Method of determining relative orientation of physical systems
First Claim
1. A method for obtaining information from which an attitude matrix can be derived which is representative of the relationship of the coordinate systems of at least two separate physical systems comprisingsensing first and second beam vectors the apparent direction of which can be sensed at all of said physical systems,actively measuring at one of said physical systems the directional components of said first beam vector in the coordinate system of said one physical system,actively measuring at another of said physical systems the directional components of said first beam vector in the coordinate system of said other physical system, said measuring being accomplished simultaneously with the preceding measuring step,actively measuring at said one physical system the directional components of said second beam vector in the coordinate system of said one physical system,actively measuring at said other physical system the directional components of said second beam vector in the coordinate system of said other physical system, said measuring being accomplished simultaneously with the immediately preceding step,communicating from both of said physical systems data representative of the measurements at said physical systems to a central processing means, anddeveloping said attitude matrix from data derived from both of said physical systems.
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Abstract
A method and system are provided to determine the relative orientation of o physical systems (i.e., assemblages of equipment which share a common, locally defined coordinate system). Two distinct beam vectors (i.e. fixed directions in three dimensional space) are simultaneously resolved by each physical system into their apparent vector components. This set of four apparent vectors is sufficient to uniquely and accurately define the transformation matrix relating the local coordinate system of the two physical systems and thus their relative orientation.
Applications of the disclosed method and system relate to situations where observations made in one physical system are to be correlated with or acted upon by the other physical system.
43 Citations
4 Claims
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1. A method for obtaining information from which an attitude matrix can be derived which is representative of the relationship of the coordinate systems of at least two separate physical systems comprising
sensing first and second beam vectors the apparent direction of which can be sensed at all of said physical systems, actively measuring at one of said physical systems the directional components of said first beam vector in the coordinate system of said one physical system, actively measuring at another of said physical systems the directional components of said first beam vector in the coordinate system of said other physical system, said measuring being accomplished simultaneously with the preceding measuring step, actively measuring at said one physical system the directional components of said second beam vector in the coordinate system of said one physical system, actively measuring at said other physical system the directional components of said second beam vector in the coordinate system of said other physical system, said measuring being accomplished simultaneously with the immediately preceding step, communicating from both of said physical systems data representative of the measurements at said physical systems to a central processing means, and developing said attitude matrix from data derived from both of said physical systems.
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4. A method for obtaining information from which an attitude matrix can be derived which is representative of the relationship of the coordinate systems of at least two separate physical systems comprising
sensing first and second beam vectors the apparent direction of which can be sensed at all of said physical systems, the second beam vector being the polarization direction of an optical beam, actively measuring at one of said physical systems the directional components of said first beam vector in the coordinate system of said one physical system, actively measuring at another of said physical systems the directional components of said first beam vector in the coordinate system of said other physical system, said measuring being accomplished simultaneously with the preceding measuring step, actively measuring at said one physical system with polarization detection means the directional components of said second beam vector in the coordinate system of said one physical system, measuring at said other physical system with polarization defining means the directional components of said second beam vector in the coordinate system of said other physical system, said measuring being accomplished simultaneously with the immediately preceding step, communicating from both of said physical systems data representative of the measurements at said physical systems to a central processing means, and developing said attitude matrix from data derived from both of said physical systems.
Specification