Abstract: A method for launching an unmanned aerial vehicle (UAV) comprises: receiving a pre-launching signal; detecting, via at least one sensor of the UAV, at least one status parameter of the UAV in response to receiving the pre-launching signal; determining a launching mode of the UAV according to the at least one detected status parameter of the UAV; and launching the UAV according to the determined launching mode of the UAV.

Abstract: A method and an apparatus for controlling an unmanned aerial vehicle (UAV) are provided. The UAV comprises at least one rotor. The method includes: receiving a take-off preparatory signal instructing the UAV to enter into a take-off preparatory state; controlling the at least one rotor of the UAV to rotate at a preset rotation speed in response to the take-off preparatory signal, wherein the preset rotation speed is smaller than a rotation speed that enables the UAV to hover in the air; and controlling the UAV to enter into a hovering mode under a predetermined condition, wherein the UAV is controlled to hover at a predetermined height in the hovering mode.

Abstract: A method for launching an unmanned aerial vehicle (UAV) comprises: receiving a pre-launching signal; detecting, via at least one sensor of the UAV, at least one status parameter of the UAV in response to receiving the pre-launching signal; determining a launching mode of the UAV according to the at least one detected status parameter of the UAV; and launching the UAV according to the determined launching mode of the UAV.

Abstract: A flight monitoring system comprises a first set of flight-status detecting sensors comprising a first-type sensor A1 for providing a first-type measurement result and a second-type sensor A2 for providing a second-type measurement result; a second set of flight-status detecting sensors comprising a first-type sensor B1 for providing a first-type measurement result and a second-type sensor B2 for providing a second-type measurement result.

Abstract: A method and an apparatus for controlling an unmanned aerial vehicle (UAV) to land on a landing platform are provided. The method includes: receiving a landing preparatory signal instructing the UAV to enter into a landing preparatory state; monitoring the landing platform to generate a monitoring signal in response to the landing preparatory signal; and determining whether to control the UAV to enter into a landing mode based on the monitoring signal.

Abstract: A method and an apparatus for controlling an unmanned aerial vehicle (UAV) are provided. The UAV comprises at least one rotor. The method includes: receiving a take-off preparatory signal instructing the UAV to enter into a take-off preparatory state; controlling the at least one rotor of the UAV to rotate at a preset rotation speed in response to the take-off preparatory signal, wherein the preset rotation speed is smaller than a rotation speed that enables the UAV to hover in the air; and controlling the UAV to enter into a hovering mode under a predetermined condition, wherein the UAV is controlled to hover at a predetermined height in the hovering mode.

Abstract: A flight monitoring system comprises a first set of flight-status detecting sensors comprising a first-type sensor A1 for providing a first-type measurement result and a second-type sensor A2 for providing a second-type measurement result; a second set of flight-status detecting sensors comprising a first-type sensor B1 for providing a first-type measurement result and a second-type sensor B2 for providing a second-type measurement result.