Abstract: A virtual reality (VR) or augmented reality (AR) system includes: a display configured to display a user interface to a user; an integrated scrollwheel and fingerprint sensor (FPS) user input apparatus, comprising a scrollwheel configured to detect a rotational navigation input from the user and an FPS configured to detect a biometric input from the user; and a processing system configured to: receive the rotational navigation input via the scrollwheel of the integrated scrollwheel and FPS user input apparatus; update a displayed user interface on the display based on the received rotational navigation input, wherein updating the displayed user interface comprises updating a user selection on a displayed menu; receive an activation input for the updated user selection on the displayed menu via the FPS of the integrated scrollwheel and FPS user input apparatus; and execute an operation corresponding to the updated user selection on the displayed menu.

Abstract: A virtual reality (VR) or augmented reality (AR) system includes: a display configured to display a user interface to a user; an integrated scrollwheel and fingerprint sensor (FPS) user input apparatus, comprising a scrollwheel configured to detect a rotational navigation input from the user and an FPS configured to detect a biometric input from the user; and a processing system configured to: receive the rotational navigation input via the scrollwheel of the integrated scrollwheel and FPS user input apparatus; update a displayed user interface on the display based on the received rotational navigation input, wherein updating the displayed user interface comprises updating a user selection on a displayed menu; receive an activation input for the updated user selection on the displayed menu via the FPS of the integrated scrollwheel and FPS user input apparatus; and execute an operation corresponding to the updated user selection on the displayed menu.

Abstract: An egg carton may include a lid having first and second opposing longitudinal sides, first and second opposing ends, a major surface, and first and second denest-features respectively near the first and second opposing ends. Each denest-feature may have an upper wall extending from the major surface, an outward flange being parallel to the major surface, and a curved surface extending from the upper wall to the outward flange. The egg carton may include a base having first and second opposing longitudinal sides, first and second opposing ends, and lower egg receptacles for receiving corresponding eggs, and a hinge strip coupled between the lid and the base and configured to permit the lid to fold between a closed position and an open position.

Abstract: A fixed content server stores electronic content for delivery to a nomadic server on a vehicle. A schedule for arrival and departure of the vehicle transporting the nomadic server at a destination location is obtained, and a destination content server is identified. An electronic package is generated to contain an identifier for the vehicle and an identifier for the destination content server. Delivery of the electronic package to the destination content server at the destination location is initiated based on the schedule for arrival of the vehicle transporting the nomadic server to the destination location so delivery of the electronic package is initiated while the vehicle is traveling to the destination location. A time is determined to upload the electronic package from the destination content server to the nomadic server of the vehicle. Quality of service that a network uses to deliver the electronic package is provisioned based thereon.

Abstract: Methods and apparatuses for implementing gesture command recognition functionality is disclosed. The apparatuses may operate in a pointing mode and operate in an enhanced gesturing mode. While in the enhanced gesturing mode, the apparatuses may cause associated actions in response to recognizing sliding inputs as gesture commands. The gesture commands may be selectively associated with actions based on localities. The apparatuses may present overlays with information content independent of gesture command recognition. The apparatuses may change appearances of visual representations of sliding inputs in response to recognizing the sliding inputs as gesture commands.

Abstract: A fixed content server stores electronic content for delivery to a nomadic server on a vehicle. A schedule for arrival and departure of the vehicle transporting the nomadic server at a destination location is obtained, and a destination content server is identified. An electronic package is generated to contain an identifier for the vehicle and an identifier for the destination content server. Delivery of the electronic package to the destination content server at the destination location is initiated based on the schedule for arrival of the vehicle transporting the nomadic server to the destination location so delivery of the electronic package is initiated while the vehicle is traveling to the destination location. A time is determined to upload the electronic package from the destination content server to the nomadic server of the vehicle. Quality of service that a network uses to deliver the electronic package is provisioned based thereon.

Abstract: Methods and apparatus for distributing content between fixed and nomadic servers using attributes. Attributes may relate to, inter alia, the type of content, location of a fixed and/or nomadic content server, a vehicle that includes a nomadic server, an ability to use content, a need for content, vehicle owner information, and/or time.

Abstract: The present disclosure discloses an object position detector. The object position detector comprises a touch sensor formed as a closed loop and having a physical constraint formed on an upper surface of the touch sensor and coextensive with the closed loop. The touch sensor is configured to sense motion of an object proximate to the closed loop. The object position detector also comprises a processor coupled to the touch sensor and is programmed to generate an action in response to the motion on the touch sensor.

Abstract: A device and method include an enclosure having a top layer with an external touch surface and an oppositely disposed back surface, a flexible substrate including a first portion affixed to the back surface, a second portion separate from the first portion, and an intermediate portion between the first second portions. An array of capacitive sensors is configured to sense objects proximate the external surface. A processor mounted to the second portion is configured to obtain signals from the sensors, determine object motion proximate the external surface using the signals, cause scrolling in response the object moving along a first axis, cause continued scrolling in response to the object lifting with a substantially non-zero speed along the first axis, and to not cause continued scrolling in response the object lifting with a substantially zero speed along the first axis.

Abstract: A capacitive sensing device and method include a touch surface, a capacitive touch sensor coupled to the touch surface and configured to measure finger motion along the touch surface, and a processor in operative communication with the capacitive touch sensor. The processor is configured to generate a scrolling command in response to finger motion along the touch surface, cease the scrolling command without substantially continuing generating the scrolling command upon the finger lifting from the touch surface when the finger is stationary prior to lifting from the touch surface, and continue generating the scrolling command for a time after the finger lifting from the touch surface to emulate coasting responsive to finger motion prior the finger lifting.

