A container for dropping from an aerial vehicle in flight comprises an upper wall, a lower wall, a plurality of side walls, and a plurality of air brakes comprising flat panels. A plurality of side air brakes, wherein each side air brake is connected to a corresponding side wall at or near an upper edge thereof, is freely pivotable around a side air brake pivot axis at or near the upper edge of the corresponding side wall from a passive position, in which the side air brake extends substantially parallel to the corresponding side wall, to a deployed position, in which the side air brake extends substantially transversely relative to the corresponding side wall, by air flowing between the side air brake and the corresponding side wall. A top air brake is connected, with one edge thereof, to the upper wall or one of the side walls, and configured to extend substantially transversely from the upper wall to tilt the container during dropping around a horizontal axis for pivoting the side air brakes from the passive position thereof to the deployed position thereof.

A spherical compartment is designed to hold a cargo or one or more individuals and absorbing impact as the spherical compartment is dropped from a height. The spherical compartment includes a frame with vertically oriented frame elements and at least one horizontally oriented frame element. The frame elements may be air beams; thus, the frame may be an air frame. The frame may carry a suspension system that suspends the payload within an interior of the spherical compartment. An outer skin affixed to the frame may impart the spherical compartment with low wind resistance. Methods of using the spherical compartment are also disclosed.

An inflatable unit load device that is used to deploy cargo from an aircraft is described herein. In some instances, the inflatable unit load device may include a bladder having one or more inflatable interior bladder cells and a top surface, the top surface of the bladder forming a rigid support surface when the bladder is inflated on which cargo can be loaded, an outer material that positions the one or more inflatable interior bladder cells of the bladder, and a cargo retaining system that retains the cargo on the top surface.

An inflatable unit load device that is used to deploy cargo from an aircraft is described herein. In some instances, the inflatable unit load device may include a bladder having one or more inflatable interior bladder cells and a top surface, the top surface of the bladder forming a rigid support surface when the bladder is inflated on which cargo can be loaded, an outer material that positions the one or more inflatable interior bladder cells of the bladder, and a cargo retaining system that retains the cargo on the top surface.

A container for dropping from an aerial vehicle comprises a bottom section and a plurality of side walls. Wings are connected to the upper edges of the side walls to allow pivoting of the wing between a passive position, in which the wing extends along the corresponding side wall, and a deployed position, in which the wing extends substantially transversely relative to the corresponding side wall. Reinforcing units increase the bending stiffness of the wings. Retaining units limit pivoting of the wings beyond the deployed position.

A container for dropping from an aerial vehicle comprises a bottom section and a plurality of side walls. Wings are connected to the upper edges of the side walls to allow pivoting of the wing between a passive position, in which the wing extends along the corresponding side wall, and a deployed position, in which the wing extends substantially transversely relative to the corresponding side wall. Reinforcing units increase the bending stiffness of the wings. Retaining units limit pivoting of the wings beyond the deployed position.

An inflatable unit load device that is used to deploy cargo from an aircraft is described herein. In some instances, the inflatable unit load device may include a bladder having one or more inflatable interior bladder cells and a top surface, the top surface of the bladder forming a rigid support surface when the bladder is inflated on which cargo can be loaded, an outer material that positions the one or more inflatable interior bladder cells of the bladder, and a cargo retaining system that retains the cargo on the top surface.

An inflatable unit load device that is used to deploy cargo from an aircraft is described herein. In some instances, the inflatable unit load device may include a bladder having one or more inflatable interior bladder cells and a top surface, the top surface of the bladder forming a rigid support surface when the bladder is inflated on which cargo can be loaded, an outer material that positions the one or more inflatable interior bladder cells of the bladder, and a cargo retaining system that retains the cargo on the top surface.

The control device is configured to control an aerial vehicle that carries a carrying object and includes a sensor capable of measuring a ground surface temperature during flight. The control device acquires a ground surface temperature in an area where the carrying object is planned to be released, the ground surface temperature being measured by the sensor. And then, the control unit performs control regarding release of the carrying object in accordance with the ground surface temperature in the area.

The present invention relates to an aerially distributable communications device (ACCD) including one or more gyrochutes and communications module configured for wireless communication with external communication nodes. The communications module can be configured for mesh network type communication with similar aerially distributable communications device, or as a gateway type communications device to a wide area network such as a satellite network. The ACCD is for deployment in remote areas and/or areas where normal communications networks are down, such as disaster areas. The ACCD can be deployed from an aircraft or a spacecraft. The ACCD can further be configured with emergency equipment such as water purification equipment, power charging equipment, or the like.