A flapping-wing aircraft includes a support frame, a motor coupled to the support frame, a pair of wings coupled to the support frame, and a linkage assembly coupled to the support frame and configured to translate an output torque of the motor into flapping motion of the wings, wherein the linkage assembly includes a first link coupled to a rotational output of the motor, a second link pivotably coupled to the first link at a first pivot joint, a third link pivotably coupled to the second link at a second pivot joint, and a fourth link pivotably coupled to the support frame and slidably coupled to the third link, and wherein the fourth link is coupled to a first wing of the pair of wings.

A flapping-wing aircraft includes a support frame, a motor coupled to the support frame, a pair of wings coupled to the support frame, and a linkage assembly coupled to the support frame and configured to translate an output torque of the motor into flapping motion of the wings, wherein the linkage assembly includes a first link coupled to a rotational output of the motor, a second link pivotably coupled to the first link at a first pivot joint, a third link pivotably coupled to the second link at a second pivot joint, and a fourth link pivotably coupled to the support frame and slidably coupled to the third link, and wherein the fourth link is coupled to a first wing of the pair of wings.

Towed aerodynamic platforms approach the behavior of flat plate airfoils to achieve high lift-to-drag (L:D) performance when operated at low pitch angles. A lead aircraft may tow multiple platforms to form train units. Low form drag and high L:D enable solar aircraft that are more robust and faster than approaches extending wingspan rather than extending the length of the aerial train. Applications extend beyond solar aircraft and include vehicles towed along an overhead monorail system and aerial drones.

This invention is to provide a method to entirely and effectively shade fixed tracts of land, such as school yard or athletics stadium, etc., with no roof, pole to support roof, or the like. To fix a sheet to multiple flying objects so that such sheet forms a fixed size of surface and make such flying objects fly in accordance with flying positions (including heights) decided based on elements, such as positions of the sun, etc.

A gravity simulation system, including a computing system running a program thereon to receive input for a gravity environment and calculate the gravity environment based on a predetermined gravity algorithm, and a gravity simulation aircraft connected to the computing system to simulate the gravity environment received from the computing system based on at least one of a flight setting and a gravity setting.

A gravity simulation system, including a computing system running a program thereon to receive input for a gravity environment and calculate the gravity environment based on a predetermined gravity algorithm, and a gravity simulation aircraft connected to the computing system to simulate the gravity environment received from the computing system based on at least one of a flight setting and a gravity setting.

The invention relates to the field of aeronautical engineering, specifically to convertiplanes. A convertiplane comprises a fuselage, a control system, aerodynamic outer wings with aerodynamic control surfaces, an all-moving foreplane with aerodynamic control surfaces, a tail plane, and propulsion systems with propellers. The propulsion systems with propellers are arranged rotatably on tips of the foreplane and on the tail plane. The convertiplane is designed to permit the aerodynamic centre of pressure and the resultant thrust vector to coincide. The convertiplane is designed to permit the mutual dynamic and static scalar control thereof by operating the aerodynamic control surfaces and thrust vectoring of each of the propulsion systems. The propulsion systems arranged on the tips of the foreplane are capable of counterrotation of the propeller and are capable of dynamically displacing the centre of pressure and are also capable of displacing the axis of rotation of the front propulsion systems in the ZX plane. The propulsion systems have an axial degree of freedom, and are also capable of independently of one another controlling thrust vectoring and revolutions by controlling the pitch angle of the blades and the diameter thereof.

The present invention is an Electric servo system which controls and automates gate openings based on GPS speed and position data that results in precise and reliable modern variable and constant rate application. The Electric servo system also allows for Mechanical gate linkages to remain intact, resulting in few changes to the aircraft and redundancy of emergency components. A Mechanical input connect/disconnect is used to effortlessly transfer between the automated Electric servo system and the Mechanical gate system.

The present invention is an Electric servo system which controls and automates gate openings based on GPS speed and position data that results in precise and reliable modern variable and constant rate application. The Electric servo system also allows for Mechanical gate linkages to remain intact, resulting in few changes to the aircraft and redundancy of emergency components. A Mechanical input connect/disconnect is used to effortlessly transfer between the automated Electric servo system and the Mechanical gate system.

A system for managing the deceleration of an aircraft enabling the control in real time of the position of the aircraft on a braking axis, includes a braking system; a calculator configured to: calculate, from aircraft data and from external data, a sequence of use of the braking system intended to brake the aircraft over a predetermined braking distance which associates a predetermined position on the braking axis with each braking instant; update in real time the sequence of use as a function of the difference between the position of the aircraft and the predetermined position; and a controller configured to control the braking system as a function of the sequence of use.