Plunger lift optimization

What is claimed is: 1. An improved method of optimizing a ON and OFF cycle of a plunger lift system for a well, the plunger lift system having a cased well, a plunger in the cased well moveable from a stop at the bottom of the cased well to a top of the cased well, a control valve in functional connection with the cased well, a plunger arrival sensor capable of measuring a plunger arrival velocity, a flow valve sensor capable of measuring time flow valve is open or closed, a controller in operational connection with the control valve and functional connection with the sensors for receiving signals from the sensors, wherein the improvement comprises said controller optimizing for Minimum-OFF time for said plunger, or optimizing for Minimum-ON time for said plunger, or both based on current cycle parameters wherein a logic for making decisions based on receiving signals compares current cycle parameters with target parameter limits and adjusts the ON and OFF cycle by an auto-tune increment or decrement according to said evaluations. 2. An improved method of claim 1 , wherein said parameters include if the plunger arrives, plunger arrival time, valve open time, valve closed time, and if high line delay was activated for a current cycle. 3. The method of claim 1 , wherein said optimization is an adjustment equal to an auto-tune increment or decrement value. 4. The method of one of claims 1 , 2 , or 3 , wherein the plunger lift system further comprises a tubing positioned in said cased well, wherein said plunger is moveable in said tubing from the bottom of the tubing to a top of the tubing and said control valve is in functional connection to the tubing. 5. A method for auto-optimizing the operation of a plunger lift well comprising a well casing, production string within the well casing, a take-off line in fluid communication with the production string, a plunger within the production string, a stop near the bottom of the production string, a plunger lift control valve connected between the production and the take-off line, and a controller system, the controller system having a logic that compares actual well parameters with target parameters and a memory, wherein said controller system serves to open and close the plunger lift control valve according to values calculated and makes adjustments to said values based on comparisons made by the logic, said method comprising the steps of: a) entering a predetermined upper limit for afterflow time during a Minimum-ON cycle time, a plunger arrival velocity, an open time, a closed time, a multiplier and an auto-tune value into the controller system memory, wherein the controller system automatically calculates the open time based on the entered predetermined values; b) conducting one or more operating cycles wherein the controller system opens and closes the plunger lift control valve to allow fluids or hydrocarbons to flow into the take-off line, said one or more operating cycles comprising: i) entering a closed cycle and closing the plunger lift control valve for a period of time equal to the initial close time; ii) entering an open cycle and opening the plunger lift control valve for a period of time equal to the calculated open time and allowing fluids to be artificially lifted by the plunger within the production string for a lift time; and iii) entering an afterflow cycle for an after flow time equal to open time minus said lift time, wherein said fluids and hydrocarbons flow into the take-off line during said afterflow cycle; and c) adjusting the close time or open time, wherein the logic cycles compares the current operating afterflow time with said upper limit of afterflow time during a Minimum-ON cycle time and, if said current operating afterflow time is smaller, then said logic compares operating plunger velocity with the predetermined upper and lower limits and adjusts the close time according to said evaluations, and if said afterflow time is greater, then said logic compares the current operating off time with said upper limit of Minimum-OFF time during a Minimum-OFF cycle time and, if said current operating off time is less than or equal to Minimum-OFF time, then said logic compares operating plunger velocity with the predetermined upper and lower limits and adjusts the open time by an auto-tune increment or decrement according to said evaluations; d) conducting one or more adjusted operation cycles, each adjusted operation cycle comprising: i) entering a closed cycle for a period of time equal to the adjusted close time and closing the plunger lift control valve; ii) opening the plunger lift control valve for a period of time equal to the calculated open time and allowing fluids to be artificially lifted by the plunger within the production string for a lift time; and iii) entering an adjusted afterflow cycle for an adjusted after flow time equal to the adjusted open time minus said lift time, wherein said fluids and hydrocarbons flow into the take-off line during said adjusted afterflow cycle; and e) repeating c-d until said operating afterflow is within said lower than said upper limit of afterflow time and said operating plunger velocity is within said predetermined upper and lower limits. 6. A improved plunger lift system, wherein the plunger lift system having a tubing positioned in a cased well, a plunger in the tubing moveable from the bottom of the tubing to a top of the tubing, a stop near the bottom of the production string, a control valve in functional connection with the tubing, a control valve sensor for measuring time valve is open or closed, a plunger arrival sensor capable of measuring a plunger arrival velocity, a flow valve sensor capable of measuring time flow valve is open or closed, a controller in operational connection with the control valve and functional connection with the sensors for receiving signals from the sensors, wherein the receiving signals relay real time values of said system parameters of each preceding cycle, said improvement comprising: a) a logic sequence for incorporation in said controller that evaluates real time operating afterflow value against a predetermined target afterflow range, wherein a smaller real time afterflow value results in a first evaluation of the actual plunger velocity against predetermined target velocity range and adjust to the OFF time based on said evaluation, wherein a larger real time afterflow value results in a comparison of real OFF time to predetermined OFF range and a smaller real OFF time results in a second evaluation of the actual plunger velocity against predetermined target velocity range and adjust to the ON time based on said evaluation and a larger real OFF time results in a third evaluation of the actual plunger velocity against predetermined target velocity range and adjust to the ON and OFF time based on said evaluation; and b) said logic sequence comparing current cycle afterflow with target afterflow limits and adjusts the ON and OFF cycle by an auto-tune increment or decrement according to said afterflow evaluations. 7. The improved method of claim 6 , wherein said OFF and ON time are adjusted by an auto-tune value. 8. A method of monitoring and optimizing a ON and OFF cycle of a plunger lift system for a well, the plunger lift system having a tubing positioned in a cased well, a plunger in the tubing moveable from the bottom of the tubing to a top of the tubing, a stop near the bottom of the tubing, a control valve in functional connection with the tubing, a plunger arrival sensor capable of measuring a plunger arrival velocity, a flow valve sensor capable of measuring time flow valve is open or closed, a controller in operational connection with the control valve and functional connection with the sensors for recei