Aquaculture facilities require careful monitoring of a number of important parameters. The environment itself needs to be monitored for water quality, temperature, current, and so forth. Operators also need to be able to inspect hardware such as nets and cages, to count fish in particular enclosures, to locate dead fish, to check nutrient levels, to measure fish stress levels, and more. All of this information gathering is often done by human labor at onshore or shallow-water facilities, but that is impractical when the aquaculture facility is far offshore. Operators can’t hire from the local community when the local community is underwater – they have to use automated remote monitoring technology. Even in facilities where human labor is available, the cost and liability requirements of human workers will make automated remote monitoring a useful adjunct.
A number of different types of remote sensor can be used to monitor aquaculture operations, but one of the most generally useful instruments is also one of the simplest: a video camera. High-definition video cameras can capture a wide range of data both above the water and beneath the surface. Advances in robot vision, that is, the ability of computers to understand and utilize video feeds, mean that a huge number of video camera feeds can be interpreted by computerized systems. The aquaculture base can monitor types and numbers of fish in an area, examine nets and gates for damage, scan the bottom underneath fixed pens to check contamination levels, and even assess the weather pattern. AquaLens Connect, the underwater camera system from Aquabotix, has been built to withstand and excel in these challenging conditions. It features a full 1080p HD video with live view, push button recording, pan and tilt.
Aquaculture requires a great deal of management and assessment to be effective and profitable. Feed levels have to be continually adjusted to prevent excessive buildup of nutrients in the wastewater, fish populations have to be counted and their health checked, incursions from predators have to be seen to be mitigated, and physical infrastructure, always susceptible to storm damage, has to be kept in trim through regular inspection and maintenance. All of these tasks require that the aquaculture operator be aware of the condition of the facility. Stationary video cameras, as well as ROV-based roving cameras, provide a cost-effective means of achieving this goal.