Assessing obstacle location accuracy in the REMUS unmanned underwater vehicle

Author

Allen, Timothy E. ; Buss, Arnold H. ; Sanchez, Susan M.

Author_Institution

Submarine Officer Adv. Course, Naval Submarine Sch., Groton, CT, USA

Volume

1

fYear

2004

fDate

5-8 Dec. 2004

Lastpage

948

Abstract

Navy personnel use the REMUS unmanned underwater vehicle to search for submerged objects. Navigation inaccuracies lead to errors in predicting the location of objects and thus increase post-mission search times for explosive ordnance disposal teams. This paper explores components of navigation inaccuracy using discrete event simulation to model the vehicle´s navigation system and operational performance. The simulation generates data used, in turn, to build statistical models of the probability of detection, the mean location offset given that detection occurs, and the location error distribution. Together, these three models enable operators to explore the impact of various inputs prior to programming the vehicle, thus allowing them to choose combinations of vehicle parameters that reduce the offset error between the reported and actual locations.

Keywords

discrete event simulation; error statistics; military computing; navigation; personnel; probability; remotely operated vehicles; statistical analysis; underwater vehicles; REMUS unmanned underwater vehicle; discrete event simulation; explosive ordnance disposal teams; location error distribution; navy personnel; obstacle location accuracy; vehicle navigation system; Costs; Discrete event simulation; Explosives; Marine vehicles; Navigation; Personnel; Predictive models; Probability; Uncertainty; Underwater vehicles;

fLanguage

English

Publisher

ieee

Conference_Titel

Simulation Conference, 2004. Proceedings of the 2004 Winter

Print_ISBN

0-7803-8786-4

Type

conf

DOI

10.1109/WSC.2004.1371412

Filename

1371412