Abstract: Systems and methods for detecting an unmanned aerial vehicle (UAV). Network access (for example, to the Internet) may be provided by detecting a UAV and fixing one or more beams from one or more ground terminals to the UAV. In one embodiment, the detection of a UAV includes forming and pointing beams from a ground terminal and ground gateways toward the UAV. The ground terminal may be configured to autonomously steer its antenna beam during initial installation to detect the reference signal from a UAV. In one variant, the ground terminals are steered to more finely track the position of the UAV based on a signal quality metric such as received signal strength and the UAV real-time position location coordinates. In one embodiment, the ground terminal antenna is initially manually pointed toward the UAV, and thereafter allowed to automatically steer to track the position of the UAV.

Abstract: Systems and methods for detecting an unmanned aerial vehicle (UAV). Network access (for example, to the Internet) may he provided by detecting a UAV and fixing one or more beams from one or snore ground terminals to the UAV. In one embodiment, the detection of a UAV includes forming and pointing beams from a ground terminal and ground gateways toward the UAV. The ground terminal may be configured to autonomously steer its antenna beam during initial installation to detect the reference signal from a UAV. In one variant, the ground terminals are steered to more finely track the position of the UAV based on a signal quality metric such as received signal strength and the UAV real-time position location coordinates. In one embodiment, the ground terminal antenna is initially manually pointed toward the UAV, and thereafter allowed to automatically steer to track the position of the UAV.

Abstract: Systems and methods for detecting an unmanned aerial vehicle (UAV). Network access (for example, to the Internet) may be provided by detecting a UAV and fixing one or more beams from one or more ground terminals to the UAV. In one embodiment, the detection of a UAV includes forming and pointing beams from a ground terminal and ground gateways toward the UAV. The ground terminal may be configured to autonomously steer its antenna beam during initial installation to detect the reference signal from a UAV. In one variant, the ground terminals are steered to more finely track the position of the UAV based on a signal quality metric such as received signal strength and the UAV real-time position location coordinates. In one embodiment, the ground terminal antenna is initially manually pointed toward the UAV, and thereafter allowed to automatically steer to track the position of the UAV.

Abstract: Systems and methods for detecting an unmanned aerial vehicle (UAV). Network access (for example, to the Internet) may be provided by detecting a UAV and fixing one or more beams from one or more ground terminals to the UAV. In one embodiment, the detection of a UAV includes forming and pointing beams from a ground terminal and ground gateways toward the UAV. The ground terminal may be configured to autonomously steer its antenna beam during initial installation to detect the reference signal from a UAV. In one variant, the ground terminals are steered to more finely track the position of the UAV based on a signal quality metric such as received signal strength and the UAV real-time position location coordinates. In one embodiment, the ground terminal antenna is initially manually pointed toward the UAV, and thereafter allowed to automatically steer to track the position of the UAV.

Abstract: A signal may be received in accordance with a protocol stack having a first portion (400) that contains a control layer and a stream layer, and a second portion (401) that contains a physical layer and a MAC layer. The first portion may invoke an application program interface (API 1402) to instruct the second portion to replace a current set of signal acquisition parameters with an initial set of signal acquisition parameters.

Abstract: Packets of information may be received in accordance with a protocol stack having a first portion (400) that contains a control layer and a stream layer, and a second portion (401) that contains a physical layer and a MAC layer. The second portion also maintains a group of inbound packets and respectively associated error statuses. The first portion invokes an application programming interface (API 1301,1302,1401,1402) to instruct the second portion to perform an action with respect to at least one of the inbound packets, which action is related to the error status associated with that packet.

Abstract: A signal may be received in accordance with a protocol stack having a first portion (400) that contains a control layer and a stream layer, and a second portion (401) that contains a physical layer and a MAC layer. The first portion may invoke an application program interface (API 1402) to instruct the second portion to replace a current set of signal acquisition parameters with an initial set of signal acquisition parameters.

Abstract: An apparatus is configured to receive a signal in accordance with a protocol stack comprising a physical layer, MAC layer, control layer and stream layer. The apparatus includes a receiver stack processing system configured to provide the control and stream layers, a media processing system configured to provide the physical and MAC layers, and an application programming interface (API) to support service requests from the receiver stack processing system to the media processing system.

Abstract: An automated process and system for setting an alert style for a communications device is provided. A scheduling program is used to define one or more activities. The scheduling program may operate on the communication device, or may be operated remotely. An alert style is selected and associated with a particular activity. When an incoming call is received during the activity, the communications device uses the selected alert style. An override condition or rule may also further adjust the alert style used by communications device.