Optimal control of wave energy converters

We claim: 1. A method for extracting energy from water waves, comprising: providing a wave energy converter comprising a buoy in water having heave wave motion; estimating an excitation force of the heave wave motion on the buoy; computing a control force from the estimated excitation force using a dynamic model, wherein the model comprises constructing a Hamiltonian as a function of buoy states, wherein the Hamiltonian is a linear function of the control force and wherein the control force comprises a singular arc, computing partial derivatives of the Hamiltonian with respect to the buoy states and the control force, and computing the control force at which the partial derivatives vanish; and applying the computed control force to the buoy to extract energy from the heave wave motion. 2. The method of claim 1 , wherein the buoy states comprise a heave position and a heave velocity of the buoy. 3. The method of claim 2 , wherein the buoy states further comprise a radiation state. 4. The method of claim 1 , wherein the excitation force is estimated from a wave elevation in front of the buoy. 5. The method of claim 1 , wherein the excitation force estimated from one or more pressure measurements on a surface of the buoy and a heave position of the buoy. 6. The method of claim 1 , wherein the buoy comprises a cylindrical buoy or a spherical buoy. 7. A wave energy converter for extracting energy from water waves, comprising: a buoy in water having heave wave motion, a controller for computing a control force, wherein the controller: estimates an excitation force of the heave wave motion on the buoy; computes a control force from the estimated excitation force using a dynamic model, wherein the model: constructs a Hamiltonian as a function of buoy states, wherein the Hamiltonian is a linear function of the control force and wherein the control force comprises a singular arc, computes partial derivatives of the Hamiltonian with respect to the buoy states and the control force, and computes the control force at which the partial derivatives vanish; and an actuator for applying the computed control force to the buoy to extract energy from the heave wave motion. 8. The wave energy controller of claim 7 , wherein the buoy states comprise a heave position and a heave velocity of the buoy. 9. The wave energy controller of claim 8 , wherein the buoy states further comprise a radiation state. 10. The wave energy controller of claim 7 , wherein the excitation force is estimated from a wave elevation in front of the buoy. 11. The wave energy controller of claim 7 , wherein the excitation force estimated from one or more pressure measurements on a surface of the buoy and a heave position of the buoy. 12. The wave energy controller of claim 7 , wherein the buoy comprises a cylindrical buoy or a spherical buoy.