Abstract: Aerial launch and/or recovery for unmanned aircraft, and associated systems and methods. A representative unmanned aerial vehicle (UAV) comprises an airframe, a plurality of rotors, and a capture line. The rotors are coupled to the airframe and configured to support the UAV in hover. The capture line is carried by the UAV and is operatively coupled to an immersible anchor. The immersible anchor is configured to be immersed within a body of water during a capture operation involving the capture line.

Abstract: Aerial launch and/or recovery for unmanned aircraft, and associated systems and methods are described. A representative system includes a first, carrier aircraft having an airframe, a propulsion system carried by the airframe and positioned to support the carrier aircraft in hover, and a capture line carried by the carrier aircraft and deployable to hang from the carrier aircraft. The capture line is sized to releasably engage with a capture device of a second, carried aircraft. The system further includes a retrieval device positioned to support the carried aircraft for detachment from the capture line.

Abstract: Aerial launch and/or recovery for unmanned aircraft, and associated systems and methods. A representative unmanned aerial vehicle (UAV) comprises an airframe, a plurality of rotors, and a capture line. The rotors are coupled to the airframe and configured to support the UAV in hover. The capture line is carried by the UAV and is operatively coupled to an immersible anchor. The immersible anchor is configured to be immersed within a body of water during a capture operation involving the capture line.

Abstract: Aerial launch and/or recovery for unmanned aircraft, and associated systems and methods are described. A representative system includes a first, carrier aircraft having an airframe, a propulsion system carried by the airframe and positioned to support the carrier aircraft in hover, and a capture line carried by the carrier aircraft and deployable to hang from the carrier aircraft. The capture line is sized to releasably engage with a capture device of a second, carried aircraft. The system further includes a retrieval device positioned to support the carried aircraft for detachment from the capture line.

Abstract: Aerial launch and/or recovery for unmanned aircraft, and associated systems and methods. A representative system includes a first, carrier aircraft having an airframe a propulsion system carried by the airframe and positioned to support the carrier aircraft in hover, and a capture line carried by the carrier aircraft and deployable to hang from the carrier aircraft. The capture line is sized to releasably engage with a capture device of a second, carried aircraft. The system further includes a retrieval device positioned to support the carried aircraft for detachment from the capture line.

Abstract: Aerial launch and/or recovery for unmanned aircraft, and associated systems and methods. A representative system includes a first, carrier aircraft having an airframe a propulsion system carried by the airframe and positioned to support the carrier aircraft in hover, and a capture line carried by the carrier aircraft and deployable to hang from the carrier aircraft. The capture line is sized to releasably engage with a capture device of a second, carried aircraft. The system further includes a retrieval device positioned to support the carried aircraft for detachment from the capture line.

Abstract: Aerial launch and/or recovery for unmanned aircraft, and associated systems and methods. A representative method for operating an unmanned aerial vehicle (UAV) system includes directing a first, multi-rotor carrier aircraft to carry a second, carried aircraft aloft, and release the second aircraft for flight, while powering the first aircraft with an on-board battery. The method can further include directing the first aircraft to position a capture line in a flight path of the second aircraft to capture the second aircraft.

Abstract: A method and apparatus for autonomously managing operation of an unmanned aerial vehicle. Sensor data is received by a computer system located onboard the unmanned aerial vehicle. The sensor data is processed by the computer system to generate information of interest related to at least one target, while the unmanned aerial vehicle is out of a communications range of a control station. A number of actions to be performed is identified by the computer system based on the information of interest related to the at least one target, while the unmanned aerial vehicle is out of the communications range of the control station.

Abstract: A method and apparatus for autonomously managing operation of an unmanned aerial vehicle. Sensor data is received by a computer system located onboard the unmanned aerial vehicle. The sensor data is processed by the computer system to generate information of interest related to at least one target, while the unmanned aerial vehicle is out of a communications range of a control station. A number of actions to be performed is identified by the computer system based on the information of interest related to the at least one target, while the unmanned aerial vehicle is out of the communications range of the control station.