Embodiments described herein relate to an apparatus and method of transferring seismic equipment to and from a marine vessel and subsurface location. In one embodiment, a marine vessel is provided. The marine vessel includes a deck having a plurality of seismic sensor devices stored thereon, two remotely operated vehicles, each comprising a seismic sensor storage compartment, and a seismic sensor transfer device comprising a container for transfer of one or more of the seismic sensor devices from the vessel to the sensor storage compartment of at least one of the two remotely operated vehicles.

Embodiments described herein relate to an apparatus and method of transferring seismic equipment to and from a marine vessel and subsurface location. In one embodiment, a marine vessel is provided. The marine vessel includes a deck having a plurality of seismic sensor devices stored thereon, two remotely operated vehicles, each comprising a seismic sensor storage compartment, and a seismic sensor transfer device comprising a container for transfer of one or more of the seismic sensor devices from the vessel to the sensor storage compartment of at least one of the two remotely operated vehicles.

Disclosed are a method and system for automating cargo shipment planning for a roll-on/roll-off (ro-ro) ship. The system may include a route search unit configured to compute a shipment route of a cargo using a cargo arrangement plan, a slot management unit configured to manage a shipment route along which a cargo of each slot indicative of a loading point in the cargo arrangement plan can be reached and to generate an optimum list of cargo loading target slots, and a shipment determination unit configured to receive the optimum list of cargo loading target slots from the slot management unit and to output information on whether to ship the cargo and a shipment position with reference to the optimum list of cargo loading target slots when the cargo to be shipped is input.

Disclosed are a method and system for automating cargo shipment planning for a roll-on/roll-off (ro-ro) ship. The system may include a route search unit configured to compute a shipment route of a cargo using a cargo arrangement plan, a slot management unit configured to manage a shipment route along which a cargo of each slot indicative of a loading point in the cargo arrangement plan can be reached and to generate an optimum list of cargo loading target slots, and a shipment determination unit configured to receive the optimum list of cargo loading target slots from the slot management unit and to output information on whether to ship the cargo and a shipment position with reference to the optimum list of cargo loading target slots when the cargo to be shipped is input.

Systems and methods for launching and retrieving payloads in aquatic environments employ a platform that is both floatable and submersible at the discretion of and/or under the control of a user, on which submersible objects to be launched, delivered to a subsea location and/or retrieved (the payload) may be located. The submergible platform has a plurality of sealed and/or sealable buoyancy chambers and at least one low pressure gas storage tank having associated fixtures and valves providing introduction of gas to the buoyancy chambers. A payload docking system providing secure docking of a payload on the platform deck is also disclosed.

Systems and methods for launching and retrieving payloads in aquatic environments employ a platform that is both floatable and submersible at the discretion of and/or under the control of a user, on which submersible objects to be launched, delivered to a subsea location and/or retrieved (the payload) may be located. The submergible platform has a plurality of sealed and/or sealable buoyancy chambers and at least one low pressure gas storage tank having associated fixtures and valves providing introduction of gas to the buoyancy chambers. A payload docking system providing secure docking of a payload on the platform deck is also disclosed.

Method, container corner lock and system for fastening a first container corner casting of a first container and a corresponding second container corner casting of a second container. The first container is stacked on the second container. The container corner lock includes: a first protruding part; including a first locking for fixing the first protruding part into the first recess; a second protruding part, including a second locking for fixing the second protruding part into the second recess; an electric motor configured to block or unblock the movement of at least one of the locking means; a first wireless transceiver; a processing circuit configured to receive the signal from the wireless transceiver and generate a command for operating the electric motor and a second wireless transceiver or transponder with a shorter range than said first wireless transceiver.

Method, container corner lock and system for fastening a first container corner casting of a first container and a corresponding second container corner casting of a second container. The first container is stacked on the second container. The container corner lock includes: a first protruding part; including a first locking for fixing the first protruding part into the first recess; a second protruding part, including a second locking for fixing the second protruding part into the second recess; an electric motor configured to block or unblock the movement of at least one of the locking means; a first wireless transceiver; a processing circuit configured to receive the signal from the wireless transceiver and generate a command for operating the electric motor and a second wireless transceiver or transponder with a shorter range than said first wireless transceiver.

A system includes a coil contacting base. The coil contacting base includes a radially curved outer surface with a radius of curvature less than or equal to a coil radius of curvature of an interior channel of a coil of spoolable pipe, and the coil contacting base includes a length greater than or equal to an axial dimension of the coil. The system also includes a side wall coupled to an inner surface of the coil contacting base. The side wall is configured to block circumferential movement of a coil restraint. The system also includes a passage disposed between the coil contacting base and the side wall. The coil restraint is configured to be disposed in the passage.

A system includes a coil contacting base. The coil contacting base includes a radially curved outer surface with a radius of curvature less than or equal to a coil radius of curvature of an interior channel of a coil of spoolable pipe, and the coil contacting base includes a length greater than or equal to an axial dimension of the coil. The system also includes a side wall coupled to an inner surface of the coil contacting base. The side wall is configured to block circumferential movement of a coil restraint. The system also includes a passage disposed between the coil contacting base and the side wall. The coil restraint is configured to be disposed in the passage.