Title :
Mobile ranging using low-accuracy clocks
Author :
McCrady, Dennis D. ; Doyle, Lawrence ; Forstrom, Howard ; Dempsey, Timothy ; Martorana, Marc
Author_Institution :
Div. of Aerosp./Commun., ITT Ind., Clifton, NJ, USA
fDate :
6/1/2000 12:00:00 AM
Abstract :
Our position-location technique provides location information within milliseconds and is integrated in a handheld direct-sequence spread-spectrum (DSSS) communications system. We use a standard DSSS waveform, with a state of-the-art chipping rate to provide a position location capability to an accuracy of less than 1 m in a severe multipath environment. We use a two-way time-of-arrival (TOA) measurement technique with 1-ppm clocks that eliminates the need to synchronize master and reference radio clocks. Several techniques improve TOA and, therefore, range accuracy. A loop back calibrates internal system delay. Frequency diversity orthogonalizes multipath with respect to direct path, and leading edge curve fitting of the direct path reduces the effect of multipath. Applications include location of urban war fighters, firefighters, police, and medical personnel and resources
Keywords :
curve fitting; diversity reception; land mobile radio; multipath channels; position measurement; radio direction-finding; spread spectrum communication; DSSS waveform; frequency diversity; handheld direct-sequence spread-spectrum communications; leading edge curve fitting; low-accuracy clocks; position-location technique; range accuracy; severe multipath environment; two-way time-of-arrival measurement technique; Clocks; Context; Global Positioning System; Military equipment; Mobile communication; Personnel; Position measurement; Spread spectrum communication; Telephony; Transmitters;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
