Autonomous underwater vehicles
MARINE ROBOTICS https://www.marinerobo.com/ began developing unmanned and untethered vehicles, called autonomous underwater vehicles (AUVs) as a way to take the high personnel costs out of scientific sampling of the ocean. These platforms are low cost as compared to ships but can nevertheless be directed as to where, when, and what they sample to full ocean depth. Knowing that there would be demand for diverse payloads, MARINE ROBOTICS engineers created a modular vehicle that can be quickly reconfigured to host a number of payloads without modifying basic components such as the propulsion, navigation, power, control, and emergency location systems.
How do Marine robotics work?
AUVs are programmed at the surface, then navigate through the water on their own, collecting data as they go. MARINE ROBOTICS AUVs can measure physical characteristics of the water, such as temperature, salinity, and dissolved oxygen, detect chlorophyll from microscopic marine algae, and measure concentrations of small particles in the water, map the seafloor and collect images of the seafloor and the midwater.
AUVs are likely to become ubiquitous tools
The actual and potential range of applications of AUVs for ocean science is large. As their range of deployable science instruments increase and their operating costs decrease, AUVs are likely to become ubiquitous tools for ocean exploration and sampling. AUVs are an increasingly important tool for oceanographic research(https://www.crewing.info/). They routinely and cost-effectively sample the water column at depths far beyond what humans are capable of visiting.
0
0
0
