Apparatus for synthesizing engine sound

The invention claimed is: 1. An apparatus for synthesizing an engine sound, comprising: a memory configured to store a plurality of combustion sound samples corresponding to respective cylinders among a plurality of cylinders included in an engine; a sound output unit; and a processor configured to: determine a combustion period of the engine, acquire a gain based at least in part on vehicle state information comprising at least one of a number of revolutions per minute (RPM) of a crankshaft of a vehicle, a force exerted on an accelerator pedal of the vehicle, or a vehicle speed, wherein the gain is acquired by using a first element gain that varies according to the RPM, a second element gain that varies according to the force exerted on the accelerator pedal, and a third element gain that varies according to the vehicle speed, adjust a size of each of the plurality of combustion sound samples according to the acquired gain, and cause at least one of the stored plurality of combustion sound samples to overlap combustion noises from corresponding cylinders among the plurality of cylinders by outputting, through the sound output unit, a synthesized virtual engine sound according to the determined combustion period and the adjusted size of each of the plurality of combustion sound samples. 2. The apparatus according to claim 1 , wherein the combustion period is determined based at least in part on a number of revolutions per second of a crankshaft, a number of revolutions per second per cycle of the crankshaft provided in each of the plurality of cylinders, and a number of revolutions per minute per cycle of the engine. 3. The apparatus according to claim 2 , wherein the combustion period is obtained by a formula: ((the number of revolutions per second per cycle of a crankshaft/60)/the number of revolutions per second per cycle of the crankshaft provided in each of the plurality of cylinders) multiplied by a number of combustions of the engine per minute per cycle. 4. The apparatus according to claim 1 , wherein the plurality of cylinders comprises a first cylinder, a second cylinder, a third cylinder, and a fourth cylinder, wherein the plurality of combustion sound samples comprises a first combustion sound sample, a second combustion sound sample, a third combustion sound sample, and a fourth combustion sound sample, wherein causing at least one of the stored plurality of combustion sound samples to overlap the combustion noises further comprises: causing a combustion noise of the first cylinder to overlap the first combustion sound sample corresponding to the first cylinder at a first combustion time point of the first cylinder, causing a combustion noise of the second cylinder to overlap the second combustion sound sample corresponding to the second cylinder at a second combustion time point of the second cylinder, causing a combustion noise of the third cylinder to overlap the third combustion sound sample corresponding to the third cylinder at a third combustion time point of the third cylinder, or causing a combustion noise of the fourth cylinder to overlap the fourth combustion sound sample corresponding to the fourth cylinder at a fourth combustion time point of the fourth cylinder, wherein a time difference between the second combustion time point and the first combustion time point, between the third combustion time point and the second combustion time point, and between the fourth combustion time point and the third combustion time point each correspond to the determined combustion period. 5. The apparatus according to claim 1 , wherein the gain is further acquired by multiplying the first element gain by the second element gain and the third element gain. 6. The apparatus according to claim 1 , wherein the gain is further acquired by adding the second element gain and the third element gain to the first element gain.