IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0566985
(2009-09-25)
|
등록번호 |
US-8243992
(2012-08-14)
|
우선권정보 |
FR-08 05315 (2008-09-26) |
발명자
/ 주소 |
- Rouzes, Siegfried
- Lacoste, Lilian
|
출원인 / 주소 |
|
대리인 / 주소 |
LaRiviere, Grubman & Payne, LLP
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
6 |
초록
▼
The electro-optical system for determining the attitude of a mobile part comprises a fixed part and a mobile part, the fixed part being linked rigidly with at least one virtual image plane. The mobile part is linked rigidly with at least one first linear electro-optical device defining a first direc
The electro-optical system for determining the attitude of a mobile part comprises a fixed part and a mobile part, the fixed part being linked rigidly with at least one virtual image plane. The mobile part is linked rigidly with at least one first linear electro-optical device defining a first direction vector, the calculation of the position of the vanishing point of the projection of the straight line comprising the first direction vector in the image plane determining a first direction, representing the direction of the mapping of the first direction vector in the image plane, and a first choice of a first point of the projection in the image plane of the straight line comprising the first direction vector determining a first sense, representing the sense of the mapping of the first direction vector in the image plane.
대표청구항
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1. Electro-optical system for determining the attitude of a mobile part comprising means for determining at least one direction of the said mobile part, the said system comprising a fixed part having a reference point (O) and a mobile part, the fixed part being linked rigidly with an image plane, wh
1. Electro-optical system for determining the attitude of a mobile part comprising means for determining at least one direction of the said mobile part, the said system comprising a fixed part having a reference point (O) and a mobile part, the fixed part being linked rigidly with an image plane, wherein the mobile part is linked rigidly with at least one first linear electro-optical device defining a first direction vector, the fixed part projecting in a first zone comprising the first electro-optical device, at least two networks of beams, whose intersection with a plane perpendicular to the mean axis of projection defines at least two networks of non-parallel straight lines, each of the networks of straight lines comprising at least three parallel segments, the beams intercepting the electro-optical device in at least two pairs of triples of points, the system comprising means for calculating a first calculation comprising the determination of the position of a first point (E) in the image plane on the basis of the positions of the six projections in the image plane of the two pairs of triples of points, the first point (E) corresponding to the vanishing point of the straight line comprising the first direction vector, the straight line comprising the reference point (O) and the first point (E) determining a first direction, the said direction representing the direction of the straight line comprising the first linear electro-optical device. 2. Electro-optical system for determining the attitude of a mobile part comprising means for determining at least one direction of the said mobile part according to claim 1, wherein the projection comprises a test grid comprising on the one hand a first network of beams of three first mutually parallel luminous segments, intercepting the sensor at three points (A1, B1, C1), and on the other hand a second network of beams of three mutually parallel luminous segments, intercepting the sensor at three other points (A2, B2, C2), the two networks of beams making an angle between themselves such that the form of the two networks of beams represents a broken line forming at least three sawteeth. 3. Electro-optical system for determining the attitude of a mobile part comprising means for determining at least one direction of the said mobile part according to claim 1, wherein the system successively projects two test grids comprising respectively a first and a second network of beams having the same characteristics, for which the orientation of the second network of beams with respect to the first network of beams forms a determined angle, the networks of beams having a sufficient width (D) to cover the zone of displacement of the sensor and comprising a determined number of parallel segments, for which the cross ratios of four consecutive segments are all different. 4. Electro-optical system for determining the attitude of a mobile part comprising means for determining at least one direction of the said mobile part according to one of claims 2 and 3, wherein a second electro-optical device is linked rigidly with the mobile part, the said second device defining a second direction vector, not collinear with the first direction vector, the position of the second device with respect to the first device being known in a benchmark frame linked with the mobile part, a third calculation of the position of a second point (F) arising from the projection in the image plane of the vanishing point of the straight line comprising the second direction vector, the straight line comprising the reference point (O) and the second point (F) determining a second direction, the said second direction representing the direction of the straight line comprising the second linear electro-optical device. 