Monitoring method and system to monitor the underwater traffic of an area of interest where at least one underwater element is going to operate. The system comprises: a memory, which is configured to store data comprising a representation of the area of interest, and a list of a plurality of types of underwater elements with the relative digital model; a detection unit to detect the position and the orientation of each underwater element present inside said area of interest; a processing unit, which is configured to determine, based on the stored data and on the detection of said detection unit, the type of each underwater element present inside the area of interest, and to generate, based on said data, a representation of the area of interest showing the static obstacles, and the digital model, the position and the orientation of each underwater element present inside said area of interest; and a user interface to display said representation of the area of interest.

Monitoring method and system to monitor the underwater traffic of an area of interest where at least one underwater element is going to operate. The system comprises: a memory, which is configured to store data comprising a representation of the area of interest, and a list of a plurality of types of underwater elements with the relative digital model; a detection unit to detect the position and the orientation of each underwater element present inside said area of interest; a processing unit, which is configured to determine, based on the stored data and on the detection of said detection unit, the type of each underwater element present inside the area of interest, and to generate, based on said data, a representation of the area of interest showing the static obstacles, and the digital model, the position and the orientation of each underwater element present inside said area of interest; and a user interface to display said representation of the area of interest.

A system for retrieval of objects submerged and lost in water is disclosed. The system comprises a gas release cartridge, an activation assembly arranged for activation of the gas release cartridge in response to at least one of: lapse of time, pressure, trigger-wire, indirect water contact, or remote acoustic command or any combination thereof, components of which are all contained in an inflatable bladder. A guide line, one end thereof attached to the bladder and the other end connectable to the object, is housed inside a non-watertight casing together with the inflatable bladder.

A system for retrieval of objects submerged and lost in water is disclosed. The system comprises a gas release cartridge, an activation assembly arranged for activation of the gas release cartridge in response to at least one of: lapse of time, pressure, trigger-wire, indirect water contact, or remote acoustic command or any combination thereof, components of which are all contained in an inflatable bladder. A guide line, one end thereof attached to the bladder and the other end connectable to the object, is housed inside a non-watertight casing together with the inflatable bladder.

A positioning and rescue device for an unmanned underwater vehicle, comprising a battery (1), a switch (2), a protective resistor (3), an electromagnetic relay (4), a master control chip (5), a GPS positioning system (6), an igniter (7), a partition (8), an air bag (9), a shell (10), and a rope (11). The battery (1), the switch (2), the protective resistor (3), the electromagnetic relay (4) and the master control chip (5) are sequentially connected by means of wires to form a series circuit, and the igniter (7) and the GPS positioning system (6) are separately connected to the master control chip (5) by means of wires; two normally open contacts of a control loop of the electromagnetic relay (4) are respectively connected to two ends of a general power supply (15).

A positioning and rescue device for an unmanned underwater vehicle, comprising a battery (1), a switch (2), a protective resistor (3), an electromagnetic relay (4), a master control chip (5), a GPS positioning system (6), an igniter (7), a partition (8), an air bag (9), a shell (10), and a rope (11). The battery (1), the switch (2), the protective resistor (3), the electromagnetic relay (4) and the master control chip (5) are sequentially connected by means of wires to form a series circuit, and the igniter (7) and the GPS positioning system (6) are separately connected to the master control chip (5) by means of wires; two normally open contacts of a control loop of the electromagnetic relay (4) are respectively connected to two ends of a general power supply (15).

Ocean-based gear equipped with Global Positioning System (GPS) shares position to either single or multiple users. Position data from an ocean-based device are sent either to a cloud-hosted database or vessel transceiver, then displayed on either a mobile app via multiple login accounts, a vessel-mounted GPS plotter that is capable of sharing data over the internet, or a satellite-connected mobile device capable of receiving and displaying Short Message Service (SMS) messages or emails. The Vessel Transceiver device is designed to share data from gear to vessel via radio frequency, as well as vessel to vessel via satellite network, without internet connectivity. Position data are provided to either one user or multiple users on the ocean or on land via various communication arrangements.

An underwater positioning system provides position information for a rover, moveable within a reference frame. The system may comprise: at least one beacon having a light source, located at a fixed position within the reference frame; an underwater imaging device, moveable with the rover in the reference frame to observe the light source from different viewpoints and determine direction data representing a direction or change in direction of the light source with respect to the imaging device; an orientation sensor, associated with the imaging device to determine an orientation of the imaging device with respect to the reference frame and generate orientation data; and a scaling element for providing scaling data representative of a distance between the imaging device and the light source. Various different beacons may be provided.

In alternative system implementations, the locations of light source(s) and underwater imaging device are reversed between rover and beacon(s).

An underwater positioning system provides position information for a rover, moveable within a reference frame. The system may comprise: at least one beacon having a light source, located at a fixed position within the reference frame; an underwater imaging device, moveable with the rover in the reference frame to observe the light source from different viewpoints and determine direction data representing a direction or change in direction of the light source with respect to the imaging device; an orientation sensor, associated with the imaging device to determine an orientation of the imaging device with respect to the reference frame and generate orientation data; and a scaling element for providing scaling data representative of a distance between the imaging device and the light source. Various different beacons may be provided.

In alternative system implementations, the locations of light source(s) and underwater imaging device are reversed between rover and beacon(s).

A device (10) for detecting a signal of interest in order to locate an underwater source of the signal. The device includes a receiver (13) configured to detect the signal of interest, an actuator (14) configured to allow at least a portion of the detection device (10) to move towards a zone indicating a result of detection of the signal of interest in response to the receiver being operated, and an emitter (15) configured to indicate the result of detection of the signal of interest.