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A system for sensing a force applied to an aircraft includes a first sensor, a second sensor, and a processor operative to define a first velocity vector as a function of a first velocity due to a rotation motion of the aircraft, define a second velocity vector as a function of a second velocity due

A system for sensing a force applied to an aircraft includes a first sensor, a second sensor, and a processor operative to define a first velocity vector as a function of a first velocity due to a rotation motion of the aircraft, define a second velocity vector as a function of a second velocity due to the rotation motion of the aircraft, define an instant axis of rotation of the aircraft as a function of the first velocity vector and the second velocity vector, determine whether a force has been exerted on a first portion of the aircraft, and output an indication that a force has been exerted on the first portion of the aircraft responsive to determining that the force has been exerted on the first portion of the aircraft.

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1. A method for sensing a force applied to an aircraft, the method comprising: defining, at a processor, a first velocity vector as a function of a first velocity due to a rotation motion of the aircraft;defining, at the processor, a second velocity vector as a function of a second velocity due to t

1. A method for sensing a force applied to an aircraft, the method comprising: defining, at a processor, a first velocity vector as a function of a first velocity due to a rotation motion of the aircraft;defining, at the processor, a second velocity vector as a function of a second velocity due to the rotation motion of the aircraft;defining, at the processor, an instant axis of rotation of the aircraft as a function of the first velocity vector and the second velocity vector;determining, at the processor, whether a force has been exerted on a first portion of the aircraft; andoutputting an indication that a force has been exerted on the first portion of the aircraft responsive to determining that the force has been exerted on the first portion of the aircraft;wherein the defining the instant axis of rotation includes defining the instant axis of rotation as a line of intersection between a first plane perpendicular to the first velocity vector and a second plane perpendicular to the second velocity vector, wherein the first plane is not parallel to the second plane. 2. The method of claim 1, wherein the method further includes determining whether a rate of change of orientation of the aircraft satisfies a minimum rotation norm prior to defining the first and second velocity vectors. 3. The method of claim 2, wherein the method further includes determining whether a norm of an acceleration due to the rotation motion of the aircraft is greater than a minimum acceleration norm threshold value responsive to determining whether the rate of change of orientation of the aircraft satisfies the minimum rotation norm. 4. The method of claim 1, wherein the method further includes receiving a first signal from a first sensor indicative of a velocity of the aircraft, an acceleration of the aircraft, and a rate of change of orientation of the aircraft. 5. The method of claim 1, wherein the first velocity vector is associated with a first sensor, and the second velocity vector is associated with a second sensor. 6. The method of claim 5, wherein the instant axis of rotation of the aircraft is further defined as a function of a position of the first sensor and a position of the second sensor. 7. The method of claim 1, wherein the first portion of the aircraft includes a landing gear assembly. 8. A method for sensing a force applied to an aircraft, the method comprising: defining, at a processor, a first velocity vector as a function of a first velocity due to a rotation motion of the aircraft;defining, at the processor, a second velocity vector as a function of a second velocity due to the rotation motion of the aircraft;defining, at the processor, an instant axis of rotation of the aircraft as a function of the first velocity vector and the second velocity vector;determining, at the processor, whether a force has been exerted on a first portion of the aircraft; andoutputting an indication that a force has been exerted on the first portion of the aircraft responsive to determining that the force has been exerted on the first portion of the aircraft;wherein the determining whether a force has been exerted on a portion of the aircraft includes:calculating a distance between the first portion of the aircraft and the instant axis of rotation;calculating a distance between a center of gravity of the aircraft and the instant axis of rotation;determining whether the distance between the first portion of the aircraft and the instant axis of rotation is a minimum of an set of axis of rotation distance values, and whether the distance between the portion of the aircraft and the instant axis of rotation is less than a gear-axis-distance threshold value; anddetermining whether the distance between a center of gravity of the aircraft and the instant axis of rotation exceeds the gear-axis-distance threshold value. 9. A system for sensing a force applied to an aircraft comprising: a first sensor;a second sensor; anda processor operative to define a first velocity vector as a function of a first velocity due to a rotation motion of the aircraft, define a second velocity vector as a function of a second velocity due to the rotation motion of the aircraft, define an instant axis of rotation of the aircraft as a function of the first velocity vector and the second velocity vector, determine whether a force has been exerted on a first portion of the aircraft, and output an indication that a force has been exerted on the first portion of the aircraft responsive to determining that the force has been exerted on the first portion of the aircraft;wherein the defining the instant axis of rotation includes defining the instant axis of rotation as a line of intersection between a first plane perpendicular to the first velocity vector and a second plane perpendicular to the second velocity vector, wherein the first plane is not parallel to the second plane. 10. The system of claim 9, wherein the processor is further operative to determine whether a rate of change of orientation of the aircraft satisfies a minimum rotation norm prior to defining the first and second velocity vectors. 11. The system of claim 10, wherein the processor is further operative to determine whether a norm of an acceleration due to the rotation motion of the aircraft is greater than a minimum acceleration norm threshold value responsive to determining whether the rate of change of orientation of the aircraft satisfies the minimum rotation norm. 12. The system of claim 9, wherein the processor is further operative to receive a first signal from the first sensor indicative of a velocity of the aircraft, an acceleration of the aircraft, and a rate of change of orientation of the aircraft. 13. The system of claim 9, wherein the first velocity vector is associated with a first sensor, and the second velocity vector is associated with a second sensor. 14. The system of claim 13, wherein the instant axis of rotation of the aircraft is further defined as a function of a position of the first sensor and a position of the second sensor. 15. The system of claim 9, wherein the first portion of the aircraft includes a landing gear assembly. 16. A system for sensing a force applied to an aircraft comprising: a first sensor;a second sensor; anda processor operative to define a first velocity vector as a function of a first velocity due to a rotation motion of the aircraft, define a second velocity vector as a function of a second velocity due to the rotation motion of the aircraft, define an instant axis of rotation of the aircraft as a function of the first velocity vector and the second velocity vector, determine whether a force has been exerted on a first portion of the aircraft, and output an indication that a force has been exerted on the first portion of the aircraft responsive to determining that the force has been exerted on the first portion of the aircraft;wherein the determining whether a force has been exerted on a portion of the aircraft includes:calculating a distance between the first portion of the aircraft and the instant axis of rotation;calculating a distance between a center of gravity of the aircraft and the instant axis of rotation;determining whether the distance between the first portion of the aircraft and the instant axis of rotation is a minimum of a set of axis of rotation distance values, and whether the distance between the portion of the aircraft and the instant axis of rotation is less than a gear-axis-distance threshold value; anddetermining whether the distance between a center of gravity of the aircraft and the instant axis of rotation exceeds the gear-axis-distance threshold value.