Submerged wave energy converter for shallow and deep water operations

What is claimed is: 1. A submerged wave energy converter apparatus, comprising: a planar, horizontally oriented absorber body with an upper surface and a bottom surface, the absorber body comprising at least one aperture and an aperture closure; a support base disposed beneath the bottom surface of the absorber body; at least one damper coupled to the absorber body and to the support base, said damper configured to compress or expand with movement of the absorber body relative to the support base; a linear motion energy converter connected to the damper; and a restoring force mechanism configured to return a displaced absorber body to a set position; wherein displacement of the absorber body relative to the support base in response to wave action and corresponding linear movement of the dampers actuates the linear motion energy converter. 2. The apparatus of claim 1 , further comprising: a ballast system connected to the support base capable of increasing or decreasing buoyancy of the apparatus; and a mooring system coupled to the support base having a plurality of mooring lines. 3. The apparatus of claim 2 , wherein said mooring lines are anchored with an anchor selected from the group of anchors consisting of a vertical load anchor, a dead-weight anchor and a direct embedment anchor. 4. The apparatus of claim 1 , wherein said damper comprises: a cylinder with a piston; and a closed hydraulic system; wherein linear movement of the piston pressurizes fluid in the hydraulic system. 5. The apparatus of claim 1 , wherein said restoring force mechanism comprises a spring. 6. The apparatus of claim 1 , wherein said absorber body and said support base further comprises: a locking mechanism; wherein the absorber body and the support base are brought in close proximity and locked with the locking mechanism. 7. The apparatus of claim 1 , further comprising: at least one pressure sensor mounted to the absorber body; and an overpressure controller operably coupled to the aperture closure configured to control closing and opening of the aperture closure. 8. A submerged wave energy converter apparatus, comprising: a planar, horizontally oriented absorber body with an upper surface and a bottom surface, said absorber body having at least one aperture between the upper surface and bottom surface and an aperture closure; a support base disposed beneath the bottom surface of the absorber body; four hydraulic cylinders coupled to the absorber body and to the support base, said cylinders configured to the compress or expand linearly with movement of the absorber body relative to the support base; a hydraulic system connected to each cylinder; a restoring force mechanism configured to return a displaced absorber body to a set position; a controller with a processor; and a non-transitory memory storing instructions executable by the processor; wherein said instructions, when executed by the processor, perform steps comprising: sensing an absorber body load with at least one pressure sensor, controlling the winch motor of the mooring system to govern the depth of the absorber body, controlling actuation of one or more aperture closures of the absorber body, controlling the damping coefficient of the hydraulic cylinders to increase or decrease load on the absorber body, and controlling buoyancy of the apparatus with the ballast system, wherein displacement of the absorber body relative to the support base in response to wave action and corresponding linear movement of the cylinders pressurizes fluid in the hydraulic system; and wherein the apparatus is able to extract energy from water waves by surge, heave, pitch, roll, yaw, and sway wave absorber excitation. 9. The apparatus of claim 8 , further comprising: a ballast system connected to the support base capable of increasing or decreasing buoyancy of the apparatus; and a mooring system coupled to the support base having a plurality of mooring lines. 10. The apparatus of claim 9 , wherein said mooring lines are anchored with an anchor selected from the group of anchors consisting of a vertical load anchor, a dead-weight anchor and a direct embedment anchor. 11. The apparatus of claim 9 , wherein said mooring system further comprises: a locking winch with a spool, a gearbox and a motor/generator coupled to each mooring line; and a winch controller. 12. The apparatus of claim 8 , wherein said hydraulic system further comprises: an accumulator bank; a hydraulic motor; and an electrical generator. 13. The apparatus of claim 8 , wherein said restoring force mechanism comprises a spring. 14. The apparatus of claim 8 , wherein said absorber body and said support base further comprises: a locking mechanism; wherein the absorber body and the support base are bought in close proximity and locked with the locking mechanism. 15. The apparatus of claim 8 , wherein said instructions when executed by the processor further perform steps comprising: sensing damper position; measuring hydraulic system pressure; measuring hydraulic motor torque; measuring generator power, voltage and current output; and controlling output of the hydraulic motor.