Systems and methods for secure transfer of printed documents from a print device to a user are disclosed. The systems may include a print device and a drone. The print device may also include an output tray configured to receive documents processed by the print device. The system may receive a print request from the user and determine whether the print request will result in a printed document that should be kept confidential. If printed document that should be kept confidential, the system may generate and transmit a first authentication information to the user. The system may then cause the print device to execute the print request and output the printed document to the output tray. A drone may then transfer the printed document from the print device to the user, and authenticate the user before allowing the user to access the printed document.

Systems and methods for secure transfer of printed documents from a print device to a user are disclosed. The systems may include a print device and a drone. The print device may also include an output tray configured to receive documents processed by the print device. The system may receive a print request from the user and determine whether the print request will result in a printed document that should be kept confidential. If printed document that should be kept confidential, the system may generate and transmit a first authentication information to the user. The system may then cause the print device to execute the print request and output the printed document to the output tray. A drone may then transfer the printed document from the print device to the user, and authenticate the user before allowing the user to access the printed document.

A sorting system has a sorting area and a controller system that receives luggage-related sorting information for each piece of luggage. A transport mechanism transports the luggage into a sorting area which includes a sorting area with at least one make-up-place connected to the transport mechanism. The make-up-place sorts the luggage according to at least one item of luggage-related sorting information. Movable load devices receive the pieces of luggage sorted by the at least one make-up-place. The controller system assigns each piece of luggage according to at least one luggage-related information to a particular movable load device and the controller system is also adapted to select a make-up-place for each piece of luggage and to send the piece of luggage to the selected make-up-place to be loaded into the assigned movable load device.

A sorting system has a sorting area and a controller system that receives luggage-related sorting information for each piece of luggage. A transport mechanism transports the luggage into a sorting area which includes a sorting area with at least one make-up-place connected to the transport mechanism. The make-up-place sorts the luggage according to at least one item of luggage-related sorting information. Movable load devices receive the pieces of luggage sorted by the at least one make-up-place. The controller system assigns each piece of luggage according to at least one luggage-related information to a particular movable load device and the controller system is also adapted to select a make-up-place for each piece of luggage and to send the piece of luggage to the selected make-up-place to be loaded into the assigned movable load device.

A landing pad for an unmanned aerial vehicle (“UAV”) is disclosed. The landing pad includes a support structure, a charging pad, and a plurality of movable UAV supports. The charging pad is coupled to the support structure and able to move relative to the support structure. The UAV supports are also coupled to the support structure and configured to translate along the support structure from a first position to a second position. When the UAV supports are in the first position, the charging pad supports the UAV. When the UAV supports are in the second position, the charging pad is lowered and the UAV supports then provide support to the UAV.

A landing pad for an unmanned aerial vehicle (“UAV”) is disclosed. The landing pad includes a support structure, a charging pad, and a plurality of movable UAV supports. The charging pad is coupled to the support structure and able to move relative to the support structure. The UAV supports are also coupled to the support structure and configured to translate along the support structure from a first position to a second position. When the UAV supports are in the first position, the charging pad supports the UAV. When the UAV supports are in the second position, the charging pad is lowered and the UAV supports then provide support to the UAV.

A containment unit that facilitates delivery of parcels using drones is provided. An example containment unit comprises an inner housing unit and an outer housing unit. The inner housing unit includes a first and second sidewall that are connected by an end piece and have a bottom opening in between. The inner housing unit is movable from a retracted position over a floor of the containment unit to an extended position, where a portion of the opening is extended beyond the floor. A parcel may be inserted into a volume of space within the inner housing unit from below through the opening and pulled into the containment unit by the end piece when the inner housing unit is retracted. The containment unit can be used as part of a drone delivery system that can also include an elevated delivery platform, a computer application, or any combination of these aspects.

A containment unit that facilitates delivery of parcels using drones is provided. An example containment unit comprises an inner housing unit and an outer housing unit. The inner housing unit includes a first and second sidewall that are connected by an end piece and have a bottom opening in between. The inner housing unit is movable from a retracted position over a floor of the containment unit to an extended position, where a portion of the opening is extended beyond the floor. A parcel may be inserted into a volume of space within the inner housing unit from below through the opening and pulled into the containment unit by the end piece when the inner housing unit is retracted. The containment unit can be used as part of a drone delivery system that can also include an elevated delivery platform, a computer application, or any combination of these aspects.

Systems and methods include UAVs that serve to assist carrier personnel by reducing the physical demands of the transportation and delivery process. A UAV generally includes a UAV chassis including an upper portion, a plurality of propulsion members configured to provide lift to the UAV chassis, and a parcel carrier configured for being selectively coupled to and removed from the UAV chassis. UAV support mechanisms are utilized to load and unload parcel carriers to the UAV chassis, and the UAV lands on and takes off from the UAV support mechanism to deliver parcels to a serviceable point. The UAV includes computing entities that interface with different systems and computing entities to send and receive various types of information.

An unmanned aerial vehicle according to certain embodiments generally includes a chassis, a power supply mounted to the chassis, a control system operable to receive power from the power supply, at least one rotor operable to generate lift under control of the control system, and a winch mounted to the chassis. The winch includes a reel and a motor. The reel has a line wound thereon, the line having a free end. The reel includes a circumferential channel in which a wound portion of the line is wound onto the reel. The circumferential channel includes an inner portion, an outer portion, and a passage connecting the inner portion and the outer portion. The motor is operable to rotate the reel under control of the control system to thereby cause the line to wind onto and off of the reel, thereby causing the free end of the line to raise and lower.