Abstract: The present invention is a graphical user interface in a computing device having a processor running an operating system and a display. The graphical user interface comprises a touch screen and a driver coupling the touch screen to the operating system. The driver can display a plurality of icons on the touch screen, or a plurality of screen images having at least one icon, with each of the icons associated with operations on the display and/or the touch screen. Other embodiments include the touch screen having unactivated and activated states, as well as the presence of an application programming interface that enables an application to display at least one image on the touch screen.

Abstract: The embodiments described herein provide devices and methods that facilitate improved input device performance. Specifically, the devices and methods provide improved resistance to the effects of errors that may be caused by the motion of detected objects on such input devices, and in particular, to the effect of aliasing errors on input devices that use capacitive techniques to generate images of sensor values. The devices and methods provide improved resistance to the effects of aliasing errors by using force values indicative of force applied to the input surface. Specifically, the devices and methods use the force value to disambiguate determined position information for objects detected in the images of sensor values. This disambiguation of position information can lead to a reduction in the effects of aliasing errors and can thus improve the accuracy and usability of the input device.

Abstract: In a method for determining actuation of a first capacitive button having a first set of at least three sensor electrode elements associated with at least three distinct sensor electrodes, and wherein a sensor electrode element of the first set of sensor electrode elements and a sensor electrode element of a second set of at least three sensor electrode elements of a second capacitive button share at least one sensor electrode in common, indicia is received from the at least three distinct sensor electrodes comprising the first capacitive button. At least three electrode values are generated from the indicia. The at least three electrode values are utilized to determine actuation of the capacitive button.

Abstract: Methods and apparatus for distributing content between fixed and nomadic servers using attributes. Attributes may relate to, inter alia, the type of content, location of a fixed and/or nomadic content server, a vehicle that includes a nomadic server, an ability to use content, a need for content, vehicle owner information, and/or time.

Abstract: A method for wireless communication of aircraft. The method includes, inter alia, in any feasible order, (1) in accordance with detecting a touchdown of the aircraft, assigning a first priority for transmitting information and a second priority for receiving media content; (2) in accordance with detecting an arrival of the aircraft at the gate, assigning a third priority for receiving media content; (3) in accordance with detecting a departure of the aircraft, assigning the first priority for transmitting information and the second priority for receiving media content; and (4) in accordance with detecting a departure ready of the aircraft, assigning a fourth priority for receiving essential media content and the second priority for receiving other media content. The first priority is greater than the second priority; and the fourth priority is greater than the second priority.

Abstract: The present invention is a graphical user interface in a computing device having a processor running an operating system and a display. The graphical user interface comprises a touch screen and a driver coupling the touch screen to the operating system. The driver can display a plurality of icons on the touch screen, or a plurality of screen images having at least one icon, with each of the icons associated with operations on the display and/or the touch screen. Other embodiments include the touch screen having unactivated and activated states, as well as the presence of an application programming interface that enables an application to display at least one image on the touch screen.

Abstract: Methods for determining actuation of a capacitive button are described. In some embodiments, indicia from the at least three distinct sensor electrodes associated with at least three sensor electrode elements comprising the capacitive button are received, the indicia indicative of interaction of an input object with the at least three distinct sensor electrodes. The actuation of the capacitive button is then determined, based at least in part on satisfying a set of criteria comprising: a location condition concerning a location of the input object relative to a center of the capacitive button, and a coupling condition concerning a change in capacitive coupling of the at least three distinct sensor electrodes associated with the at least three sensor electrode elements comprising the capacitive button.

Abstract: A system for wirelessly transferring content between aircraft. The system includes a first local controller positioned on a first aircraft of the plurality of aircraft and a respective second local controller positioned on each of the other aircraft of the plurality of aircraft. The aircraft are positioned on the ground within a boundary of an airport. The first local controller cannot detect a regional controller or any of the second local controllers. The first local controller: identifies content assigned to but not available on the first local controller and the one or more second local controllers, the content assigned by an administrator; detects content available on the first local controller and the one or more second local controllers; and controls transfer of content between the first local controller and the one or more second local controllers.

Abstract: The present disclosure discloses an object position detector. The object position detector comprises a touch sensor formed as a closed loop and having a physical constraint formed on an upper surface of the touch sensor and coextensive with the closed loop. The touch sensor is configured to sense motion of an object proximate to the closed loop. The object position detector also comprises a processor coupled to the touch sensor and is programmed to generate an action in response to the motion on the touch sensor.

Abstract: A system and method for wirelessly transferring content to and from a vehicle, in particular, an aircraft. The content includes, for example, data, voice, video and multimedia, that can be wirelessly exchanged over a wireless communication link between an aircraft and a ground station while the aircraft is at or near a parking gate, or between aircraft. In an example, the system employs long distance metropolitan area technology, such as IEEE Standard 802.16 wireless technology, to increase transfer range. The parameter of the wireless communication link can be adjusted based on, for example, the location of the link. The content can further be provided between the vehicle and ground station based on priorities, such as the available link speed, importance of the information, and/or anticipated connection time between the vehicle and ground station. A media creation center can be networked to a plurality of base stations.