Tip clearance harmonic estimation

What is claimed is: 1. A method of tip clearance estimation for a rotor blade, the method comprising: receiving signals from a sensor mounted to the rotor blade at a harmonic estimator; measuring a tip displacement of the rotor blade in a tip displacement unit of the harmonic estimator based on the signals from the sensor; generating and outputting a tip displacement estimate as a function of delayed time, a sine component of blade displacement as a function of delayed time and a cosine component as a function of delayed time in the tip displacement unit; generating a tip displacement error signal based on the measured tip displacement and the tip displacement estimate; generating a harmonic function for the rotor blade from the tip displacement error signal; predicting tip displacement of the rotor blade using the generated harmonic function; sending the predicted tip displacement to a flight computer; and adjusting a position of the rotor blade from the flight computer according to the predicted tip displacement. 2. The method according to claim 1 , wherein the measuring of the blade deflection comprises: sensing strain in the rotor blade based on the signals from the sensor; determining blade deflection for the rotor blade in accordance with the sensing; and calculating tip displacement for the rotor blade in accordance with the determined blade deflection. 3. The method according to claim 2 , wherein the sensing comprises taking internal strain readings from within the rotor blade from a strain gage installed in or on the rotor blade. 4. The method according to claim 3 , wherein the strain gage is installed proximate to a rotor hub to which the rotor blade is connected. 5. The method according to claim 3 , wherein the determining of the blade deflection comprises analyzing pre-defined strain-deflection relationships using the internal strain readings. 6. A rotorcraft, comprising: an airframe; coaxial rotors disposed to rotate relative to the airframe in opposite directions about a common rotational axis to generate aircraft lift and thrust; sensors disposed in or on respective rotor blades of the coaxial rotors to sense strain therein; a tip clearance estimation unit configured to execute the method according to claim 1 in accordance with the sensed strain and to predict a minimum tip clearance between the respective rotor blades of the coaxial rotors per blade revolutions at various sampling steps in accordance with the predicted tip displacement of each of the respective rotor blades. 7. The rotorcraft according to claim 6 , wherein the flight computer is configured to employ an output of the tip clearance estimation unit in a feedback loop for executing fly-by-wire controls. 8. The method according to claim 1 , wherein the measuring of the blade deflection comprises measuring a respective blade deflection of upper and lower rotor blades, the generating of the harmonic function comprises generating a respective harmonic function for the upper and lower rotor blades from the measured blade deflections, the predicting of the tip displacement comprises predicting a respective tip displacement of the upper and lower rotor blades and the adjusting of the position comprises adjusting respective positions of the upper and lower rotor blades according to the predicted tip displacements. 9. The method according to claim 8 , wherein the measuring of the respective blade deflections comprises: sensing strain in the upper and lower rotor blades; determining the respective blade deflections for the upper and lower rotor blade in accordance with the sensing; and calculating respective tip displacements for the upper and lower rotor blades in accordance with the determined blade deflections. 10. The method according to claim 9 , wherein the sensing comprises taking internal strain readings from within the upper and lower rotor blades from strain gages installed in or on the upper and lower rotor blades. 11. The method according to claim 10 , wherein the strain gages are installed proximate to a rotor hub to which the upper and lower rotor blades are connected. 12. The method according to claim 10 , wherein the determining of the respective blade deflections comprises analyzing pre-defined strain-deflection relationships using the internal strain readings. 13. A rotorcraft, comprising: an airframe; coaxial rotors disposed to rotate relative to the airframe in opposite directions about a common rotational axis to generate aircraft lift and thrust; sensors disposed in or on respective rotor blades of the coaxial rotors to sense strain therein; a tip clearance estimation unit configured to execute the method according to claim 8 in accordance with the sensed strain. 14. The rotorcraft according to claim 13 , wherein the rotorcraft further comprises a flight computer configured to employ an output of the tip clearance estimation unit in a feedback loop for executing fly-by-wire controls. 15. The rotorcraft according to claim 14 , wherein the tip clearance estimation unit is a component of the flight computer.