Patent application number | Description | Published |
20090195350 | Situationally Aware and Self-Configuring Electronic Data And Communication Device - A self-configuring wearable electronic data and communication device comprising a self-contained module comprising means for self-configuring based on a user's activity and context an operational mode in a plurality of operational modes, wherein the self contained module further comprises intelligent situational awareness derived from at least one of pre-programmed criteria, a sensing ability, a user-specified lifestyle theme, a communication functionality, an accessory, and a user motion pattern. The self-contained module further comprises a display, a processor, a memory, and a battery, and is capable of configuring itself according to an accessory to which it is attached or connected. | 08-06-2009 |
20090199130 | User Interface Of A Small Touch Sensitive Display For an Electronic Data and Communication Device - A method and apparatus for receiving an input by a user on an interactive touchscreen display based, electronic data and communication device, the input comprising a contact gesture, which further comprises touchscreen single or multiple simultaneous contacts. The contact gestures are classified as primary, secondary, tertiary, universal and non-universal contact gestures. The method further includes performing an operation or entering an operational mode based on the user input. | 08-06-2009 |
Patent application number | Description | Published |
20090195497 | GESTURE-BASED POWER MANAGEMENT OF A WEARABLE PORTABLE ELECTRONIC DEVICE WITH DISPLAY - Methods and systems for providing gesture-based power management for a wearable portable electronic device with display are described. An inertial sensor is calibrated to a reference orientation relative to gravity. Motion of the portable device is tracked with respect to the reference orientation, and the display is enabled when the device is within a viewable range, wherein the viewable range is a predefined rotational angle range in each of x, y, and z axis, to a user based upon a position of the device with respect to the reference orientation. Furthermore, the display is turned off if an object is detected within a predetermined distance of the display for a predetermined amount of time. | 08-06-2009 |
20090196124 | MODULAR MOVEMENT THAT IS FULLY FUNCTIONAL STANDALONE AND INTERCHANGEABLE IN OTHER PORTABLE DEVICES - A portable device comprising a modular movement is disclosed. The modular movement has a body housing a plurality of layers that include a top layer of glass, and a movement subassembly for displaying information, including time, wherein the modular movement includes all parts necessary for power and operation, including the displaying of the information, such that the modular movement is fully functional standalone. The portable device further includes a case, which includes a receptacle for removably receiving the modular movement without need for a tool, such that the modular movement is user-interchangeable with another case of another portable device. | 08-06-2009 |
20100156676 | GESTURE-BASED USER INTERFACE FOR A WEARABLE PORTABLE DEVICE - Methods and systems for providing a gesture-based user interface for a wearable portable device are described. A gesture including a movement of the wearable portable device is received, and at least one character associated with the gesture is identified and displayed on the wearable portable device, thereby allowing entry of characters on the user interface of the wearable portable device using the gestures. | 06-24-2010 |
20100172522 | PROGRAMMABLE EARPHONE DEVICE WITH CUSTOMIZABLE CONTROLS AND HEARTBEAT MONITORING - Methods and systems for providing a programmable earphone device with customizable controls and heartbeat monitoring are described. The earphone device may include a wireless connection to a media player, a left and a right earphone, and at least one input mechanism, wherein the input mechanism is located on at least one of the left and right earphones and is customizable. The earphone device may also include an data port configured to bypass the wireless connection and receive sound data from the media player when a wired connection is detected between the media player and the earphone device. A stored customizable sound equalizer may also be included that provides different equalizer settings for each of the left and right earphones. The earphone device also includes a heartbeat monitor that detects a user's heartbeat using the left and right earphone, wherein the heartbeat monitor is customizable by the user. | 07-08-2010 |
20110167262 | IDENTIFICATION AND AUTHORIZATION OF COMMUNICATION DEVICES - A method implemented by a wearable wireless communication device (“WWCD”) includes detecting a connection between the WWCD and an accessory device. The WWCD accesses a memory location in the accessory device, the memory location being designated for storing brand data indicating a brand identity associated with the accessory device. The WWCD determines a brand status of the accessory device based on data, if any, accessed from the memory location in the accessory device. The WWCD also determines one or more interactions permitted between the WWCD and the accessory device based at least in part on the brand status of the accessory device. | 07-07-2011 |
20110176395 | MODULAR MOVEMENT THAT IS FULLY FUNCTIONAL STANDALONE AND INTERCHANGEABLE IN OTHER PORTABLE DEVICES - A method for manufacturing an interchangeable movement includes assembling parts into a movement subassembly, such that the subassembly is a complete working mechanism; enclosing the subassembly in a body; integrating a glass with the body, wherein the body comprises a single shell with only an opening that receives the glass, sealing the glass and the single shell to enclose the body, thereby creating a water resistant modular movement; and wherein the modular movement is insertable into a case of a portable device having a receptacle for removably receiving the modular movement without tools and in a manner where the glass of the modular movement is visible through the case when the modular movement is inserted. | 07-21-2011 |
