Abstract: A computer-implemented technique can include joining, by a computing device having one or more processors, a conference session hosted by a server via a wireless computing network. In response to joining the conference session, the computing device can receive, from the server via the wireless computing network, a dial-in telephone number for reconnecting to the conference session. The computing device can detect a trigger condition indicative of a need to reconnect to the conference session via a cellular telephone network. In response to detecting the trigger condition, the computing device can initiate a telephone call to the dial-in telephone number via the cellular telephone network. In response to the server obtaining authentication of a caller identification of the computing device, the computing device can rejoin the conference session via the cellular telephone network.

Abstract: A computer-implemented technique can include joining, by a computing device having one or more processors, a conference session hosted by a server via a wireless computing network. In response to joining the conference session, the computing device can receive, from the server via the wireless computing network, a dial-in telephone number for reconnecting to the conference session. The computing device can detect a trigger condition indicative of a need to reconnect to the conference session via a cellular telephone network. In response to detecting the trigger condition, the computing device can initiate a telephone call to the dial-in telephone number via the cellular telephone network. In response to the server obtaining authentication of a caller identification of the computing device, the computing device can rejoin the conference session via the cellular telephone network.

Abstract: A computer-implemented technique can include joining, by a computing device having one or more processors, a conference session hosted by a server via a wireless computing network. In response to joining the conference session, the computing device can receive, from the server via the wireless computing network, a dial-in telephone number for reconnecting to the conference session. The computing device can detect a trigger condition indicative of a need to reconnect to the conference session via a cellular telephone network. In response to detecting the trigger condition, the computing device can initiate a telephone call to the dial-in telephone number via the cellular telephone network. In response to the server obtaining authentication of a caller identification of the computing device, the computing device can rejoin the conference session via the cellular telephone network.

Abstract: A proximity sensor including a housing, light emitters mounted in the housing for projecting light out of the housing along a detection plane, light detectors mounted in the housing for detecting amounts of light entering the housing along the detection plane, whereby for each emitter-detector pair (E, D), when an object is located at a target position p(E, D) in the detection plane, corresponding to the pair (E, D), then the light emitted by emitter E is scattered by the object and is expected to be maximally detected by detector D, and a processor to synchronously activate emitter-detector pairs, to read the detected amounts of light from the detectors, and to calculate a location of the object in the detection plane from the detected amounts of light, in accordance with a detection-location relationship that relates detections from emitter-detector pairs to object locations between neighboring target positions in the detection plane.

Abstract: An apparatus for a hearing device includes a first voltage regulator with an output terminal; a first voltage reference; a second voltage regulator with an output terminal; a switching element; and a decoupling element; wherein the switching element and the decoupling element are operatively between the first voltage reference and the first voltage regulator; wherein the output terminal of the first voltage regulator shares a same electrical node as the output terminal of the second voltage regulator; and wherein the first voltage regulator is configured to provide a first output voltage in response to applied battery power, the second voltage regulator is configured to provide a second output voltage if a certain condition is fulfilled, and the switching element is configured to disconnect the first voltage reference from the decoupling element if the condition is fulfilled.

Abstract: A method and aircraft system are provided for determining an optimal gliding speed that maximizes gliding distance of the aircraft upon engine failure, and comprises calculating the optimal gliding speed from a speed polar curve, true airspeed, heading, and vertical wind speed. The polar curve may be constructed with consideration of the aircraft center of gravity and weight. The calculated gliding speed, which may be restricted to a threshold, is provided to the pilot and optionally to an autopilot. The method is repeated periodically, or if the wind vertical or horizontal velocities exceed a threshold for a predetermined period of time.

Abstract: Various systems, computer program products, and methods are disclosed for user experienced remote monitoring of a communications network. For example, a method may include receiving air interface information from a mobile device. The air interface information may originate from signals communicated between the mobile device and the communications network. The air interface information may indicate an actual communication quality between the mobile device and the communications network. The method may further include receiving user experience information. The user experience information may indicate a perceived communication quality at the mobile device. The method may further include associating, by the server device, the air interface information and the user experience information with one another.

Abstract: Various systems, computer program products, and methods are disclosed for user experienced remote monitoring of a communications network. For example, a method may include receiving air interface information from a mobile device. The air interface information may originate from signals communicated between the mobile device and the communications network. The air interface information may indicate an actual communication quality between the mobile device and the communications network. The method may further include receiving user experience information. The user experience information may indicate a perceived communication quality at the mobile device. The method may further include associating, by the server device, the air interface information and the user experience information with one another.

Abstract: A system includes a plurality of fly-by-wire control units to control flight control surfaces of an airplane, wherein each control unit is adapted to operate independently of other control units and directly control an actuator to control a control surface as a function of direct pilot control device input.