Title :
Voronoi cells, probabilistic bounds, and hypothesis testing in mixed integer linear models
Author_Institution :
Disaster Prevention Res. Inst., Kyoto Univ.
fDate :
7/1/2006 12:00:00 AM
Abstract :
Although real-valued linear models, whether or not of full rank, have been thoroughly investigated and are well documented, very little is known about statistical and probabilistic aspects of a mixed integer linear model, which arose from space geodesy and serves as the standard starting model for precise positioning using the global positioning system (GPS). Voronoi cells play a fundamental role in the least squares estimation of the integer unknowns of the model. In this paper, we first develop a method to construct Voronoi cells and study how to fit figures of simple shape to a Voronoi cell, both from inside and outside. We then derive a number of new lower and upper bounds on the probability that the integers of the model are correctly estimated. Finally, we discuss the tests of two hypotheses on the integer mean
Keywords :
Global Positioning System; computational geometry; geodesy; integer programming; least squares approximations; linear programming; probabilistic logic; GPS; Voronoi cell; global positioning system; hypothesis testing; least squares estimation; mixed integer linear model; probabilistic aspect; space geodesy; Error correction; Geodesy; Global Positioning System; Least squares approximation; Mathematical model; Satellites; Shape; System testing; Upper bound; Vectors; Global positioning system (GPS); Voronoi cells; integer interval estimation; integer least squares; mixed integer linear models; nearest lattice point problem; probabilistic bounds;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2006.876356
