Title :
Modelling and identification of a robust autonomous surface craft for deployment in Harsh ocean environment
Author :
Zhi Li ; Bachmayer, Ralf
Author_Institution :
Autonomous Ocean Syst. Lab., Memorial Univ. of Newfoundland, St. John´s, NL, Canada
Abstract :
In this paper, the procedures for modelling and identification of a displacement style catamaran differentially driven Autonomous Surface Craft (ASC) are introduced. A three degrees of freedom mathematical model that includes the surge, sway and yaw motion of the vehicle is used. The surge motion tests were performed at the towing tank of Memorial University. In this indoor experiment, the full scale ASC model was used and it was equipped with the Hagisonic StarGazer™ indoor localization system for measurement of the position and velocity. Following this, the zig-zag tests were performed in the sea trials. All the experimental data were collected using the existed ASC control and communication system and available onboard sensors. The identified ASC model is evaluated and compared with the collected measurement data.
Keywords :
mobile robots; parameter estimation; position measurement; velocity measurement; ASC control; Hagisonic StarGazer indoor localization system; Memorial University; communication system; differentially driven autonomous surface craft; displacement style catamaran; full scale ASC model; harsh ocean environment; identified ASC model; onboard sensors; parameter identification; position measurement; robust autonomous surface craft; surge motion tests; sway motion; system modelling; three degrees of freedom mathematical model; towing tank; velocity measurement; yaw motion; zig-zag tests; Force; Mathematical model; Oceans; Propellers; Sea measurements; Sensors; Surges; Autonomous Surface Craft (ASC); StarGazer indoor localization sensor; parameter identification; system modelling;
Conference_Titel :
Oceans - St. John's, 2014
Conference_Location :
St. John´s, NL
Print_ISBN :
978-1-4799-4920-5
DOI :
10.1109/OCEANS.2014.7003150
