitive surface. The information layer and live video can be combined in a display of the device. Data can be received from one or more onboard sensors indicating that the device is in motion. The sensor data can be used to synchronize the live video and the information layer as the perspective of video camera view changes due to the motion. The live video and information layer can be shared with other devices over a communication link. | 07-07-2011 |
| 20110167078 | User Interfaces for Content Categorization and Retrieval - Methods, systems, and computer-readable media for providing a scenario desktop for recording a current event scenario and a content desktop for presenting information about a previously recorded event scenario are disclosed. When a first event scenario is detected on the mobile device, the scenario desktop is presented on the mobile device. The scenario desktop exists in parallel with a default primary desktop of the mobile device. An information bundle is created for the first event scenario, including one or more documents accessed through the scenario desktop during the first event scenario. Access to the one or more documents is automatically provided on the mobile device during a second event scenario related to the first event scenario. The access is provided through the content desktop existing in parallel with the primary desktop and the scenario desktop. Other scenario-based content retrieval and presentation methods are also disclosed. | 07-07-2011 |
| 20110167357 | Scenario-Based Content Organization and Retrieval - Methods, systems, and computer-readable media for scenario-based content categorization, retrieval, and presentation are disclosed. At a first moment in time, a first event scenario is detected by a mobile device, where the first event scenario is defined by one or more participants and one or more contextual cues concurrently monitored by the mobile device and observable to a human user of the mobile device. An information bundle is created in real-time for the first event scenario, where the information bundle includes one or more documents accessed during the first event scenario and is retrievable according to the one or more contextual cues. Access to the one or more documents is automatically provided on the mobile device during a second event scenario that is related to the first event scenario by one or more common contextual cues. Other scenario-based content retrieval and presentation methods are also disclosed. | 07-07-2011 |
