Systems, and methods are provided herein for UAV video broadcasting. A method for video broadcasting may comprise: receiving broadcast data from a broadcasting end, wherein the broadcast data comprises video data collected by a plurality of unmanned aerial vehicles (UAVs), and wherein said UAVs are configured to be (1) operated in a coordinated manner and (2) in communication with one or more ground stations; receiving a user input from a viewing end, wherein the user input comprises one or more instructions configured for interacting with the broadcasting end; processing the user input from the viewing end; and transmitting the processed user input to the broadcasting end to adjust video broadcasting at the broadcasting end.

Provided is a system for visualizing an image, including: (i) one or more parking stations; (ii) unmanned aerial vehicles which are accommodated in the parking stations and each of which is provided with at least one display; (iii) a control device communicatively coupled to the unmanned aerial vehicles and configured to direct at least a portion of the unmanned aerial vehicles from at least one of the parking stations to a predetermined region of space so as to enable disposition of each of the directed unmanned aerial vehicles in a predetermined spatial location in accordance with a predetermined model of arrangement of unmanned aerial vehicles to form in the air at least one aggregate display of the displays; wherein the control device is configured to present data relating to an image to the directed unmanned aerial vehicles so as to enable displaying of the image at least on a portion of the aggregate display, and the unmanned aerial vehicles whose displays form the aggregate display define at least one movable string of unmanned aerial vehicles as part of the aggregate display.

A system for assisting a maneuver of a moving object is provided. The system includes a plurality of unmanned aerial vehicles, and a computing device comprising a controller configured to: identify a maneuver location of the moving object based on location information associated with the moving object, determine one or more unmanned aerial vehicles among the plurality of unmanned aerial vehicles based on a proximity of the maneuver location and the plurality of unmanned aerial vehicles, dispatch the one or more unmanned aerial vehicles to the maneuver location, and transmit an instruction signal to the one or more unmanned aerial vehicles, wherein the instruction signal causes the one or more unmanned aerial vehicles to generate an indication configured to assist one or more vehicles approaching the maneuver location.

A packaging system for a plurality of drones is disclosed herein. The packaging system is designed for drones, which include a plurality of downward facing propellers and a drone body configured operatively below the plurality of downward facing propellers in a downwardly extending configuration. The packaging system comprises a primary container; and a plurality of secondary containers for holding ten of the drones therein, wherein the secondary containers have dimensions for facilitating accommodation of nine of the secondary containers in the primary container.

A plurality of UAVs may be operated in a fleet, each of the UAVs in the fleet being configured to work collectively to achieve one or more functions, such as to create a display or implement an antenna array. The fleet of UAVs may operate individually and/or may be coupled to one another to operate as a collective unit. In some embodiments, one or more UAVs in the fleet may operate individually, while two or more UAVs in the fleet may be connected to one another. In such embodiments, the individual UAVs and the connected UAVs may together comprise the fleet.

A system and method for participating in a multi-USV performance in three-dimensional space. The USV can include: a computer processor; a sensory device configured to detect live sensory information relative to a second USV participating in the performance in proximity to the USV; and a spatial control module executing on the computer processor and configured to enable the computer processor to: (i) receive instructions for performing a pre-determined sequence of spatial maneuvers of the performance; (ii) begin execution of the pre-determined sequence of spatial maneuvers according to the instructions; (iii) identify a modified sequence of spatial maneuvers calculated based on the live sensory information from the sensory device; (iv) halt execution of the pre-determined sequence of spatial maneuvers; and/or (v) execute the modified sequence of spatial maneuvers.

A node (121-123) of a wireless communications network (120) and an aerial vehicle (110), such as an Unmanned Aerial Vehicle (UAV), a drone, an aircraft, or a helicopter, comprising a communications module (111) are provided. The node is operative, in response to detecting that the aerial vehicle enters a pre-defined geographical region (221-227) within a coverage area of the wireless communications network, to transmit a cell broadcast message (126; 201-204) to the aerial vehicle. The aerial vehicle is operative to receive the cell broadcast message from an access node (121) of the wireless communications network, and, in response thereto, correct its flight path (211-214) based on the received cell broadcast message. Preferably, the cell broadcast message comprises at least one, or a combination, of an instruction, a limitation, a restriction, a direction or a change thereof, a bearing or a change thereof, an altitude or a change thereof, an aerial vehicle type, and an aerial vehicle identity.

The disclosure herein includes a drone assembly, including: a drone; a screen; and a strut that may have a first portion and a second portion, and a strut having a first portion coupled to the drone and a second portion coupled to the screen.

Herein is disclosed an unmanned aerial vehicle segment-imagery system comprising at least a first unmanned aerial vehicle and a second unmanned aerial vehicle, the first unmanned aerial vehicle further comprising one or more processors, configured to control an aerial movement of the first unmanned aerial vehicle; one or more lasers, configured to emit a laser light; and a laser targeting system, configured to cause the laser to strike a second unmanned aerial vehicle.

The present invention is directed to Wireless Vehicle/Drone Alert and Public Announcement System that creates a means for an individual to communicate with people outside their vehicle along with being able to emit preprogramed sounds from the front, back or sides by using directional buttons, or a four or eight position directional controlling joystick, to make people aware of their presence or intentions. Additionally, a user with a smartphone, using a preprogramed mobile smartphone application (APP) in the vehicle, has the ability to direct and activate the vehicle engine compartment module or a drone activation module to make customizable audio message transmissions. Drones can be deployed on streets, into houses, stores, buildings and around public places to alert people there of dangerous conditions.