The present invention relates to a hang glider coupled to electric fan motor for providing thrust while flying and thus providing extra safety to the hang glider. Herein, the electric fan motor of hang glider consists of rechargeable batteries which get charged either through solar panels or get charged kinetically. The electric fan motors coupled at various positions of hang glider and controlled by the throttles, provides proper thrust to the hang glide to move and the rechargeable batteries of the electric fan motor enables the glider to soar continuously for many hours.

An arrangement of a structural element for an aerospace vehicle and a battery set. The structural element extends along a longitudinal direction and has a main web, a first flange and a second flange. The flanges extend away from the main web and are defined by flange edges extending along the longitudinal direction. The first flange, the second flange and the main web form a U-shaped profile defining a cavity. The battery set includes a baseplate and at least one battery on the baseplate. The structural element and the battery set are formed such that the baseplate can be releasably attached to the structural element. The baseplate extends between flange edges and the battery is received in the cavity when the battery set is mounted to the structural element. Further, an aerospace vehicle including such an arrangement, a structural element for an aerospace vehicle and a battery set are disclosed.

A plant growth measurement and prediction system uses drone-captured images to measure the current growth of particular plant species and/or to predict future growth of the plant species. For example, the system instructs a drone to fly along a flight path and capture images of the land below. The captured images may include both thermographic images and high-resolution images. The system processes the images to create an orthomosaic image of the land, where each pixel in the orthomosaic image is associated with a brightness temperature. The system then uses plant species to brightness temperature mappings and the orthomosaic image to identify current plant growth. The system generates a diagnostic model using the orthomosaic image to then predict future plant growth.

A powered air vehicle is disclosed. The air vehicle includes a parachute/parafoil or similar lifting body, with a frame structure suspended vertically below the parachute and comprising of all propulsion and flight control systems generally at the upper end of the frame structure. In one embodiment, a propulsion source is mounted on top of the frame structure, which also house the battery module, main parafoil/parachute system, flight control systems, and structure for carrying an individual user below the propulsion source. Control arms control pitch of the propulsion source to control altitude, and are also used to control direction.

A powered air vehicle is disclosed. The air vehicle includes a parachute/parafoil or similar lifting body, with a frame structure suspended vertically below the parachute and comprising of all propulsion and flight control systems generally at the upper end of the frame structure. In one embodiment, a propulsion source is mounted on top of the frame structure, which also house the battery module, main parafoil/parachute system, flight control systems, and structure for carrying an individual user below the propulsion source. Control arms control pitch of the propulsion source to control altitude, and are also used to control direction.

An aircraft includes a wing which is configured to provide lift during a wing-borne mode of flight and a stoppable rotor which includes a first blade and a second blade. The stoppable rotor is configured to rotate about a vertical axis of rotation during a hover mode of flight and stop with the first blade pointing forward and the second blade pointing backward at least some of the time during the wing-borne mode of flight. The aircraft also includes a combination rotor which rotates about a longitudinal axis of rotation in a first direction at least some of the time during the hover mode of flight and in a second direction at least some of the time during the wing-borne mode of flight.

An aircraft includes a wing which is configured to provide lift during a wing-borne mode of flight and a stoppable rotor which includes a first blade and a second blade. The stoppable rotor is configured to rotate about a vertical axis of rotation during a hover mode of flight and stop with the first blade pointing forward and the second blade pointing backward at least some of the time during the wing-borne mode of flight. The aircraft also includes a combination rotor which rotates about a longitudinal axis of rotation in a first direction at least some of the time during the hover mode of flight and in a second direction at least some of the time during the wing-borne mode of flight.

A propulsion system for an aircraft may include two coaxial propellers to operate in two different flight conditions. Each propeller may be attached to a driveshaft via corresponding one-way devices that allow each propeller to be driven in one direction but spin freely in the other direction. A reversible motor may selectively rotate the driveshaft in one direction to cause one propeller to operate while the other spins freely. For example, one propeller may be operated for one flight condition (such as vertical lift) and the other propeller may be operated for another flight condition (such as horizontal flight). Another propulsion system may include a propeller, a one-way bearing, a motor, and a generator. The one-way bearing may allow the motor to drive the propeller in one direction and to spin freely in the other direction to drive the generator with incoming airflow during a gliding phase of flight.

A plant growth measurement and prediction system uses drone-captured images to measure the current growth of particular plant species and/or to predict future growth of the plant species. For example, the system instructs a drone to fly along a flight path and capture images of the land below. The captured images may include both thermographic images and high-resolution images. The system processes the images to create an orthomosaic image of the land, where each pixel in the orthomosaic image is associated with a brightness temperature. The system then uses plant species to brightness temperature mappings and the orthomosaic image to identify current plant growth. The system generates a diagnostic model using the orthomosaic image to then predict future plant growth.

A stoppable rotor, which includes a first and second blade and rotates about a substantially vertical axis, is stopped with the first blade pointing forward and the second blade pointing backward while the aircraft is mid-flight. Anti-torque is provided using a set of one or more combination rotors in a first mode of operation in order to counter torque produced by the stoppable rotor when the stoppable rotor is rotating where the set of combination rotors rotate about a substantially longitudinal axis. Forward thrust is provided using the set of combination rotors in a second mode of operation when the stoppable rotor is not rotating.