Internal combustion engine control apparatus

What is claimed is: 1. An internal combustion engine control apparatus for estimating an air-fuel ratio of an air-fuel mixture, with which a cylinder is filled, and controlling an internal combustion engine using the estimated air-fuel ratio, the control apparatus comprising: a cylinder pressure sensor that detects a pressure in the cylinder as a cylinder pressure; an operational status detection unit that detects an operational status of the internal combustion engine; a reference crank angle setting unit that sets, as a reference crank angle, a crank angle immediately before combustion of the air-fuel mixture is started in accordance with the detected operational status of the internal combustion engine; a reference cylinder pressure calculation unit that calculates, as a reference cylinder pressure, a pressure in the cylinder generated at the set reference crank angle on a basis of a temperature property of a specific-heat ratio of the air-fuel mixture on the conditions that no external EGR gas derived from an exhaust reflux is present in the air-fuel mixture and that the air-fuel ratio of the air-fuel mixture is a predetermined air-fuel ratio; an air-fuel ratio estimation unit that estimates the air-fuel ratio of the air-fuel mixture on a basis of a pressure difference between an actual cylinder pressure detected at the reference crank angle by the cylinder pressure sensor and the calculated reference cylinder pressure; and a control unit that controls the internal combustion engine in accordance with the estimated air-fuel ratio of the air-fuel mixture. 2. The internal combustion engine control apparatus according to claim 1 , wherein the operational status detection unit detects, as the operational status of the internal combustion engine, ignition timing, a pressure of intake air to be sucked into the cylinder, and a speed of the internal combustion engine, and the reference crank angle setting unit sets the reference crank angle in accordance with the detected ignition timing, the detected intake air pressure, and the detected speed of the internal combustion engine. 3. The internal combustion engine control apparatus according to claim 2 , wherein the reference crank angle setting unit limits the set reference crank angle to a crank angle corresponding to a compression TDC if the reference crank angle is closer to a retard side than the compression TDC. 4. The internal combustion engine control apparatus according to claim 1 , further comprising: an initial crank angle acquisition unit that acquires, as an initial crank angle, a crank angle at a compression start time when compression of the air-fuel mixture is started in a compression stroke; an initial cylinder temperature acquisition unit that acquires, as an initial cylinder temperature, a temperature in the cylinder at the compression start time; and an initial cylinder pressure acquisition unit that acquires, as an initial cylinder pressure, a pressure in the cylinder at the compression start time, wherein the reference cylinder pressure calculation unit calculates the reference cylinder pressure on a basis of the temperature property of the specific-heat ratio of the air-fuel mixture in accordance with the reference crank angle, the acquired initial crank angle, the acquired initial cylinder temperature, and the acquired initial cylinder pressure on the condition that the predetermined air-fuel ratio is a theoretical air-fuel ratio. 5. The internal combustion engine control apparatus according to claim 1 , further comprising: an initial crank angle acquisition unit that acquires, as an initial crank angle, a crank angle at a compression start time when compression of the air-fuel mixture is started in a compression stroke; an initial cylinder temperature acquisition unit that acquires, as an initial cylinder temperature, a temperature in the cylinder at the compression start time; an initial cylinder pressure acquisition unit that acquires, as an initial cylinder pressure, a pressure in the cylinder at the compression start time; and a target air-fuel ratio setting unit that sets a target air-fuel ratio as a target for the air-fuel ratio of the air-fuel mixture, wherein the reference cylinder pressure calculation unit calculates the reference cylinder pressure on a basis of the temperature property of the specific-heat ratio of the air-fuel mixture in accordance with the reference crank angle, the acquired initial crank angle, the acquired initial cylinder temperature, the acquired initial cylinder pressure, and the set target air-fuel ratio on the condition that the predetermined air-fuel ratio is the target air-fuel ratio. 6. The internal combustion engine control apparatus according to claim 4 , further comprising: a speed detection unit that detects a speed of the internal combustion engine; and cooling water temperature detection unit that detects a temperature of cooling water which cools the internal combustion engine, wherein the reference cylinder pressure calculation unit corrects the reference cylinder pressure in accordance with the detected speed of the internal combustion engine and the detected temperature of the cooling water. 7. The internal combustion engine control apparatus according to claim 4 , wherein the air-fuel ratio estimation unit calculates an air-fuel ratio coefficient representing a slope of an equivalence ratio of the air-fuel mixture with respect to the pressure difference on a basis of the temperature property of the specific-heat ratio of the air-fuel mixture in accordance with the reference crank angle, the initial crank angle, the initial cylinder temperature, and the initial cylinder pressure and calculates the air-fuel ratio of the air-fuel mixture on a basis of a value obtained by multiplying the pressure difference by the calculated air-fuel ratio coefficient. 8. The internal combustion engine control apparatus according to claim 1 , further comprising: a fuel injection valve that directly injects fuel into the cylinder, wherein the cylinder pressure sensor includes a pressure detection element for detecting the cylinder pressure and an amplifier circuit that amplifies a signal output from the pressure detection element and outputs the signal, and the pressure detection element and the amplifier circuit are provided integrally with the fuel injection valve that directly injects the fuel into the cylinder. 9. An internal combustion engine control apparatus comprising: a cylinder pressure sensor to detect a cylinder pressure in the cylinder to which an air-fuel mixture is supplied; a driving condition detector to detect a driving condition in an internal combustion engine; a reference crank angle setter to calculate, in accordance with the driving condition detected by the driving condition detector, a reference crank angle immediately before which the air-fuel mixture in the cylinder starts combusting; a reference cylinder pressure calculator to calculate a reference cylinder pressure in the cylinder at the reference crank angle based on temperature characteristics of a specific-heat ratio of the air-fuel mixture under a condition that the air-fuel mixture does not include external EGR gas derived from an exhaust reflux and that the air-fuel mixture has a predetermined air-fuel ratio; an air-fuel ratio estimator to calculate the air-fuel ratio of the air-fuel mixture based on a pressure difference between the reference cylinder pressure and the cylinder pressure detected by the cylinder pressure sensor at the reference crank angle; and a controller to control the internal combustion engine in accordance with the air-fuel ratio of the air-fuel mixture calculated by the air-fuel ratio estimator.