Autonomous active flow control valve system

What is claimed is: 1. An autonomous active flow control valve system, comprising: a first downhole flow control device; a second downhole flow control device, wherein the first downhole flow control device and the second downhole flow control device each comprise: a valve; a local control unit coupled to the valve and configured to control actuation of the valve; a sensor configured to sense at least one parameter; and a central control unit disposed downhole and communicatively coupled to the local control unit of the first downhole flow control device and to the local control unit of the second downhole flow control device, the central control unit comprising a central processor configured to: receive an output of the sensor of the first downhole flow control device and an output of the sensor of the second downhole flow control device; provide a first control signal to the local control unit of the first downhole flow control device for controlling the valve of the first downhole flow control device; and provide a second control signal to the local control unit of the second downhole flow control device for controlling the valve of the second downhole flow control device, wherein the first control signal and the second control signal are generated at least based on a pre-programmed protocol stored in the central processor. 2. The autonomous active flow control valve system of claim 1 , comprising: one or more power units disposed downhole and coupled to the central control unit, the first downhole flow control device, or both. 3. The autonomous active flow control valve system of claim 1 , further comprising an emergency valve closeout mechanism coupled to the central control unit. 4. The autonomous active flow control valve system of claim 1 , wherein the central control unit is wirelessly communicative with the first downhole flow control device and the second downhole flow control device. 5. The autonomous active flow control valve system of claim 1 , wherein the first sensor is configured to monitor flow rate, pressure, temperature, sound, phase composition of fluids, or any combination thereof with respect to a first well zone and wherein the second sensor is configured to monitor flow rate, pressure, temperature, sound, phase composition of fluids, or any combination thereof with respect to a second well zone. 6. The autonomous active flow control valve system of claim 1 , wherein the valve controls a flow of fluid from a reservoir into the downhole flow control device. 7. The autonomous active flow control valve system of claim 1 , wherein the central processor is configured to generate the first control signal to control the valve of the first downhole flow control device via the local control unit of the first downhole flow control device and further based on the output of the sensor of the first downhole flow control device and the output of the sensor of the second downhole flow control device. 8. The autonomous active flow control valve system of claim 1 , wherein the central control unit, the first downhole flow control device, and the second downhole flow control device are coupled to a downhole pipe string. 9. An autonomous active flow control valve system, comprising: a first downhole flow control device comprising: a first valve configured to control the flow of a fluid from a reservoir into the valve system; a first local controller coupled to the first valve and configured to control actuation of the first valve; and at least one first sensor communicatively coupled to the first local controller and configured to sense at least one parameter relevant to the first downhole flow control device; and a second downhole flow control device comprising: a second valve configured to control the flow of a fluid from a reservoir into the valve system; a second local controller coupled to the second valve and configured to control actuation of the second valve, the second local controller communicatively coupled to the first local controller; and at least one second sensor communicatively coupled to the second local controller and configured to sense at least one parameter relevant to the second downhole flow control device, wherein the first local controller controls the first valve and the second valve and wherein the first local controller controls the first valve based on one or more outputs of the at least one first sensor, one or more outputs of the at least one second sensor, and based on a pre-programmed protocol stored in the first local controller. 10. The autonomous active flow control valve system of claim 9 , wherein the first local controller maintains a normalized flow rate across the first and second downhole flow control devices. 11. The autonomous active flow control valve system of claim 9 , wherein the first local controller reduces a flow rate at one of the first and second downhole flow control devices to match that of the other of the first and second downhole flow control devices. 12. The automatic active flow control valve system of claim 9 , wherein the first downhole flow control device communicates wirelessly with the second downhole flow control device. 13. The automatic active flow control valve system of claim 9 , wherein the at least one first sensor and the at least one second sensor are configured to monitor flow rate, pressure, temperature, sound, phase composition of fluids, or any combination thereof with respect to a well zone. 14. The automatic active flow control valve system of claim 9 , wherein the first local controller controls the second valve based on one or more outputs of the at least one first sensor and the at least one second sensor, and based on a pre-programmed protocol stored in the first local controller. 15. The automatic active flow control valve system of claim 9 , wherein the second local controller controls the second valve based on one or more outputs of the at least one first sensor and the at least one second sensor, and based on a pre-programmed protocol stored in the first local controller. 16. An autonomous active flow control valve system, comprising: a first downhole flow control device comprising: a first valve; and a first sensor configured to sense at least one parameter; a second downhole flow control device comprising: a second valve; and a second sensor configured to sense the at least one parameter; and a central control unit disposed downhole and communicatively coupled to the first downhole flow control device and to the second downhole flow control device, the central control unit comprising a central processor configured to: receive an output of the first sensor; receive an output of the second sensor; and provide one or more control commands to the first valve, the one or more control commands generated based on at least the output of the first sensor, the output of the second sensor, and a pre-programmed protocol stored in the central processor. 17. The autonomous active flow control valve system of claim 16 , wherein the central processor is configured to provide one or more second control commands to the second valve, the one or more second control commands generated based on the pre-programmed protocol stored in the central processor. 18. The autonomous active flow control valve system of claim 16 , wherein the central control unit, the first downhole flow control device, and the second downhole flow control device are coupled to a downhole pipe string. 19. The autonomous active flow control valve system of