A multi-imaging mobile, airborne sign system, printed or electronic, hosted aloft by multiple means of aircraft, including those lighter than air.

A multi-imaging mobile, airborne sign system, printed or electronic, hosted aloft by multiple means of aircraft, including those lighter than air.

Disclosed is a drone trailer system and associated methods. The system includes a control section, which maneuvers the drone, and a utility section, which may serve one or more functions. The utility section may be connected to an articulated joint, which may be connected to the control section. The articulated joint may be detachably or fixedly connected to the control section. The payload of the utility section may include an electronic sign, a printed sign, a solar panel, or a camera. A stabilization device may stabilize the utility section's movement relative to the utility section. Further, the stabilization device may allow a user to orient the utility section relative to the control section in two or more orientations. The articulated joint may allow the control section to pitch and roll, or, alternatively, pitch, roll, and yaw relative to the utility section.

A suspended system with orientation control. The system may have a frame, a sign attached to the frame, a plurality of sensors, at least two thrusters, and a microcontroller operatively coupled to the plurality of sensors and the thrusters. The frame is configured to be suspended from a support, and the sign is configured to display a graphic. The plurality of sensors is configured to track an orientation of the frame. The thrusters are configured to adjust the orientation of the frame. Each of the thrusters may have an axis oriented in a direction perpendicular to the frame. The microcontroller is configured to receive a selected orientation of the frame, receive the current orientation of the frame from the sensors, compare the orientation of the frame with the selected orientation, and control the thrusters to adjust the orientation of the frame into the selected orientation.

A suspended system with orientation control. The system may have a frame, a sign attached to the frame, a plurality of sensors, at least two thrusters, and a microcontroller operatively coupled to the plurality of sensors and the thrusters. The frame is configured to be suspended from a support, and the sign is configured to display a graphic. The plurality of sensors is configured to track an orientation of the frame. The thrusters are configured to adjust the orientation of the frame. Each of the thrusters may have an axis oriented in a direction perpendicular to the frame. The microcontroller is configured to receive a selected orientation of the frame, receive the current orientation of the frame from the sensors, compare the orientation of the frame with the selected orientation, and control the thrusters to adjust the orientation of the frame into the selected orientation.

A suspended system with orientation control. The system may have a frame, a sign attached to the frame, a plurality of sensors, at least two thrusters, and a microcontroller operatively coupled to the plurality of sensors and the thrusters. The frame is configured to be suspended from a support, and the sign is configured to display a graphic. The plurality of sensors is configured to track an orientation of the frame. The thrusters are configured to adjust the orientation of the frame. Each of the thrusters may have an axis oriented in a direction perpendicular to the frame. The microcontroller is configured to receive a selected orientation of the frame, receive the current orientation of the frame from the sensors, compare the orientation of the frame with the selected orientation, and control the thrusters to adjust the orientation of the frame into the selected orientation.

A suspended system with orientation control. The system may have a frame, a sign attached to the frame, a plurality of sensors, at least two thrusters, and a microcontroller operatively coupled to the plurality of sensors and the thrusters. The frame is configured to be suspended from a support, and the sign is configured to display a graphic. The plurality of sensors is configured to track an orientation of the frame. The thrusters are configured to adjust the orientation of the frame. Each of the thrusters may have an axis oriented in a direction perpendicular to the frame. The microcontroller is configured to receive a selected orientation of the frame, receive the current orientation of the frame from the sensors, compare the orientation of the frame with the selected orientation, and control the thrusters to adjust the orientation of the frame into the selected orientation.

Disclosed is a suspended system with orientation control including a planar frame, a plurality of sensors coupled to the frame and configured to track an orientation of the frame in real time and at least two thrusters coupled to the frame and configured to adjust the orientation of the frame. Each of the at least two thrusters may have an axis oriented in a direction perpendicular to the frame and two propellers axially aligned with the axis and configured to rotate in a same direction while creating thrust in opposite directions. A holographic fan configured to display a graphic may be coupled to the frame. The planar frame may be suspended from an unmanned aerial vehicle.

Disclosed is a suspended system with orientation control including a planar frame, a plurality of sensors coupled to the frame and configured to track an orientation of the frame in real time and at least two thrusters coupled to the frame and configured to adjust the orientation of the frame. Each of the at least two thrusters may have an axis oriented in a direction perpendicular to the frame and two propellers axially aligned with the axis and configured to rotate in a same direction while creating thrust in opposite directions. A holographic fan configured to display a graphic may be coupled to the frame. The planar frame may be suspended from an unmanned aerial vehicle.

A rechargeable drone apparatus or arrangement is provided. The rechargeable drone device includes a series of sensors configured to receive information about a user and transmit the information to a computing system configured to assess the information collected from the drone device and a set of securable compartments configured to maintain samples or medications, wherein the series of securable compartments are configured to be openable by an approved individual.