A method for loading an Unmanned Aerial Vehicle with one or more items is disclosed. The method includes obtaining a Center of Gravity of each of the one or more items and at least one physical characteristic of each of the one or more items. The method also includes categorizing each of the one or more items based on the obtained Center of Gravity and the at least one physical characteristic of the one or more items. The method further includes selecting, for each of the one or more items, one of a plurality of Unmanned Aerial Vehicles to transport the corresponding one or more items based on the categorization of each of the one or more items.

A payload retrieval apparatus including a structure having an outwardly facing portion, a payload support member adapted for having a payload positioned thereon, one or more magnets or a metal positioned on or within the outwardly facing portion of the structure adapted to magnetically engage one or more magnets or a metal positioned on a payload retriever attached to a tether suspended from a UAV, wherein when the payload is positioned on the payload support member, the payload support member is movable to position a handle of the payload adjacent the one or more magnets or the metal on or within the outwardly facing portion of the structure.

An unmanned aerial vehicle (UAV) is disclosed that includes a retractable payload delivery system. The payload delivery system can lower a payload to the ground using a delivery device that secures the payload during descent and releases the payload upon reaching the ground. The location of the delivery device can be determined as it is lowered to the ground using image tracking. The UAV can include an imaging system that captures image data of the suspended delivery device and identifies image coordinates of the delivery device, and the image coordinates can then be mapped to a location. The UAV may also be configured to account for any deviations from a planned path of descent in real time to effect accurate delivery locations of released payloads.

The invention relates to an unmanned aerial vehicle having a dropping device (20) for a first load (21) and a second load (22). The dropping device (20) comprises an actuation element (31) which performs a first movement in order to drop the first load (21) and which performs a second movement in order to drop the second load (22). The invention also relates to an associated method.

An unmanned aerial vehicle (UAV) including a winch system, wherein the winch system includes a single winch line, wherein a payload is suspended from a first end of the winch line, and the winch system is controllable to vary the rate of ascent of the payload to the UAV, and a control system including a processor and program instructions stored in a non-transitory computer readable medium and executable by the processor to control the winch, the control system configured to (a) receive data regarding oscillations of the payload, and (b) operate the winch system to vary a retraction rate of the winch line to damp oscillations of the payload during ascent of the payload to the UAV.

A payload coupling apparatus is provided including a housing, wherein the housing is adapted for attachment to a first end of a tether, a slot extending downwardly from an outer surface of the housing towards a center of the housing thereby forming a lower tip on the housing beneath the slot, and wherein the slot is adapted to receive a handle of a payload. A method of delivering a payload using the payload coupling apparatus is also provided.

An unmanned aerial vehicle system is provided including an unmanned aerial vehicle (UAV) having a fuselage, a tether having a first end secured to a winch system positioned in the UAV and a second end secured to a payload coupling apparatus, a payload coupling apparatus receptacle positioned in the fuselage of the UAV, a payload having a handle, wherein the handle of the payload is positioned within a slot in the payload coupling apparatus. A method of securing a payload to a UAV is also provided.

Described herein are apparatuses for passively releasing a payload of an unmanned aerial vehicle (UAV). An example apparatus may include, among other features, (i) a housing; (ii) a swing arm coupled to the housing, wherein the swing arm is operable to toggle between an open position and a closed position; (iii) a spring mechanism adapted to exert a force on the swing arm from the open position toward the closed position; (iv) a receiving system of a UAV adapted to receive the housing, wherein the receiving system causes the swing arm to be arranged in the open position; and (v) a spool operable to unwind and wind a tether coupled to the housing, wherein unwinding the tether causes a descent of the housing from the receiving system, and wherein winding the tether causes an ascent of the housing to the receiving system.

A method for passive aerial cord release mechanisms and an aerial cord release mechanism for an aerial vehicle (AV). A method includes determining a retracting force to be applied to a winch of an aerial vehicle (AV), wherein the determined retracting force is a force required to retract a cord to be coiled around the winch within the AV, and the cord is temporarily coupled to the winch, such that an external force exceeding a predetermined threshold causes decoupling between the cord and the winch.

A system to maintain a phase difference is disclosed. Two or more aircraft fly in a continuous periodic trajectory. The system maintains a phase difference between the two or more aircraft. Telemetry information for a reference aircraft moving in a first periodic trajectory is received. A phase difference between a primary aircraft and the reference aircraft with respect to the first periodic trajectory is determined. A variance in the phase difference between the primary aircraft and the reference aircraft from the target phase difference is determined. A new trajectory for the primary aircraft that decreases the variance in the phase difference with respect to the new periodic trajectory is determined, and the primary aircraft is maneuvered to follow the new trajectory.