Embodiments of the present invention provide a navigation system which, on the one hand, is arranged on sides of the underwater vehicle/AUV and, on the other hand, includes a surface transmitter as a counterpart. The two units communicate with each other such that the surface transmitter emits its signal directed to the position of the underwater vehicle and/or that the surface transmitter follows the underwater vehicle to improve the position determination capability.

Embodiments of the present invention provide a navigation system which, on the one hand, is arranged on sides of the underwater vehicle/AUV and, on the other hand, includes a surface transmitter as a counterpart. The two units communicate with each other such that the surface transmitter emits its signal directed to the position of the underwater vehicle and/or that the surface transmitter follows the underwater vehicle to improve the position determination capability.

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.

Described herein are methods and devices for improved location of any and all underwater structures or equipment installed underwater. In particular, systems are disclosed that combine optical and acoustic metrology for locating objects in underwater environments. The systems allow for relative positions of objects to be determined with great accuracy using optical techniques, and support enhanced location of devices that utilize acoustic location techniques. In addition, location information can be provided by the system even in conditions that make optical metrology techniques impossible or impractical.

Described herein are methods and devices for improved location of any and all underwater structures or equipment installed underwater. In particular, systems are disclosed that combine optical and acoustic metrology for locating objects in underwater environments. The systems allow for relative positions of objects to be determined with great accuracy using optical techniques, and support enhanced location of devices that utilize acoustic location techniques. In addition, location information can be provided by the system even in conditions that make optical metrology techniques impossible or impractical.

A device for testing the interface to periscope inboard electronics is provided with an enclosure having a cable connector for a plurality of cables from a periscope mast. Each cable includes electric wires, fiber optic lines, radio frequency lines, and video lines. A plurality of interface panels are mounted on the enclosure. Each interface panel is associated with a cable of the plurality of cables. Each interface panel has test points for each voltage conducting cable, video path, and fiber optic line for the associated cable and status indicators for the device and inboard electronics. A multi-position switch is mounted on the enclosure and can be selected for one of a plurality of periscope mast types.

A device for testing the interface to periscope inboard electronics is provided with an enclosure having a cable connector for a plurality of cables from a periscope mast. Each cable includes electric wires, fiber optic lines, radio frequency lines, and video lines. A plurality of interface panels are mounted on the enclosure. Each interface panel is associated with a cable of the plurality of cables. Each interface panel has test points for each voltage conducting cable, video path, and fiber optic line for the associated cable and status indicators for the device and inboard electronics. A multi-position switch is mounted on the enclosure and can be selected for one of a plurality of periscope mast types.

A system for autonomous ocean data collection includes at least one sensor capable of collecting sensor data, at least one transmission device, and at least one computing device comprising one or more hardware processors and memory coupled to the one or more hardware processors, the memory storing one or more instructions which, when executed by the one or more hardware processors, cause the at least one computing device to generate data for transmission based on the sensor data collected by the at least one sensor, and cause the at least one transmission device to transmit the data.

A system for autonomous ocean data collection includes at least one sensor capable of collecting sensor data, at least one transmission device, and at least one computing device comprising one or more hardware processors and memory coupled to the one or more hardware processors, the memory storing one or more instructions which, when executed by the one or more hardware processors, cause the at least one computing device to generate data for transmission based on the sensor data collected by the at least one sensor, and cause the at least one transmission device to transmit the data.

A method for underwater exploration and/or recovery of objects and/or things using a submersible vehicle assembly and underwater powered observation system using a camera and source of light of a green laser to be directed to the underside of the surface of the water so as to locate the vehicle assembly by the green laser. In this manner the vehicle assembly may be utilized for the underwater tasks of locating objects and/or things on a surface of the underwater environment.