Engine control apparatus

What is claimed is: 1. An engine control apparatus, comprising: an oxygen sensor that outputs an oxygen sensor output value corresponding to an oxygen concentration of exhaust gas exhausted from an engine; and an air-fuel ratio feedback control unit that performs air-fuel ratio feedback control on the basis of the oxygen sensor output value in order to adjust an amount of fuel injected into the engine, the air-fuel ratio feedback control unit including: an air-fuel ratio region detection unit that detects an air-fuel ratio region, among four or more preset air-fuel ratio regions, to which an air-fuel ratio of the engine belongs on the basis of the oxygen sensor output value; and an air-fuel ratio feedback control correction amount calculation unit that calculates a first feedback control correction amount for use during the air-fuel ratio feedback control in accordance with the air-fuel ratio region detected by the air-fuel ratio region detection unit, wherein the four or more regions include at least a first rich region and a second rich region set on a rich side of a stoichiometric air-fuel ratio in ascending order of a value of the air-fuel ratio, and a first lean region and a second lean region set on a lean side of the stoichiometric air-fuel ratio in descending order of the value of the air-fuel ratio, and the air-fuel ratio region detection unit: includes a first determination voltage set at a higher value than a target voltage value that is a voltage value indicating the stoichiometric air-fuel ratio, and a second determination voltage set at a lower value than the target voltage value; compares the oxygen sensor output value respectively with the first determination voltage and the second determination voltage; determines that the air-fuel ratio of the engine is within the first rich region when the oxygen sensor output value equals or exceeds the first determination voltage; determines that the air-fuel ratio of the engine is within the second rich region when the oxygen sensor output value equals or exceeds the target voltage value but is lower than the first determination voltage; determines that the air-fuel ratio of the engine is within the second lean region when the oxygen sensor output value equals or exceeds the second determination voltage but is lower than the target voltage value; and determines that the air-fuel ratio of the engine is within the first lean region when the oxygen sensor output value is lower than the second determination voltage, wherein a rate of change of the oxygen sensor output value varies relative to the air-fuel ratio of the engine, and wherein the first determination voltage and the second determination voltage are set such that, at a predetermined temperature of the oxygen sensor; when the oxygen sensor output value exceeds the first determination voltage, the rate of change of the oxygen sensor output value varies at a first rate relative to the air-fuel ratio of the engine, when the oxygen sensor output value is between the first determination voltage and the second determination voltage, the rate of change of the oxygen sensor output value varies at a second rate relative to the air-fuel ratio of the engine, and when the oxygen sensor output value is lower than the second determination voltage, the rate of change of the oxygen sensor output value varies at a third rate relative to the air-fuel ratio of the engine, wherein the second rate is greater than the first rate and the third rate. 2. The engine control apparatus according to claim 1 , wherein the air-fuel ratio feedback control unit further includes: a sensor element temperature estimation unit that estimates a temperature of a sensor element constituting the oxygen sensor; and an air-fuel ratio determination voltage updating unit that corrects at least one of the first determination voltage and the second determination voltage on the basis of the temperature of the sensor element estimated by the sensor element temperature estimation unit, and the air-fuel ratio determination voltage updating unit: corrects at least one of the first determination voltage and the second determination voltage such that the first determination voltage is reduced below a current value and the second determination voltage is increased above a current value when the estimated temperature of the sensor element is higher than a reference value; and corrects at least one of the first determination voltage and the second determination voltage such that the first determination voltage is increased above the current value and the second determination voltage is reduced below the current value when the estimated temperature of the sensor element is lower than the reference value. 3. The engine control apparatus according to claim 1 , further comprising a sensor group that detects operating conditions of the engine, the operating conditions including at least one of an engine rotation speed, a throttle opening, and an engine temperature, wherein the air-fuel ratio feedback control unit further includes: a transient operating condition detection unit that determines whether the engine is in a transient operating condition or a steady state operating condition on the basis of the operating conditions of the engine detected by the sensor group; and an air-fuel ratio determination voltage updating unit that determines an average value of a maximum value or an average value of a minimum value of the oxygen sensor output value over a preset period in a state in which the engine is determined to be in the steady state operating condition by the transient operating condition detection unit, and corrects at least one of the first determination voltage and the second determination voltage when the average value of the maximum value or the average value of the minimum value differs from a reference value set in relation thereto, and the air-fuel ratio determination voltage updating unit: reduces at least one of the first determination voltage and the second determination voltage below a current value when the average value of the maximum value or the average value of the minimum value is lower than the reference value set in relation thereto; and increases at least one of the first determination voltage and the second determination voltage above the current value when the average value of the maximum value or the average value of the minimum value is higher than the reference value set in relation thereto. 4. The engine control apparatus according to claim 1 , further comprising a sensor group that detects operating conditions of the engine, wherein the air-fuel ratio feedback control unit further includes a transient operating condition detection unit that determines whether or not the engine is in a transient operating condition on the basis of the operating conditions of the engine detected by the sensor group, and the air-fuel ratio feedback control correction amount calculation unit: calculates a second feedback control correction amount for use during the air-fuel ratio feedback control on the basis of a determination result indicating whether or not the oxygen sensor output value equals or exceeds the target voltage value; outputs the first feedback control correction amount as a final feedback control correction amount when the transient operating condition detection unit determines that the engine is in the transient operating condition; and outputs the second feedback control correction amount as the final feedback control correction amount when the transient operating condition detection unit determines that the engine is not in the transient operating condition. 5. The engine control apparatus according to claim 2 , further comprising a sensor group that detects operating conditions of the engine, wh