An algebraic solution to the time difference of arrival equations

Author

Bard, John D. ; Ham, Fretlric M. ; Jones, W. Linwood

Author_Institution

Florida Inst. of Technol., Melbourne, FL, USA

fYear

1996

fDate

11-14 Apr 1996

Firstpage

313

Lastpage

319

Abstract

A closed form, algebraic solution to the time difference of arrival equations is presented. Prior derivations assumed that the receiving antennas are coplanar. Our derivation allows the receiving antennas to be located anywhere in three dimensional space. Previous techniques address the over-determined problem by considering a weighted average of the set of minimally determined solutions. Our technique employs the generalized inverse as a means of forming an optimal solution based on the geometry of the receiving sites. Our solution is additionally compared with a gradient search method to demonstrate its ability to avoid local minima. Finally, analysis is presented to demonstrate the effect of noisy measurements on the solution

Keywords

Gaussian noise; algebra; antenna arrays; direction-of-arrival estimation; error analysis; inverse problems; measurement errors; receiving antennas; closed form algebraic solution; coplanar receiving antennas; generalized inverse; noisy measurement; optimal solution; time difference of arrival equations; Difference equations; Electromagnetic measurements; Fault location; Geometry; Lightning; Receiving antennas; Sensor arrays; Space technology; Time difference of arrival; Time measurement;

fLanguage

English

Publisher

ieee

Conference_Titel

Southeastcon '96. Bringing Together Education, Science and Technology., Proceedings of the IEEE

Conference_Location

Tampa, FL

Print_ISBN

0-7803-3088-9

Type

conf

DOI

10.1109/SECON.1996.510082

Filename

510082