Variable compression ratio piston system

What is claimed is: 1. A variable compression ratio piston system comprising: at least one engine piston assembly of an engine, each engine piston assembly comprising: an engine piston slidingly received in an engine cylinder of the engine; a first control piston mechanically coupled to the engine piston, the first control piston actuating in a first control piston bore, the first control piston and the first control piston bore defining a first chamber; a second control piston mechanically coupled to the engine piston, the second control piston actuating in a second control piston bore, the second control piston and the second control piston bore defining a second chamber; a low compression ratio line supplying hydraulic fluid to the first chamber and draining hydraulic fluid from the first chamber; and a high compression ratio line supplying hydraulic fluid to the second chamber and draining hydraulic fluid from the second chamber; and a control system selectively permitting flow of hydraulic fluid between the high compression ratio line and the low compression ratio line comprising: at least one control valve; at least one variable force solenoid coupled to the control valve controlling a position of the control valve, an engine control unit controlling an energization state of the variable force solenoid; a first check valve permitting flow of hydraulic fluid to the high compression ratio line but preventing flow of hydraulic fluid from the high compression ratio line; a second check valve permitting flow of hydraulic fluid to the low compression ratio line but preventing flow of hydraulic fluid from the low compression ratio line; and a central line permitting flow of hydraulic fluid from the control valve to the first check valve and the second check valve; wherein, when the control valve is in a first position, a first net flow of hydraulic fluid from the second chamber to the first chamber by way of the high compression line, the control valve, and the low compression line is permitted such that the first net flow raises the first control piston in the first control piston bore and lowers the second control piston in the second control bore to lower the engine piston, thereby decreasing a compression ratio of the engine piston toward a low compression ratio state; and wherein, when the control valve is in a second position, a second net flow of hydraulic fluid from the first chamber to the second chamber by way of the low compression line, the control valve, and the high compression line is permitted such that the second net flow raises the second control piston in the second control piston bore and lowers the first control piston in the first control bore to raise the engine piston, thereby increasing the compression ratio of the engine piston toward a high compression ratio state. 2. The variable compression ratio piston system of claim 1 , wherein, when the control valve is in a third position, the control system prevent flow of hydraulic fluid between the first chamber and the second chamber by way of the high compression line, the control valve, and the low compression line, thereby maintaining the compression ratio of the engine piston. 3. The variable compression ratio piston system of claim 1 , wherein the control valve further comprises: a control valve body receiving hydraulic fluid from a hydraulic fluid source and having a control valve bore; a spool slidingly received in the control valve bore and comprising a first land and a second land; and a control valve spring biasing the spool outward from the control valve bore. 4. The variable compression ratio piston system of claim 3 , wherein, when the control valve is in the first position, the first land blocks flow of hydraulic fluid from the low compression ratio line to the central line such that a net flow of hydraulic fluid from the second chamber to the first chamber by way of the high compression fluid line to the control valve to the central line to the first check valve to the low compression ratio line raises the first control piston in the first control piston bore and lowers the second control piston in the second control bore to lower the engine piston, thereby decreasing the compression ratio of the engine piston toward the low compression ratio state. 5. The variable compression ratio piston system of claim 3 , wherein, when the control valve is in the second position, the second land blocks flow of hydraulic fluid from the high compression ratio line to the central line such that a net flow of hydraulic fluid from the first chamber to the second chamber by way of the low compression fluid line to the control valve to the central line to the second check valve to the high compression ratio line raises the second control piston in the second control piston bore and lowers the first control piston in the first control bore to raise the engine piston, thereby increasing the compression ratio of the engine piston toward the high compression ratio state. 6. The variable compression ratio piston system of claim 3 , wherein, when the control valve is in a third position, the first land and the first check valve block flow of hydraulic fluid from the low compression ratio line and the second land and the second check valve block flow of hydraulic fluid from the high compression ratio line to the central line, thereby preventing flow from the first chamber and the second chamber to maintain the compression ratio of the engine piston. 7. The variable compression ratio piston system of claim 3 further comprising an inlet check valve located between the control valve and the hydraulic fluid source permitting flow of hydraulic fluid from the hydraulic fluid source to the control valve but preventing flow of hydraulic fluid from the control valve to the hydraulic fluid source. 8. The variable compression ratio piston system of claim 1 further comprising a control piston bias spring located in the first chamber to bias the variable compression ratio piston system toward the low compression ratio state. 9. The variable compression ratio piston system of claim 1 further comprising a control piston bias spring located in the second chamber to bias the variable compression ratio piston system toward the high compression ratio state. 10. The variable compression ratio piston system of claim 1 , wherein the at least one engine piston assembly comprises a plurality of engine piston assemblies. 11. The variable compression ratio piston system of claim 10 , wherein the at least one control valve comprises a single control valve. 12. The variable compression ratio piston system of claim 10 , wherein the at least one control valve comprises a plurality of control valves equal in number to the plurality of engine piston assemblies, each engine piston being controlled by one of the plurality of control valves. 13. The variable compression ratio piston system of claim 1 , wherein each engine piston assembly further comprises: a connecting rod having the first control piston bore and the second piston bore; an eccentric bearing coupling the connecting rod to the engine piston; a first linking rod coupling the first control piston to the eccentric bearing; and a second linking rod coupling the first control piston to the eccentric bearing. 14. The variable compression ratio piston system of claim 1 , wherein flow of hydraulic fluid is actuated by alternating forces from inertial and combustion forces on a crankshaft from operation of the engine. 15. The variable compression ratio piston system of claim 1 , wherein the actuator is a regulated p