Open arc condition mitigation based on measurement

What is claimed is: 1. A system for mitigating an open arc condition of an electric arc furnace having at least one electrode, the electric arc furnace having a predetermined optimized covered arc condition, comprising: an analyzer adapted to: receive a signal representative of an electrical signal measurement of the electrical power provided to an electric arc furnace; and analyze the signal to determine, by analyzing the electrical signal measurement, a characteristic electrical parameter representative of a current arc cover condition of the electric arc furnace; a first control unit adapted to: receive the characteristic electrical parameter; determine, based upon the electrical characteristic parameter, a change in operation for the electric arc furnace when the characteristic electrical parameter is determined to be indicative of a deviation of the current arc cover condition from the predetermined optimized covered arc condition; and transmit, to a second control unit provided for the electric arc furnace, an indication of the change; wherein the change in operation of the electric arc furnace includes a change in feed rate that is effective for correcting the deviation of the current arc cover condition from the predetermined optimized covered arc condition thereby mitigating an open arc condition. 2. The system of claim 1 wherein the electrical signal measurement comprises a voltage measurement. 3. The system of claim 2 wherein the electrical parameter comprises a voltage characteristic parameter. 4. The system of claim 3 wherein the voltage characteristic parameter comprises voltage harmonics. 5. The system of claim 3 wherein the voltage characteristic parameter comprises voltage fluctuation. 6. The system of claim 1 wherein the electrical signal measurement comprises an electrical current measurement. 7. The system of claim 6 wherein the electrical parameter comprises a parameter characteristic of current harmonics. 8. A method for optimizing arc cover of an electrode of an electric arc furnace, comprising: receiving a characteristic electrical parameter representative of a current arc condition of the electric arc furnace at a first control unit; determining, based upon the characteristic electrical parameter, an offset representative of a deviation of the current arc condition from a predetermined optimized covered arc condition; determining, based upon the offset, a change in operation for the electric arc furnace for correcting the offset such that there is an absence of a deviation of the current arc cover condition from the predetermined optimized covered arc condition; and transmitting, to a second control unit provided for operation of the electric arc furnace, an indication of the change such that the change in operation of the electric arc furnace is effected; wherein the change in operation for the electric arc furnace includes a change in feed rate that is effective for mitigating an open arc condition. 9. The method of claim 8 wherein the characteristic parameter comprises an indication of a harmonic of a current waveform of the electrical power provided to the electric arc furnace. 10. The method of claim 8 wherein the characteristic parameter comprises an indication of a harmonic of a voltage waveform of the electrical power provided to the electric arc furnace. 11. The method of claim 8 wherein the change in operation for the electric arc furnace further comprises a current set point offset. 12. The method of claim 8 wherein the characteristic parameter comprises an indication of fluctuations in the voltage of the electrical power provided to the electric arc furnace. 13. The method of claim 12 further comprising extracting an indication of a flicker in the voltage. 14. The method of claim 8 wherein the change in operation for the electric arc furnace further comprises an electrode position offset. 15. The method of claim 8 wherein the change in operation for the electric arc furnace further comprises a voltage set point offset. 16. The method of claim 8 wherein the change in operation for the electric arc furnace further comprises a power set point offset. 17. A method of open arc detection for an electric arc furnace, the method comprising: obtaining an electrical signal measurement, based on current operating conditions of the electrical arc furnace, representative of a current arc cover condition of the electric arc furnace at a first control unit; detecting, based upon the electrical signal measurement, that the current arc cover condition is indicative of an open arc condition; determining, based upon the electrical signal measurement, a change to an operating condition of the electric arc furnace, where the change is effective to end the open arc condition; and transmitting, to a second control unit associated with operation of the electric arc furnace, an indication of the change such that the change to the operating condition is effected; wherein: the change to the operating condition includes coordinating, based upon the detecting of the open arc condition, feed control to the Electrical Arc Furnace for ending the open arc condition such that a predetermined optimized arc cover condition for the Electrical Arc Furnace is obtained, thereby ending the open arc condition. 18. The method of claim 17 wherein: the Electrical Arc Furnace is a non-ferrous Electrical Arc Furnace. 19. The method of claim 17 wherein: the Electrical Arc Furnace is a scrap steel Electrical Arc Furnace; and the change to the operating condition further includes coordinating, based upon the detecting of the open arc condition, a carbon and oxygen injection in the scrap steel Electrical Arc Furnace. 20. The method of claim 17 wherein: the change to the operating condition further includes coordinating, based upon the detecting of the open arc condition, a slag and foam thickness in the Electrical Arc Furnace. 21. A method of open arc detection for an electric arc furnace, the method comprising: obtaining an electrical signal measurement, based on current operating conditions of the electrical arc furnace, representative of a current arc cover condition of the electric arc furnace at a first control unit; detecting, based upon the electrical signal measurement, that the current arc cover condition is indicative of an open arc condition; determining, based upon the electrical signal measurement, a change to an operating condition of the electric arc furnace, where the change is effective to end the open arc condition; transmitting, to a second control unit associated with operation of the electric arc furnace, an indication of the change such that the change to the operating condition is effected; wherein: the electric arc furnace is a scrap steel electric arc furnace; and the change to the operating condition includes coordinating, based upon the detecting of the open arc condition, a carbon and oxygen injection into the scrap steel electric arc furnace for ending the open arc condition such that a predetermined optimized arc cover condition for the scrap steel electrical arc furnace is obtained.