Title :
Design considerations and operational advantages of a modular AUV with synthetic aperture sonar
Author :
Taylor, Mikell ; Wilby, Andy
Author_Institution :
Bluefin Robot. Corp., Quincy, MA, USA
Abstract :
Synthetic aperture sonar (SAS) has numerous qualities that make it desirable for use in hydrographic survey, mine warfare, and other subsea survey applications. Improvements in power consumption and mechanical footprint, as well as decreased cost, have recently enabled SAS integration onto small- and medium-size AUVs, expanding the potential applications for SAS usage. However, SAS-AUV integration requires careful consideration of a number of factors. This paper provides an overview of SAS technology as well as the features and performance of the PROSAS Surveyor and the Bluefin-12 AUV, discusses the engineering challenges of combining the two systems, and describes the resulting operational advantages of the integrated system.
Keywords :
autonomous underwater vehicles; design; synthetic aperture sonar; Bluefin-12 AUV; PROSAS surveyor; design consideration; engineering challenge; hydrographic survey; integrated system; mechanical footprint; mine warfare; modular AUV; operational advantage; power consumption; subsea survey application; synthetic aperture sonar; Data handling; Integrated circuits; Navigation; Sonar applications; Synthetic aperture sonar; Underwater vehicles; AUV; Applied Signal Technology; Bluefin Robotics; Bluefin-12; PROSAS Surveyor; SAS; UUV; autonomous underwater vehicle; synthetic aperture sonar; unmanned underwater vehicle;
Conference_Titel :
OCEANS 2011
Conference_Location :
Waikoloa, HI
Print_ISBN :
978-1-4577-1427-6
