Engine system and engine controlling method

What is claimed is: 1. An engine system, comprising: an engine mounted on a vehicle and having an injector, a spark plug, an intake valve operating mechanism configured to control an open timing of an intake valve, and an exhaust valve operating mechanism configured to control an open timing of an exhaust valve; an accelerator opening sensor configured to detect operation of an accelerator pedal of the vehicle; and a controller configured to output an electric signal to each of the injector, the spark plug, the intake valve operating mechanism, and the exhaust valve operating mechanism, based on an electric signal from the accelerator opening sensor, wherein the engine is configured to execute flame propagation combustion in which fuel injected into a cylinder from the injector is combusted by being ignited by the spark plug, and compressed self-ignition combustion in which fuel injected into the cylinder from the injector carries out compressed self-ignition, without being ignited by the spark plug, wherein the controller performs a combustion control for controlling the injector, the spark plug, the intake valve operating mechanism, and the exhaust valve operating mechanism so that a target torque set based on an accelerator opening detected by the accelerator opening sensor is realized in a specific cycle in the future from a present time by a given delay time, wherein, in the combustion control, the controller is configured to execute: a target load setting processing in which a target load in the specific cycle is set based on the accelerator opening detected by the accelerator opening sensor; a combustion schedule setting processing in which a combustion mode is set beforehand based on the target load set by the target load setting processing; a first in-cylinder property estimating processing in which an in-cylinder property when the intake valve is closed in a present cycle is estimated; a target property setting processing in which a target in-cylinder property when the intake valve is closed in the specific cycle is calculated based on a first estimated in-cylinder property estimated by the first in-cylinder property estimating processing so that the combustion mode set by the combustion schedule setting processing is realized in the specific cycle; a target operating amount setting processing in which a target operating amount of each of the intake valve operating mechanism and the exhaust valve operating mechanism is set based on the target in-cylinder property calculated by the target property setting processing; a second in-cylinder property estimating processing in which, when the given period passes and the cycle becomes the specific cycle, an actual in-cylinder property when the intake valve is closed in the specific cycle is estimated; and a correcting processing in which, when a second estimated in-cylinder property estimated by the second in-cylinder property estimating processing deviates from the target in-cylinder property, an operating amount of at least one of the injector and the spark plug is adjusted. 2. The engine system of claim 1 , further comprising an in-cylinder pressure sensor configured to detect a pressure inside the cylinder, wherein, in the first in-cylinder property estimating processing, the controller estimates an in-cylinder property in the present cycle at least in part based on a detection result of the in-cylinder pressure sensor. 3. The engine system of claim 1 , wherein the controller accounts for a deviation between a timing at which the controller outputs an electric signal to each of the intake valve operating mechanism and the exhaust valve operating mechanism and a timing at which the intake valve operating mechanism and the exhaust valve operating mechanism actually operate in response to the electric signal, and outputs the electric signal to each of the intake valve operating mechanism and the exhaust valve operating mechanism at a timing earlier than the timing at which the intake valve operating mechanism and the exhaust valve operating mechanism actually operate. 4. The engine system of claim 3 , further comprising an in-cylinder pressure sensor configured to detect a pressure inside the cylinder, wherein, in the first in-cylinder property estimating processing, the controller estimates an in-cylinder property in the present cycle at least in part based on a detection result of the in-cylinder pressure sensor. 5. The engine system of claim 1 , wherein the cylinder is one of a plurality of cylinders, and wherein the controller performs the first in-cylinder property estimating processing, the target property setting processing, and the target operating amount setting processing for every cylinder. 6. The engine system of claim 5 , wherein the controller accounts for a deviation between a timing at which the controller outputs an electric signal to each of the intake valve operating mechanism and the exhaust valve operating mechanism and a timing at which the intake valve operating mechanism and the exhaust valve operating mechanism actually operate in response to the electric signal, and outputs the electric signal to each of the intake valve operating mechanism and the exhaust valve operating mechanism at a timing earlier than the timing at which the intake valve operating mechanism and the exhaust valve operating mechanism actually operate. 7. The engine system of claim 5 , further comprising an in-cylinder pressure sensor configured to detect a pressure inside the cylinder, wherein, in the first in-cylinder property estimating processing, the controller estimates an in-cylinder property in the present cycle at least in part based on a detection result of the in-cylinder pressure sensor. 8. The engine system of claim 5 , wherein the intake valve operating mechanism is configured to adjust operation of an intake-side cam shaft configured to operate the intake valves of the plurality of cylinders, wherein the exhaust valve operating mechanism is configured to adjust operation of an exhaust-side cam shaft configured to operate the exhaust valves of the plurality of cylinders, wherein, in the target operating amount setting processing, the controller sets the target operating amount for every cylinder, and then calculates a target path that is a path of the target operating amount, based on the target operating amount, and wherein the controller outputs an electric signal to each of the intake valve operating mechanism and the exhaust valve operating mechanism based on the target path. 9. The engine system of claim 8 , wherein the controller accounts for a deviation between a timing at which the controller outputs an electric signal to each of the intake valve operating mechanism and the exhaust valve operating mechanism and a timing at which the intake valve operating mechanism and the exhaust valve operating mechanism actually operate in response to the electric signal, and outputs the electric signal to each of the intake valve operating mechanism and the exhaust valve operating mechanism at a timing earlier than the timing at which the intake valve operating mechanism and the exhaust valve operating mechanism actually operate. 10. The engine system of claim 8 , further comprising an in-cylinder pressure sensor configured to detect a pressure inside the cylinder, wherein, in the first in-cylinder property estimating processing, the controller estimates an in-cylinder property in the present cycle at least in part based on a detection result of the in-cylinder pressure sensor. 11. A method of controlling an engine, comprising the steps of: setting, by a controller, a target torque in a specific cycle in the future from