Floating breakwater structure

The invention claimed is: 1. A floating breakwater structure, comprising: a floating platform disposed at a water surface and configured for being mounted offshore at a predetermined distance from a shoreline, the floating platform having one long side for facing a shore and another long side for facing a sea-horizon; a mooring system comprising: at least one pair of side anchors located on the seabed at one long side of the floating platform, and at least one another pair of side anchors located on the seabed at the other long side of the floating platform; at least two pairs of crossing mooring spring-lines linked at one end to the floating platform, each pair of the crossing mooring spring-lines linked at one end to the corresponding long side of the of the floating platform and at another end to the corresponding pair of the side anchors, thereby anchoring the floating breakwater structure to the seabed; and a damping system arranged at any one of the long sides of the floating platform and configured for breaking waves in order to stabilize the floating breakwater structure, and to absorb the wave energy and the stresses imparted by the motion of the waves; wherein the damping system includes a set of floating bodies configured to float up and down independently along with the waves on the water surface and at a depth where wave action is most prevalent, the floating bodies arranged in rows along the long side of the floating structure at which the damping system is arranged and extend apart from said long side, each row including a plurality of floating bodies which are adjacent to each other in each row in a corresponding line parallel to said long side, so as to provide shielding of said long side from direct impact of the incoming waves. 2. The floating breakwater structure of claim 1 , wherein the floating platform includes a buoyancy vessel floating on the water and having dimensions and weight sufficient to provide buoyancy to the floating breakwater structure. 3. The floating breakwater structure of claim 1 , wherein the floating platform includes: a deck disposed above the water surface and having a desired payload; a floating base disposed under the water surface, and configured for holding the deck; and strut elements extending from the floating base and configured for supporting the deck. 4. The floating breakwater structure of claim 3 , wherein the strut elements have a suitable length to provide sufficient clearance over the water surface to meet the requirement that waves with a height of less than about 5 meters do not reach the deck. 5. The floating breakwater structure of claim 1 , wherein, in each row, the floating bodies are shifted with respect to the floating bodies of the neighboring rows to provide shielding of said one side from direct impact of the incoming waves. 6. The floating breakwater structure of claim 1 , wherein the damping system includes levers associated with the floating bodies and a rotary shaft arranged on the floating platform, wherein the floating bodies are connected to the rotary shaft by using the levers, each lever having a suitable shape to be connected to the corresponding floating body at one end of the lever and to the rotary shaft at its other end, thereby to provide pivotal motion along an axis of the rotary shaft. 7. The floating breakwater structure of claim 6 comprising a resisting mechanism configured and arranged to resist movement of the floating bodies. 8. The floating breakwater structure of claim 6 comprising a generator operatively coupled to the rotary shaft, and configured to generate electrical energy from the rotary movement transferred thereto from the floating bodies. 9. The floating breakwater structure of claim 1 , wherein the floating bodies have a cylindrical shape with a diameter in the cross-section area of the cylinder in the range of 0.5 meter to 50 meters and a length of the cylinders in the range of 1 meter to 10 meters. 10. The floating breakwater structure of claim 1 , wherein during operation at least one floating body is located on a crest of incoming waves and at least one another floating body is located on troughs of the incoming waves. 11. The floating breakwater structure of claim 1 , wherein a number of the floating bodies in each of the rows is more than 1. 12. A floating breakwater structure, comprising: a floating platform disposed at a water surface and configured for being mounted offshore at a predetermined distance from a shoreline, the floating platform having one long side for facing a shore and another long side for facing a sea-horizon; a mooring system including: at least one pair of side anchors located on the seabed at one long side of the floating platform, and at least one another pair of side anchors located on the seabed at the other long side of the floating platform; at least two pairs of crossing mooring spring-lines linked at one end to the floating platform, each pair of the crossing mooring spring-lines linked at one end to the corresponding long side of the of the floating platform and at another end to the corresponding pair of the side anchors, thereby anchoring the floating breakwater structure to the seabed; and a damping system arranged at any one of the long sides of the floating platform and configured for breaking waves in order to stabilize the floating breakwater structure, and to absorb the wave energy and the stresses imparted by the motion of the waves; wherein the floating platform includes: a deck disposed above the water surface and having a desired payload; a floating base disposed under the water surface, and configured for holding the deck; and strut elements extending from the floating base and configured for supporting the deck: wherein the floating base includes: a plurality of buoyancy pontoons configured to displace enough water in order to create a buoying force greatly in excess of the weight of the buoyancy pontoons; and a plurality of balance pontoons arranged above the buoyancy pontoons and configured to provide stabilization of the floatable breakwater structure on the water surface; said plurality of buoyancy pontoons and said plurality of balance pontoons connected to the deck via the strut elements. 13. The floating breakwater structure of claim 12 , wherein a number and a concentration of the buoyancy pontoons and the balance pontoons is such that an entire volume of the buoyancy units is well below the area of wave action, while the balance pontoons are at the water surface.