Accession Number : ADA620631


Title :   Navigation System Design and State Estimation for a Small Rigid Hull Inflatable Boat (RHIB)


Descriptive Note : Master's thesis


Corporate Author : NAVAL POSTGRADUATE SCHOOL MONTEREY CA


Personal Author(s) : Terjesen, Steven


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/a620631.pdf


Report Date : Sep 2014


Pagination or Media Count : 223


Abstract : Autonomous operation of a small rigid hull inflatable boat (RHIB) is a complex problem that requires a robust network of sensors, controllers, processors, and actuators. Furthermore, autonomous navigation requires accurate state estimation, fusing and filtering data from an array of sensors to give the best possible estimates of attitude, position, and velocity. This thesis will address the hardware modifications and navigation state estimators used to configure the SeaFox Mk II RHIB for future autonomous operations. The study began with a RHIB capable of manual and remotecontrolled operation. The proprietary controllers and processors were replaced with an open architecture system that enabled an autonomous mode of operation and data collection from a suite of global positioning satellite receivers and inertial measurement units. Multiple navigation state estimators were designed using the extended Kalman filter and several variants of the unscented Kalman filter. Each filter was evaluated against simulated and actual sea trial data to determine its accuracy, robustness, and computational efficiency.


Descriptors :   *AUTONOMOUS NAVIGATION , *BOATS , *INFLATABLE STRUCTURES , *NAVIGATION , ACCURACY , ARCHITECTURE , ARRAYS , ARTIFICIAL SATELLITES , COMPUTATIONS , CONTROL SYSTEMS , DATA ACQUISITION , EFFICIENCY , FUSION(MELTING) , GLOBAL POSITIONING SYSTEM , INERTIAL MEASUREMENT UNITS , KALMAN FILTERING , MODIFICATION , NETWORKS , OCEANOGRAPHIC DATA , OPERATION , POSITION(LOCATION) , RECEIVERS , SEA TESTING , SELF OPERATION , SIMULATION , THESES , VARIATIONS , VELOCITY


Subject Categories : Marine Engineering
      Navigation and Guidance


Distribution Statement : APPROVED FOR PUBLIC RELEASE