Abstract: A system and method for harnessing power associated with ocean waves and converting that power into electricity. The apparatus houses a vertically oriented central shaft, a pendulum, a generator, and other components that operate to optimize power output of the generator. Various operating parameters may be initially set and later changed to effectuate a restoring force applied to the apparatus against wave motion so that generator output is maximized. The optimum restoring force may vary according to changing environmental conditions. A library of environmental data and associated parameter values, tuning responses, and the like is stored at a central location or local to the apparatus.

Abstract: A system and method for harnessing power associated with ocean waves and converting that power into electricity. The apparatus houses a vertically oriented central shaft, a pendulum, a generator, and other components that operate to optimize power output of the generator. Various operating parameters may be initially set and later changed to effectuate a restoring force applied to the apparatus against wave motion so that generator output is maximized. The optimum restoring force may vary according to changing environmental conditions. A library of environmental data and associated parameter values, tuning responses, and the like is stored at a central location or local to the apparatus.

Abstract: A system and method for harnessing power associated with ocean waves and converting that power into electricity. The apparatus is a buoy that houses a vertically oriented central shaft, a pendulum, a generator mechanism, and other components that synergistically operate to optimize power output of the buoy. Both the load on the pendulum and the effective length of the pendulum may be varied in response to changing environmental conditions. Also, the buoy may be part of a network that shares environmental data and a series of best tuning responses to that data, across the network. A library of environmental data and associated tuning responses is built at a central location and shared across the network.

Abstract: A method and apparatus for harnessing power associated with ocean waves and converting that power into electricity. The apparatus is a buoy that houses a vertically oriented central shaft, a pendulum, and a generator. As the buoy tilts from the vertical under the influence of wave motion, the pendulum is accelerated and rotates about the central shaft. A centrally-placed generator is mechanically coupled to, and driven by, the rotating pendulum so that the pendulum's kinetic energy is converted into electricity. The electricity may be stored at or near the buoy or transferred to a remote facility. Moreover, a fin array located along the bottom of the buoy serves as an anti-torque mechanism and improves the operational efficiency of the electricity production. The method involves employing use of the centrally located generator and the fin array to efficiently harness wave power.