To provide a easily fish counting device, a fish counting method, a fish count prediction device, a fish count prediction method, a fish counting system, and a fish count prediction system. The fish counting device of the present invention includes: a measurement image acquisition unit 11 configured to acquire, over time, a plurality of measurement images of a region to be measured in a passage region where a fluid containing fish passes through; a fish position acquisition unit 21 configured to acquire positions of the fish in the measurement images; a fish movement line calculation unit 22 configured to calculate movement line(s) of the fish as tracks of movements of the fish on the basis of the acquired positions; and a fish counting unit 23 configured to count the fish on the basis of the movement line(s) of the fish in the measurement images to obtain a fish count.

Disclosed herein are methods and systems for removing carbon dioxide (CO.sub.2) from water and quantifying the carbon so removed, thus facilitating valuation of that carbon for schemes (e.g., Kyoto agreement) that attach financial rewards for capture, sequestration or removal of carbon or CO.sub.2.

The invention relates to a device, a system and a method for grading live aquatic organisms in fluid into batches by using a central control system (7) that controls the grading process in a continuous manner resulting in optimisation of the grading process, said control system (7) optimizing individual grading components, namely concentration control (3) of fish, pump (4) speed and grader (5) settings, based on a software and a database (8) containing pre-set counting data.

The invention relates to a device, a system and a method for grading live aquatic organisms in fluid into batches by using a central control system (7) that controls the grading process in a continuous manner resulting in optimisation of the grading process, said control system (7) optimizing individual grading components, namely concentration control (3) of fish, pump (4) speed and grader (5) settings, based on a software and a database (8) containing pre-set counting data.

A floating bobber system for fishing which generates aquatic sounds that includes a floating bobber body having a water-tight hollow body interior and configured to at least partially float when arranged within a body of water. The system further includes an electronic circuit arranged within the body interior of the floating bobber body, the electronic circuit including a controller having reversibly programmable memory capable of replacaebly storing one or more aquatic sounds thereon, the controller being operationally coupled to a speaker for emitting the one or more aquatic sounds, a power source for providing power to the controller, and activation electronics for activating emission of the aquatic sounds from the speaker. The floating bobber body is configured to be coupled to a fishing line, and further configured to be coupled to a fishing bait.

A floating bobber system for fishing which generates aquatic sounds that includes a floating bobber body having a water-tight hollow body interior and configured to at least partially float when arranged within a body of water. The system further includes an electronic circuit arranged within the body interior of the floating bobber body, the electronic circuit including a controller having reversibly programmable memory capable of replacaebly storing one or more aquatic sounds thereon, the controller being operationally coupled to a speaker for emitting the one or more aquatic sounds, a power source for providing power to the controller, and activation electronics for activating emission of the aquatic sounds from the speaker. The floating bobber body is configured to be coupled to a fishing line, and further configured to be coupled to a fishing bait.

A mortality trap (150) for a spar buoy fish pen (100) is configured to receive and trap deceased fish, or morts (M), that sink from the fish pen. The mortality trap attaches to a lower portion of the spar buoy (110) to define a first passage (90). The sinking mort passes into an upper receiver portion (150U) of the mortality trap, and encounters a sloping transverse panel (154). Gravity causes the mort to continue through a second passage (B) into a lower entrapment portion (150L), and further into a region underlying the transverse panel (154) preventing the mort from escaping if it becomes positively buoyant. The entrapment portion optionally includes a converging channel into a valved port, to permit extraction of morts. The mortality trap may be located on the distal end of the spar buoy, or at an intermediate location on the lower portion of the spar buoy.

A mortality trap (150) for a spar buoy fish pen (100) is configured to receive and trap deceased fish, or morts (M), that sink from the fish pen. The mortality trap attaches to a lower portion of the spar buoy (110) to define a first passage (90). The sinking mort passes into an upper receiver portion (150U) of the mortality trap, and encounters a sloping transverse panel (154). Gravity causes the mort to continue through a second passage (B) into a lower entrapment portion (150L), and further into a region underlying the transverse panel (154) preventing the mort from escaping if it becomes positively buoyant. The entrapment portion optionally includes a converging channel into a valved port, to permit extraction of morts. The mortality trap may be located on the distal end of the spar buoy, or at an intermediate location on the lower portion of the spar buoy.

An organism evaluation system for analyzing organisms within a fluid flow, comprising one or more of a stimulation section comprising a means for inducing a motive response in a living organism within the fluid flow passing through the stimulation section and a shepherding section comprising a means for temporarily separating such an organism from and then returning it to the fluid flow, a flow normalizing section in fluid communication with the stimulation section and/or shepherding section, and a viewing section in fluid communication with the flow normalizing section, the viewing section comprising a body having formed therein a body cavity defining a viewing port, the viewing section further comprising an optical system mounted relative to the body for viewing the fluid flow within the viewing port through a cavity first opening, whereby image data relating to the fluid flow and organisms therein is acquired via the optical system for analysis.

The invention comprises a system and an optical device (1) to facilitate the counting of objects, e.g. fish and other organisms living in freshwater or sea, especially when using large-scale equipment in fish-fanning. The system makes it possible to diminish the distance between the recording camera and the objects to be counted.