Determining in-cylinder pressure by analyzing current of a spark plug

What is claimed is: 1. An ignition device for an internal combustion engine in which a discharge voltage is generated between electrodes of a spark plug connected to a secondary coil by energizing a primary current to a primary coil of an ignition coil and interrupting the primary current, comprising: a controller configured to: monitor a secondary current flowing across the electrodes of the spark plug; estimate an in-cylinder pressure at ignition timing based on both i) an engine revolution speed and ii) a discharge duration during which the secondary current flows, wherein the discharge duration shortens as the in-cylinder pressure increases, and wherein the discharge duration shortens as the engine revolution speed increases; detect an amount of time-dependent change in mechanical compression ratio based on the estimated in-cylinder pressure; and determine whether the amount of time-dependent change in mechanical compression ratio exceeds a threshold value, wherein, when the amount of time-dependent change in mechanical compression ratio exceeds the threshold value, intake valve closure timing timed after a bottom dead center position is retarded and corrected, and wherein the retarded and corrected intake valve closure timing reduces an effective compression ratio to less than a normal set value. 2. An ignition device for an internal combustion engine in which a discharge voltage is generated between electrodes of a spark plug connected to a secondary coil by energizing a primary current to a primary coil of an ignition coil and interrupting the primary current, comprising: a controller configured to: monitor a secondary current flowing across the electrodes of the spark plug; estimate an in-cylinder pressure at ignition timing based on both i) an engine revolution speed and ii) a discharge duration during which the secondary current flows, wherein the discharge duration shortens as the in-cylinder pressure increases, and wherein the discharge duration shortens as the engine revolution speed increases; detect an amount of time-dependent change in mechanical compression ratio based on the estimated in-cylinder pressure; and determine whether the amount of time-dependent change in mechanical compression ratio exceeds a threshold value, wherein, when the amount of time-dependent change in mechanical compression ratio exceeds the threshold value, a fuel injection amount of an associated cylinder is incrementally corrected. 3. An ignition device for an internal combustion engine in which a discharge voltage is generated between electrodes of a spark plug connected to a secondary coil by energizing a primary current to a primary coil of an ignition coil and interrupting the primary current, comprising: a controller configured to: monitor a secondary current flowing across the electrodes of the spark plug; estimate an in-cylinder pressure at ignition timing based on both i) an engine revolution speed and ii) a discharge duration during which the secondary current flows, wherein the discharge duration shortens as the in-cylinder pressure increases, and wherein the discharge duration shortens as the engine revolution speed increases; detect an amount of time-dependent change in mechanical compression ratio based on the estimated in-cylinder pressure; and determine whether the amount of time-dependent change in mechanical compression ratio exceeds a threshold value, wherein, when the amount of time-dependent change in mechanical compression ratio exceeds the threshold value, deposit combustion operation is executed to positively raise combustion temperature for burning and removing deposits accumulated in cylinders. 4. An ignition device for an internal combustion engine in which a discharge voltage is generated between electrodes of a spark plug by energizing a primary current to a primary coil of an ignition coil and interrupting the primary current, wherein the spark plug is connected to a secondary coil of the ignition coil, the ignition device comprising: a controller configured to: monitor a secondary current flowing across the electrodes of the spark plug; determine a time instant at which an event of capacitive discharge of the spark plug is completed; determine a parameter of the secondary current derived from behavior of the secondary current acquired at the determined time instant; estimate an in-cylinder pressure at ignition timing based on the parameter of the secondary current; and operate the internal combustion engine based on the estimated in-cylinder pressure, wherein the parameter of the secondary current is a current value of the secondary current acquired at the determined time instant. 5. The ignition device as recited in claim 4 , wherein the determination of the time instant is implemented by setting the determined time instant to a time instant at which a predetermined time has elapsed from the ignition timing. 6. The ignition device as recited in claim 5 , wherein the controller is further configured to: detect an amount of time-dependent change in mechanical compression ratio based on the estimated in-cylinder pressure; and determine whether the amount of time-dependent change in mechanical compression ratio exceeds a threshold value. 7. The ignition device as recited in claim 6 , wherein the controller is further configured to: calculate the mechanical compression ratio at the ignition timing of an associated cylinder based on the estimated in-cylinder pressure. 8. The ignition device as recited in claim 7 , wherein the controller is further configured to: compare the calculated mechanical compression ratio with a reference mechanical compression ratio corresponding to the ignition timing, wherein the amount of time-dependent change in mechanical compression ratio is calculated based on the comparison of the calculated mechanical compression ratio with the reference mechanical compression ratio corresponding to the ignition timing. 9. The ignition device as recited in claim 6 , wherein the in-cylinder pressure is estimated for each individual cylinder in a multi-cylinder internal combustion engine, for determining a dispersion in in-cylinder pressure of each of the cylinders. 10. The ignition device as recited in claim 6 , wherein the in-cylinder pressure is estimated under a specified operating condition of the internal combustion engine where an intake pressure is high and the ignition timing is set near a top dead center position. 11. The ignition device as recited in claim 6 , wherein, when the amount of time-dependent change in mechanical compression ratio exceeds the threshold value, an abnormal combustion condition is determined to occur. 12. An ignition device for an internal combustion engine in which a discharge voltage is generated between electrodes of a spark plug by energizing a primary current to a primary coil of an ignition coil and interrupting the primary current, wherein the spark plug is connected to a secondary coil of the ignition coil, the ignition device comprising: a controller configured to: monitor a secondary current flowing across the electrodes of the spark plug; determine a time instant at which an event of capacitive discharge of the spark plug is completed; determine a parameter of the secondary current derived from behavior of the secondary current acquired at or after the determined time instant; estimate an in-cylinder pressure at ignition timing based on the parameter of the secondary current; and operate the internal combustion engine based on the estimated in-cylinder pressure, wherein the parameter of the secondary current is a discharge duration of the spark plug during which the secondary curren