System including a dead weight and equipment on a trolling line released from and retrieved to a receiving structure of a vessel, the dead weight including a controllable element for blocking and unblocking the line, so as to immobilize the line relative to the dead weight in the blocked configuration, and to allow the line to run relative to the dead weight in the unblocked configuration; a first detection element for detecting whether or not or not the equipment has moved to a predefined distance from the dead weight; a control element configured, in case of an order to release: in a step 2L, to release the equipment from the structure, in a step 3L, when the first detection element detects the equipment has moved to the predefined distance, to then release the dead weight and control the blocking and unblocking element to shift to the blocked configuration.

A multi-anchor depth control system for a boat or other watercraft having a line for securing anchors to the boat, at least two anchors attached at or near opposing ends of the line, a depth finder, and a controller configured to automatically adjust the amount of line released from the boat to maintain the anchors on the floor of the body of water in which the boat is floating, based upon information obtained from the depth finder.

A method for operating a winch system, and an arrangement including at least two electric drives each configured to operate a respective winch including a winch drum to spool a spoolable medium, and an electric motor to rotate the winch drum, each of the winches having an active state, in which the winch drum is driven according to a predetermined tension set point value, and a passive state, in which the winch drum is prevented from rotating, wherein, during a mooring of a vessel, the arrangement is configured to operate the at least two winches such that, over a period of time, each of the at least two winches is operated in its active state for a portion of the period, and each of the at least two winches is operated in its passive state for a portion of the period.

A method for operating a winch system, and an arrangement including at least two electric drives each configured to operate a respective winch including a winch drum to spool a spoolable medium, and an electric motor to rotate the winch drum, each of the winches having an active state, in which the winch drum is driven according to a predetermined tension set point value, and a passive state, in which the winch drum is prevented from rotating, wherein, during a mooring of a vessel, the arrangement is configured to operate the at least two winches such that, over a period of time, each of the at least two winches is operated in its active state for a portion of the period, and each of the at least two winches is operated in its passive state for a portion of the period.

A towing device intended to equip the deck of a ship (10) and comprising a winch (16), a cable (14) and a fairlead (20), the cable (14) circulating in the fairlead (20) under the action of the winch (16), the fairlead (20) comprising a frame (21) and at least one first and one second sectors, the sectors making it possible to guide the cable (14) in a channel formed in each of the sectors. The device comprises an articulation with a degree of freedom allowing the rotation of the second sector relative to the frame (21) about an axis contained in a plane comprising a first direction in which the cable can extend in the first sector, characterized in that the first sector is secured to the frame (21) and is interposed between the winch (16) and the second sector.

A towing device intended to equip the deck of a ship (10) and comprising a winch (16), a cable (14) and a fairlead (20), the cable (14) circulating in the fairlead (20) under the action of the winch (16), the fairlead (20) comprising a frame (21) and at least one first and one second sectors, the sectors making it possible to guide the cable (14) in a channel formed in each of the sectors. The device comprises an articulation with a degree of freedom allowing the rotation of the second sector relative to the frame (21) about an axis contained in a plane comprising a first direction in which the cable can extend in the first sector, characterized in that the first sector is secured to the frame (21) and is interposed between the winch (16) and the second sector.

Marine geophysical damper system. At least some of the example embodiments are methods of manufacturing a geophysical data product including obtaining geophysical data by a sensor streamer; and recording the geophysical data on a tangible computer-readable medium. The obtaining may include: towing a sensor streamer and a dilt buoy, the dilt buoy coupled to a proximal end of the sensor streamer by a line, the sensor streamer is submerged in a body of water and the dilt buoy is disposed at the surface the body of water; and during the towing measuring movement of the dilt buoy caused by surface wave action; and selectively damping relative movement between the dilt buoy and the sensor streamer, the relative movement caused by the surface wave action, and the selectively damping by a damper associated with the line.

Marine geophysical damper system. At least some of the example embodiments are methods of manufacturing a geophysical data product including obtaining geophysical data by a sensor streamer; and recording the geophysical data on a tangible computer-readable medium. The obtaining may include: towing a sensor streamer and a dilt buoy, the dilt buoy coupled to a proximal end of the sensor streamer by a line, the sensor streamer is submerged in a body of water and the dilt buoy is disposed at the surface the body of water; and during the towing measuring movement of the dilt buoy caused by surface wave action; and selectively damping relative movement between the dilt buoy and the sensor streamer, the relative movement caused by the surface wave action, and the selectively damping by a damper associated with the line.

An underwater object retrieval device for selective deployment to retrieve underwater objects includes an inflation unit that is configured to inflate upon command. A coupler is configured for coupling to an object to be placed underwater. A tether line has a first end, which is coupled to the inflation unit, and a second end, which is coupled to the coupler. A line storage unit is coupled to the tether line proximate to the second end. The line storage unit is positioned to house the tether line, such that the tether line is extensible from the line storage unit. The inflation unit is positioned to inflate upon user directed command, such that the inflation unit is buoyant. The tether line is extended from the line storage unit, such that the inflation unit reaches the water surface. The tether line is configured for retrieving the object to the surface.

An underwater object retrieval device for selective deployment to retrieve underwater objects includes an inflation unit that is configured to inflate upon command. A coupler is configured for coupling to an object to be placed underwater. A tether line has a first end, which is coupled to the inflation unit, and a second end, which is coupled to the coupler. A line storage unit is coupled to the tether line proximate to the second end. The line storage unit is positioned to house the tether line, such that the tether line is extensible from the line storage unit. The inflation unit is positioned to inflate upon user directed command, such that the inflation unit is buoyant. The tether line is extended from the line storage unit, such that the inflation unit reaches the water surface. The tether line is configured for retrieving the object to the surface.