Multiple zone integrated intelligent well completion

What is claimed is: 1. A method of operating a completion string in a subterranean well, the method comprising: coupling a production string to the completion string, wherein a first control line is carried on the production string and a second control line is carried on the completion string; wherein a wet connection is made between the first control line and the second control line; closing a first flow control device and a second flow control device connected in the completion string, the completion string including a first well screen and a second well screen which filter fluid flowing between the completion string and respective ones of a first earth formation zone and a second earth formation zone, wherein a hydraulic control device controls operation of the first flow control device and the second flow control device to variably restrict flow of the fluid through respective ones of the first well screen and the second well screen, wherein the hydraulic control device is disposed within the completion string and wherein the hydraulic control device controls operation of the first flow control device and the second flow control device using a signal transmitted to the hydraulic control device via the first control line and the second control line, and wherein multiple pressure sensors sense pressure of the fluid which flows through respective ones of the first well screen and the second well screen; at least partially opening the first flow control device using the hydraulic control device while the second flow control device remains closed; measuring a first change in the pressure of the fluid as a result of the opening of the first flow control device; and detecting properties of a fluid flowing between the first earth formation zone and the completion string through the first well screen. 2. The method of claim 1 , wherein at least one of the first flow control device and the second flow control device comprises an autonomous variable flow restrictor. 3. The method of claim 1 , wherein the completion string further comprises a combined hydraulic, electrical and optical wet connection. 4. The method of claim 1 , wherein the completion string further comprises an expansion joint with hydraulic, electrical and optical lines traversing the expansion joint. 5. The method of claim 1 , wherein at least one of the first flow control device and the second flow control device comprises a remotely hydraulically actuated variable choke. 6. The method of claim 1 , wherein the completion string further comprises at least one optical waveguide which senses at least one property of the fluid as it flows between the completion string and at least one of the first earth formation zone and the second earth formation zone, the method further comprising measuring a first change in the property sensed by the optical waveguide. 7. The method of claim 1 , further comprising: closing the first flow control device; at least partially opening the second flow control device using the hydraulic control device while the first flow control device remains closed; measuring a second change in the pressure of the fluid as a result of the opening of the second flow control device; detecting properties of a fluid flowing between the second earth formation zone and the completion string through the second well screen. 8. A method of operating a completion string in a subterranean well, the method comprising: coupling a production string to the completion string, wherein a first control line is carried on the production string and a second control line is carried on the completion string; wherein a wet connection is made between the first control line and the second control line; closing a first flow control device and a second flow control device connected in the completion string, the completion string including a first well screen and a second well screen which filter fluid flowing between the completion string and respective ones of a first earth formation zone and a second earth formation zone, wherein the first flow control device and the second flow control device variably restrict flow of the fluid through respective ones of the first well screen and the second well screen, wherein a hydraulic control device controls operation of the first flow control device and the second flow control device to variably restrict flow of the fluid through respective ones of the first well screen and the second well screen, wherein the hydraulic control device is disposed within the completion string and wherein the hydraulic control device controls operation of the first flow control device and the second flow control device using a signal transmitted to the hydraulic control device via the first control line and the second control line, and wherein multiple pressure sensors sense pressure of the fluid which flows through respective ones of the first well screen and the second well screen; at least partially opening the first flow control device while the second flow control device remains closed; measuring a first change in the pressure of the fluid as a result of the opening of the first flow control device, and selectively permitting and preventing substantially unrestricted fluid flow through at least one of the first well screen and the second well screen using a third flow control device, wherein the third flow control device is a mechanically actuated valve. 9. The method of claim 8 , wherein at least one of the first flow control device and the second flow control device comprises a remotely hydraulically actuated variable choke. 10. The method of claim 8 , wherein at least one of the first flow control device and the second flow control device comprises autonomous variable flow restrictors. 11. The method of claim 8 , wherein the completion string further comprises a combined hydraulic, electrical and optical wet connection. 12. The method of claim 8 , wherein the completion string further comprises an expansion joint with hydraulic, electrical and optical lines traversing the expansion joint. 13. The method of claim 8 , wherein the completion string further comprises at least one optical waveguide which senses at least one property of the fluid as it flows between the completion string and at least one of the first earth formation zone and the second earth formation zone, the method further comprising measuring a first change in the property sensed by the optical waveguide. 14. The method of claim 8 , further comprising: closing the first flow control device; at least partially opening the second flow control device using the hydraulic control device while the first flow control device remains closed; measuring a second change in the pressure of the fluid as a result of the opening of the second flow control device; detecting properties of a fluid flowing between the second earth formation zone and the completion string through the second well screen.