Concentration determination device and method

1 . A concentration determination device of a purification system, the purification system comprising: a selective catalytic reduction catalyst arranged in an exhaust pipe of an internal combustion engine to purify NOx in exhaust gas of the internal combustion engine; a reducing agent supply unit arranged to supply urea or ammonia as a reducing agent to the selective catalytic reduction catalyst; an ammonia sensor arranged to detect, as a downstream ammonia concentration, an ammonia concentration of the exhaust gas flowing out of the selective catalytic reduction catalyst; and a NOx sensor arranged to detect, as a downstream NOx concentration, a NOx concentration of the exhaust gas flowing out of the selective catalytic reduction catalyst, the concentration determination device being configured to determine a value of the downstream ammonia concentration based on a detection result of the ammonia sensor, the concentration determination device comprising: a supply control section that controls the reducing agent supply unit to supply the reducing agent to the selective catalytic reduction catalyst in a fuel-cut state where fuel supply to the internal combustion engine is stopped; a supply correction section that corrects the determined value of the downstream ammonia concentration based on a detection result of the NOx sensor and an oxygen concentration of the exhaust gas after the supply of the reducing agent to the selective catalytic reduction catalyst with the control of the reducing agent supply unit by the supply control section. 2 . The concentration determination device as claimed in claim 1 , wherein the reducing agent supply unit is an urea supply unit that supplies urea as the reducing agent to the selective catalytic reduction catalyst; wherein the concentration determination device converts the detection result of the ammonia sensor to an ammonia concentration value according to an ammonia concentration correction formula, which represents a correlation of first and second converted ammonia concentrations where the first converted ammonia concentration is a value calculated according to a correlation formula between the detection result of the ammonia sensor and the ammonia concentration of the exhaust gas; and the second converted ammonia concentration is a value calculated from the NOx sensor detection result and the oxygen concentration of the exhaust gas, and determines the ammonia concentration value as the downstream ammonia concentration; and wherein the supply correction section corrects the determined value of the downstream ammonia concentration by updating the ammonia concentration correction formula. 3 . The concentration determination device as claimed in claim 2 , further comprising: a prohibition section that, when the NOx concentration of the exhaust gas exceeds a predetermined prohibition judgement concentration level, prohibits the supply correction section from updating the ammonia concentration correction formula. 4 . The concentration determination device as claimed in claim 1 , wherein the reducing agent supply unit is an ammonia supply unit that supplies ammonia as the reducing agent to the selective catalytic reduction catalyst. 5 . The concentration determination device as claimed in claim 1 , wherein the NOx sensor is a limiting-current gas sensor. 6 . The concentration determination device as claimed in claim 1 , wherein the ammonia sensor and the NOx sensor are combined into one as an integrated gas sensor. 7 . A concentration determination method for a purification system, the purification system comprising: a selective catalytic reduction catalyst arranged in an exhaust pipe of an internal combustion engine to purify NOx in exhaust gas of the internal combustion engine; a reducing agent supply unit arranged to supply urea or ammonia as a reducing agent to the selective catalytic reduction catalyst; an ammonia sensor arranged to detect, as a downstream ammonia concentration, an ammonia concentration of the exhaust gas flowing out of the selective catalytic reduction catalyst; and a NOx sensor arranged to detect, as a downstream NOx concentration, a NOx concentration of the exhaust gas flowing out of the selective catalytic reduction catalyst, the concentration determination method being for determining a value of the downstream ammonia concentration based on a detection result of the ammonia sensor, the concentration determination method comprising: controlling the reducing agent supply unit to supply to the reducing agent to the selective catalytic reduction catalyst in a fuel-cut state where fuel supply to the internal combustion engine is stopped; and correcting the determined value of the downstream ammonia concentration based on a detection result of the NOx sensor and an oxygen concentration of the exhaust gas after the supply of the reducing agent to the selective catalytic reduction catalyst by the controlling of the reducing agent supply unit. 8 . (canceled)