Title :
On the exact solutions of pseudorange equations
Author :
Chaffee, James ; Abel, Jonathan
Author_Institution :
J. Chaffee & Associates, Austin, TX, USA
fDate :
10/1/1994 12:00:00 AM
Abstract :
Three formulations of exact solution algorithms to the system of determined pseudorange equations are derived. It is demonstrated that pseudorange equations are hyperbolic in nature and may have two solutions, even when the emitter configuration is nonsingular. Conditions for uniqueness and for the existence of multiple solutions are derived in terms of the Lorentz inner product. The bifurcation parameter for systems of pseudorange equations is also expressed in term of the Lorentz functional. The solution is expressed as a product of the geometric dilution of precision (GDOP) matrix, representing the linear part of the solution, and a vector of nonlinear term. Using this formulation stability of solutions is discussed
Keywords :
computational geometry; convergence of numerical methods; functional equations; hyperbolic equations; matrix algebra; radionavigation; satellite relay systems; Bancroft´s algorithm; GPS; Lorentz bilinear functional; Lorentz inner product; bifurcation parameter; emitter configuration; formulation stability; geometric dilution; hyperbolic equations; linear part; multiple solutions; nonlinear term; precision matrix; pseudorange equations; stability; uniqueness; Bifurcation; Difference equations; Geometry; Global Positioning System; Nonlinear equations; Satellites; Stability; Sufficient conditions; Technological innovation; Time difference of arrival;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