20120092822 | WEARABLE COMPUTING MODULE - In an example embodiment, a computing module includes a case, an optical display subsystem coupled to the case, a circuit element assembly, a power cell and an interface connector. The case includes a bottom portion and multiple lateral sidewalls. The case defines an enclosure. The circuit element assembly is positioned within the enclosure and is coupled to the optical display subsystem. The power cell is coupled to the circuit element assembly. The interface connector is defined in the case and includes multiple side openings, multiple bottom openings and multiple connector pads. The side openings are defined in at least one of the lateral sidewalls. The bottom openings are defined in the bottom portion of the case. The connector pads include multiple side pads coupled to the case and in communication with the side openings and multiple bottom pads coupled to the case and in communication with the bottom openings. | 04-19-2012 |
20130002538 | GESTURE-BASED USER INTERFACE FOR A WEARABLE PORTABLE DEVICE - A gesture-based user interface comprises a wearable portable device storing a gesture profile for each of a plurality of different applications on the wearable portable device to define different gestures for the different applications, wherein each of the gesture profiles includes at least one gesture and a predetermined function associated with the at least one gesture; and a profile web service, wherein the portable device is in communication with the profile web service and is configured to download from the profile web service to the wearable portable device a customizable gesture profile for a particular one of the applications, wherein the customized gesture profile modifies at least one of the different gestures, the customized gesture profile comprising personal preferences of the user regarding the modified gesture, including physical attributes of the user. | 01-03-2013 |
20130254705 | MULTI-AXIS USER INTERFACE FOR A TOUCH-SCREEN ENABLED WEARABLE DEVICE - A touchscreen-enabled wearable computer includes a multi-axis user interface provided by at least one software component executing on a processor. The multi-axis user interface comprises at least two user interface regions displayed on the touchscreen one at a time, each displaying a series of one or more application screens; and a combination of a vertical navigation axis and a horizontal navigation axis, wherein the vertical navigation axis enables a user to navigate between the multiple user interface regions in response to vertical swipe gestures made on the touchscreen, and the horizontal navigation axis enables the user to navigate the application screens of a currently displayed user interface region in response to horizontal swipe gestures across the touchscreen. | 09-26-2013 |
Patent application number | Description | Published |
20130347131 | Systems and Methods Involving Features of Hardware Virtualization Such as Separation Kernel Hypervisors, Hypervisors, Hypervisor Guest Context, Hypervisor Contest, Rootkit Detection/Prevention, and/or Other Features - Systems, methods, computer readable media and articles of manufacture consistent with innovations herein are directed to computer virtualization, computer security and/or data isolation. According to some illustrative implementations, innovations herein may utilize and/or involve a separation kernel hypervisor which may include the use of a guest operating system virtual machine protection domain, a virtualization assistance layer, and/or a rootkit defense mechanism (which may be proximate in temporal and/or spatial locality to malicious code, but isolated from it), inter alia, for detection and/or prevention of malicious code, for example, in a manner/context that is isolated and not able to be corrupted, detected, prevented, bypassed, and/or otherwise affected by the malicious code. | 12-26-2013 |
20140208442 | Systems and Methods of Secure Domain Isolation Involving Separation Kernel Features - Systems and methods are disclosed for providing secure information processing. In one exemplary implementation, there is provided a method of secure domain isolation. Moreover, the method may include configuring a computing component with data/programming associated with address swapping and/or establishing isolation between domains or virtual machines, processing information such as instructions from an input device while keeping the domains or virtual machines separate, and/or performing navigating and/or other processing among the domains or virtual machines as a function of the data/programming and/or information, wherein secure isolation between the domains or virtual machines is maintained. | 07-24-2014 |
20150213264 | SYSTEMS AND METHODS INVOLVING FEATURES OF HARDWARE VIRTUALIZATION SUCH AS SEPARATION KERNEL HYPERVISORS, HYPERVISORS, HYPERVISOR GUEST CONTEXT, HYPERVISOR CONTEXT, ROOTKIT DETECTION/PREVENTION, AND/OR OTHER FEATURES - Systems, methods, computer readable media and articles of manufacture consistent with innovations herein are directed to computer virtualization, computer security and/or data isolation. According to some illustrative implementations, innovations herein may utilize and/or involve a separation kernel hypervisor which may include the use of a guest operating system virtual machine protection domain, a virtualization assistance layer, and/or a rootkit defense mechanism (which may be proximate in temporal and/or spatial locality to malicious code, but isolated from it), inter alia, for detection and/or prevention of malicious code, for example, in a manner/context that is isolated and not able to be corrupted, detected, prevented, bypassed, and/or otherwise affected by the malicious code. | 07-30-2015 |
20150301874 | SYSTEMS AND METHODS OF SECURE DOMAIN ISOLATION INVOLVING SEPARATION KERNEL FEATURES - Systems and methods are disclosed for providing secure information processing. In one exemplary implementation, there is provided a method of secure domain isolation. Moreover, the method may include configuring a computing component with data/programming associated with address swapping and/or establishing isolation between domains or virtual machines, processing information such as instructions from an input device while keeping the domains or virtual machines separate, and/or performing navigating and/or other processing among the domains or virtual machines as a function of the data/programming and/or information, wherein secure isolation between the domains or virtual machines is maintained. | 10-22-2015 |