5. Electro-optical system for determining the attitude of a mobile part comprising means for determining at least one direction of the said mobile part according to claim 4, wherein the second linear electro-optical device being oriented by a second pair of points (K0, L0) situated on the second linear electro-optical device, a fourth calculation of the positions of the mappings (K, L) on the image plane of the second pair of points situated on the second linear electro-optical device (A0, B0) determines the sense of the said second linear electro-optical device in space by comparison of the order of alignment of the second pair of projected points (K, L) and of the second point (F) in the image plane. 6. Electro-optical system for determining the attitude of a mobile part according to claim 4, wherein the first calculation and/or the third calculation comprises the determination: of a point M(X, Y) belonging to the straight line comprising a linear electro-optical device;of a first quadruple of points defined by the mapping of the point M and of a first triple of points;of a second quadruple of points defined by the mapping of the point M and of a second triple of points;of the relative positions of the points of the two triples of points on an electro-optical device;of the position of the mapping in the image plane of the point M on the basis of the law of conservation of a cross ratio of a quadruple of points under a central projection;of the position of a vanishing point (E, F), corresponding to the mapping of the point M when the latter is considered positively at infinity on the straight line comprising an electro-optical device. 7. Electro-optical system for determining the attitude of a mobile part according to claim 6, wherein the mobile part undergoes a motion which decomposes into a rotation and a translation in space which are charted with respect to a reference position, the rotation of the mobile part in space being determined by the means for calculating a fifth calculation comprising: a first step of determining: a first normed direction vector {right arrow over (e0)} collinear with the vector formed by the first pair of points (A0, B0), corresponding to a known reference position of the first electro-optical device;a second normed direction vector {right arrow over (f0)} collinear with the vector formed by the second pair of points (K0, L0) corresponding to a known reference position of the second electro-optical device;a third normed vector {right arrow over (u0)}, the vector product of the first and second vector;a second step of calculating: the positions of the vanishing points E and F respectively of the straight lines comprising the image vector ({right arrow over (A′B′)}) by the rotation r of the first direction vector ({right arrow over (A0B0)}) and the image vector ({right arrow over (K′L′)}) by the rotation r of the second vector ({right arrow over (K0L)}0);the vectors {right arrow over (OE)} and {right arrow over (OF)};fourth and fifth normed vectors {right arrow over (e)} and {right arrow over (f)} collinear respectively with {right arrow over (OE)} and {right arrow over (OF)};a sixth normed vector {right arrow over (u)}, the vector product of the fourth and fifth vectors;a third step of determining the rotation r by the product of a first matrix formed of the first, second and third vectors and of the inverse of a second matrix formed of the fourth, fifth and sixth vectors, the analytical expression of the rotation being: r=[{right arrow over (e)};{right arrow over (f)};{right arrow over (u)}]·[{right arrow over (e0)};{right arrow over (f0)};{right arrow over (u0)}]−1. 8. Electro-optical system for determining the attitude of a mobile part according to claim 7, wherein the translation t is determined through the relation: {right arrow over (t)}=k{right arrow over (OA)}−r({right arrow over (OA0)}),where O is the reference point of the fixed part, A the mapping in the image plane of a known point of the first electro-optical device, denoted A0, and k is expressed in the following manner: k=(μ-1)A0B0OE,where E is the image of the vanishing point in the image plane and B0 is a second known point of the second linear electro-optical device, and μ is a known real expressed in the following manner: {right arrow over (AE)}={right arrow over (μAB)}. 9. Electro-optical system for determining the attitude of a mobile part comprising means for determining at least one direction of the said mobile part according to one of claims 2 and 3, wherein the linear electro-optical device being oriented by a first pair of points (A0, B0) situated on the electro-optical device, a second calculation of the positions of the mappings (A, B) of the first pair of points (A0, B0) on the image plane determines the sense of the said electro-optical device in space by comparison of the order of alignment of the first pair of projected points (A, B) and of the first point (E) in the image plane. 10. Electro-optical system for determining the attitude of a mobile part comprising means for determining at least one direction of the said mobile part according to one of claims 3 to 9, wherein the comparison of two successively calculated directions of a sensor determines a component of the motion of the mobile object in space. 11. Electro-optical system for determining the attitude of a mobile part comprising means for determining at least one direction of the said mobile part according to claim 3, wherein the electro-optical device is a linear sensor, the fixed part is a video image projector and the mobile object is a pilot helmet. 12. Pilot helmet according to claim 11, wherein it comprises at least two non-collinear linear electro-optical devices.
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