An apparatus and method for selecting a keyboard key based on a position of a presence of a conductive object on a sensing device and a pre-defined area of the keyboard key. The apparatus may include a sensing device and a processing device. The sensing device may include a plurality of sensor elements to detect a presence of a conductive object on the sensing device. Multiple keyboard keys are assigned to pre-defined areas of the sensing device. The processing device is coupled to the sensing device using capacitance sensing pins, and may be operable to determine a position of the presence of the conductive object, and to select a keyboard key based on the position of the conductive object and the pre-defined areas of the sensing device.

A beacon device is provided in proximity to a computing system within a computing center. A request to locate the computing system in the computing center is triggered on a central control unit. In response to the request to locate the computing system, the control unit generates specification data for a unique radio signal identifier, sends an activation request and the specification data to the beacon device, and provides the specification data to a portable device and stores the specification data on the portable device.

A beacon device is provided in proximity to a computing system within a computing center. A request to locate the computing system in the computing center is triggered on a central control unit. In response to the request to locate the computing system, the control unit generates specification data for a unique radio signal identifier, sends an activation request and the specification data to the beacon device, and provides the specification data to a portable device and stores the specification data on the portable device.

An application engine receives flight position data associated with an airplane through a global computing network. The flight position data includes a list of recorded locations of the airplane. Using the list of recorded locations of the airplane, the application engine computes a current position of the airplane and a polling interval. Responsive to calculating the current position of the airplane, the application engine generates a flight status view of the airplane based on the current position of the airplane. The flight status view includes a flight tracker image representative of the airplane's current location and flight path, and one or more visual indicators corresponding to social network data and informative data associated with the current position of the airplane. The application engine periodically updates the flight status view of the airplane using an updated current position of the airplane.

An application engine receives flight position data associated with an airplane through a global computing network. The flight position data includes a list of recorded locations of the airplane. Using the list of recorded locations of the airplane, the application engine computes a current position of the airplane and a polling interval. Responsive to calculating the current position of the airplane, the application engine generates a flight status view of the airplane based on the current position of the airplane. The flight status view includes a flight tracker image representative of the airplane's current location and flight path, and one or more visual indicators corresponding to social network data and informative data associated with the current position of the airplane. The application engine periodically updates the flight status view of the airplane using an updated current position of the airplane.

A method for controlling a media player executing on a computing device is disclosed. A user interface touch sensor is configured to be responsive to a yaw angle of contact with at least one finger. A change in yaw angle of the finger with respect to the surface of the touch sensor is measured by the touch sensor to produce measured data. Real-time calculations on the measured data are performed to produce a measured-angle value. The measured-angle value is used to control the value of at least one user interface parameter of the media player. At least one aspect of the media player changes in response to the yaw angle of the position of the finger with respect to the surface of the touch sensor.

A method for controlling a media player executing on a computing device is disclosed. A user interface touch sensor is configured to be responsive to a yaw angle of contact with at least one finger. A change in yaw angle of the finger with respect to the surface of the touch sensor is measured by the touch sensor to produce measured data. Real-time calculations on the measured data are performed to produce a measured-angle value. The measured-angle value is used to control the value of at least one user interface parameter of the media player. At least one aspect of the media player changes in response to the yaw angle of the position of the finger with respect to the surface of the touch sensor.

A proximity location system and method thereof for locating a communications device. A radio-frequency identification (RFID) proximity location tag is arranged in a proximity of the communications device and detected thereby. A proximity location key included in the RFID proximity location tag is acquired by the communications device and forwarded to a location information server. The location information is queried for location information associated with the proximity location key. Based on the location information, data transmitted by the communications device is routed to the appropriate receiver of the data. The location information is also provided to the receiver.

The disclosure relates to detecting and clearing debris from a sensor window. For instance, a system may include the sensor window and one or more processors. The sensor window may include a transparent thin film conductor. The one or more processors may be configured to identify a change in capacitance using the transparent thin film conductor, detect debris on the sensor window using the change in capacitance, and activate a cleaning system in order to clear the detected debris from the sensor window.

The disclosure relates to detecting and clearing debris from a sensor window. For instance, a system may include the sensor window and one or more processors. The sensor window may include a transparent thin film conductor. The one or more processors may be configured to identify a change in capacitance using the transparent thin film conductor, detect debris on the sensor window using the change in capacitance, and activate a cleaning system in order to clear the detected debris from the sensor window.