The present invention is a deployable climate blanket system for regulating temperature of a water surface, including two or more climate blanket secured one to another, each blanket configured with an interior air-filled cavity and a plurality of weights for maintaining the system into a desired position. When use of the blankets is no longer desired, the blankets can be lowered beneath the water surface so as not to interfere with boat traffic or other surface use of the water.

A water surface system for mitigation of tropical storms or hurricanes/typhoons/cyclones, the water surface system comprising one or more floating objects capable of minimizing water temperature increase due to sun irradiation and water evaporation and one or more boom-like structures capable of containing the floating objects in a designated area. For effective mitigation, the designated areas are the origins and paths historically most often occurred of storms/hurricanes/typhoons/cyclones.

A water surface system for mitigation of tropical storms or hurricanes/typhoons/cyclones, the water surface system comprising one or more floating objects capable of minimizing water temperature increase due to sun irradiation and water evaporation and one or more boom-like structures capable of containing the floating objects in a designated area. For effective mitigation, the designated areas are the origins and paths historically most often occurred of storms/hurricanes/typhoons/cyclones.

The present invention provides for a method of marine construction. Said marine construction is based on an external perimeter and inner area and comprises seabed lying elements and floating elements. The marine construction of the present invention comprising fixed elements that are placed on the defined perimeter of said marine construction. Said fixed elements are lying on the seabed. And further comprising floating elements that are placed in the inner area the marine construction, defined by said external perimeter. The marine construction is capable of being deployed at a variety of distances from shore, at a differential nature of sea bed, and to be able to carry out different tasks and destinations, such as but not limited to airport, residency, army base, power station, port, marina, other infrastructures, etc. and any combination thereof.

The present invention provides for a method of marine construction. Said marine construction is based on an external perimeter and inner area and comprises seabed lying elements and floating elements. The marine construction of the present invention comprising fixed elements that are placed on the defined perimeter of said marine construction. Said fixed elements are lying on the seabed. And further comprising floating elements that are placed in the inner area the marine construction, defined by said external perimeter. The marine construction is capable of being deployed at a variety of distances from shore, at a differential nature of sea bed, and to be able to carry out different tasks and destinations, such as but not limited to airport, residency, army base, power station, port, marina, other infrastructures, etc. and any combination thereof.

The present invention includes systems and methods for a continuous-wave (CW) radar system for detecting, geolocating, identifying, discriminating between, and mapping ferrous and non-ferrous metals in brackish and saltwater environments. The CW radar system generates multiple extremely low frequency (ELF) electromagnetic waves simultaneously and uses said waves to detect, locate, and classify objects of interest. These objects include all types of ferrous and non-ferrous metals, as well as changing material boundary layers (e.g., soil to water, sand to mud, rock to organic materials, water to air, etc.). The CW radar system is operable to detect objects of interest in near real time.

The present invention includes systems and methods for a continuous-wave (CW) radar system for detecting, geolocating, identifying, discriminating between, and mapping ferrous and non-ferrous metals in brackish and saltwater environments. The CW radar system generates multiple extremely low frequency (ELF) electromagnetic waves simultaneously and uses said waves to detect, locate, and classify objects of interest. These objects include all types of ferrous and non-ferrous metals, as well as changing material boundary layers (e.g., soil to water, sand to mud, rock to organic materials, water to air, etc.). The CW radar system is operable to detect objects of interest in near real time.

A relief ship includes: a hull; an on-board relay station mounted on the hull to create a first wireless communication area on and/or around the hull; at least one mover mounted on the hull and movable to a place away from the hull; and a mobile relay station mounted on the mover. The on-board relay station is configured to receive a radio wave transmitted from a ground base station and transmit the radio wave to a wireless terminal located in the first wireless communication area and configured to receive a radio wave transmitted from the wireless terminal located in the first wireless communication area and transmit the radio wave to the ground base station. The mobile relay station is configured to relay radio waves between the on-board relay station and the ground base station.

A water walking stage system is disclosed. The water walking stage system according to embodiment of the present invention comprises: opposite side floating bodies, each having a structure which is filled with gas or a foam resin material and thus floats on the surface of water and including a safe connector embedded inside thereof; a walking stage connected under the opposite side floating bodies to form a footing and positioned to be immersed in the water below the surface of water; rails for connecting the opposite side floating bodies to both sides of the walking stage, respectively; and a fixing rod installed on the ground and connected to the safe connector mounted inside of each of the opposite side floating bodies, thereby fixing the positions of the opposite side floating bodies, wherein the opposite side floating bodies, the walking stage, and the rails constitute one module unit by an integrated assembly structure.

A water walking stage system is disclosed. The water walking stage system according to embodiment of the present invention comprises: opposite side floating bodies, each having a structure which is filled with gas or a foam resin material and thus floats on the surface of water and including a safe connector embedded inside thereof; a walking stage connected under the opposite side floating bodies to form a footing and positioned to be immersed in the water below the surface of water; rails for connecting the opposite side floating bodies to both sides of the walking stage, respectively; and a fixing rod installed on the ground and connected to the safe connector mounted inside of each of the opposite side floating bodies, thereby fixing the positions of the opposite side floating bodies, wherein the opposite side floating bodies, the walking stage, and the rails constitute one module unit by an integrated assembly structure.