Long-stroke pumping unit

The invention claimed is: 1. A pumping unit to reciprocate a rod string for a downhole pump disposed in a well, the pumping unit comprising: a tower; a counterweight being movable along the tower; a belt disposed on the tower and being connected between the counterweight and the rod string; an electric motor configured to reciprocate the belt on the tower; a variable speed driver in electrical communication with the electric motor; a plurality of sensors configured to measure a plurality of sensor measurements, the senor measurements at least including a first position associated with the rod string, a force exerted on the rod string, and a power consumed by the electric motor; and a controller connected to the variable speed driver and the sensors, the controller being configured to: determine, for a pumping cycle, at least one parameter associated with operation of the downhole pump based on the sensor measurements; determine, for a subsequent pumping cycle, a prime objective associated with the operation of the downhole pump based on the at least one parameter; and control stroking of the pumping unit by the electric motor with the variable speed driver in the subsequent pumping cycle based on the prime objective. 2. The pumping unit of claim 1 , wherein to determine the prime objective, the controller is configured to: determine a deviation of the at least one parameter; apply a weighting factor to the deviation to obtain a score for the at least one parameter; and select the prime objective from a preset hierarchy based on the score for the at least one parameter. 3. The pumping unit of claim 2 , wherein the controller comprises a machine learning algorithm configured to adjust the preset hierarchy based on previous pumping cycles. 4. The pumping unit of claim 2 , wherein to select the prime object based on the score, the controller is configured to compromise between two or more of a first of the score for a first of the preset hierarchy for acceptable parameters and a second of the score for a second of the preset hierarchy for unacceptable parameters. 5. The pumping unit of claim 2 , wherein to determine the deviations, the controller is configured to at least one of: compare a value of the at least one parameter to at least one of a minimum value, a maximum value, and a range between the minimum and maximum values; and calculating a difference between a value of the at least one parameter and at least one of the minimum value, maximum value, and an average of the values. 6. The pumping unit of claim 1 , wherein to control the stroking of the pumping unit by the electric motor with the variable speed driver in the subsequent pumping cycle based on the prime objective, the controller is configured to: determine an upstroke speed, a downstroke speed, a turnaround acceleration, and a turnaround deceleration configured to meet the prime objective; and instruct the variable speed driver to operate the electric motor in the subsequent pumping cycle according to the upstroke speed, the downstroke speed, the turnaround acceleration, and the turnaround deceleration. 7. The pumping unit of claim 1 , wherein: to determine the at least one parameter, the controller is configured to: calculate a production rate and a pumping power associated with the downhole pump; and divide the pumping power by the power consumed to obtain an efficiency for the pumping cycle; and to determine the prime objective, the controller is configured to: determine deviations of the efficiency and the production rate; apply weighting factors to the deviations to obtain scores for the efficiency and the production rate; and select the prime objective from a preset hierarchy based on the scores. 8. The pumping unit of claim 1 , wherein the sensor measurements measured by the sensors comprises a torque associated with the electric motor; wherein to determine the at least one parameter, the controller is configured to calculate a torque value of the electric motor during the pumping cycle; and wherein to determine the prime objective, the controller is configured to: determine a deviation of the torque value; apply a weighting factor to the deviation to obtain a scores for the torque value; and select the prime objective from a preset hierarchy based on the score. 9. The pumping unit of claim 1 , wherein the controller is configured to: monitor for failure of at least one of the rod string and the belt based on at least one of the sensor measurements; and control descent of the counterweight along the tower in response to detection of the failure. 10. The pumping unit of claim 1 , wherein to determine the at least one parameter associated with the downhole pump based on the sensor measurements, the controller is configured to: determine a second position associated with the downhole pump based at least on the first position; and determine a load associated with the downhole pump based at least on the force; and whereby the controller is configured to control an upstroke speed, a downstroke speed, a turnaround acceleration, and a turnaround deceleration for the electric motor with the variable speed driver based on the determined second position and the determined load. 11. The pumping unit of claim 1 , wherein the sensor measurements measured by the sensors further include a vibration associated with the reciprocation of the rod string in the well; and wherein the controller is configured to: monitor for failure of at least one of the rod string and the belt based on one or more of the first position, the force, the power, and the vibration; and control, with the variable speed driver, descent of the counterweight along the tower in response to detection of the failure. 12. The pumping unit of claim 1 , wherein at least one of the sensors is configured to detect a second position of the counterweight, the second position being related to the first position associated with the rod string, whereby the controller is configured to determine the first position of the rod string based on the second position of the counterweight detected by the at least one sensor. 13. The pumping unit of claim 1 , wherein the electric motor is an electric three-phase motor; and wherein the pumping unit further comprises a power storage system having: a power converter in electrical communication with the variable speed driver; and a battery in electrical communication with the power converter; and wherein the power storage system is configured to store electrical power generated by the electric three-phase motor during a downstroke of the pumping unit and is configured to supply the stored electrical power to the electric three-phase motor during an upstroke of the pumping unit. 14. The pumping unit of claim 1 , wherein the at least one parameter associated with the operation of the downhole pump comprises at least one of: a production rate of production fluid produced by the downhole pump, a produced volume of the production fluid produced by the downhole pump, a pumping power of the downhole pump; a strokes-per-minute of the pumping unit acting on the downhole pump, reciprocation speed of the rod string, a fillage of the downhole pump, a fluid level of the downhole pump, a stress of the rod string, a torque associated with the electric motor, a vibration of the rod string, a vibration of a production string, a fluid velocity of the production fluid produced by the downhole pump, a drag force of the production fluid on the rod string in the well, and a gas-oil ratio of the production fluid produced by the downhole pump.