Focus position detection device and focus position detection method

What is claimed is: 1 . A focus position detection device comprising: a processor configured to: identify a plurality of shift amount calculation areas included in a measurement area set on an image sensor in an imaging unit including the image sensor which generates an image and an optical system, each of the plurality of shift amount calculation areas generating a first sub-image and a second sub-image which represent a subject appearing in the shift amount calculation area, wherein a shift amount between the subject on the first sub-image and the subject on the second sub-image changes in accordance with a distance between a focus position at which the subject is brought into focus by the optical system and the image sensor; calculate, for each of the plurality of shift amount calculation areas, a local shift amount of the second sub-image with respect to the first sub-image when the subject on the first sub-image and the subject on the second sub-image are most coincident with each other; calculate, for each of the plurality of shift amount calculation areas, a feature quantity representing a probability distribution representing accuracy of the local shift amount; estimate, for each of the plurality of shift amount calculation areas, the probability distribution on the basis of the local shift amount and the feature quantity; combine the probability distributions of the plurality of shift amount calculation areas to obtain a distribution of accuracy of the local shift amount for the measurement area; and calculate a representative value representing a distance between a focus position produced by the optical system and the image sensor on the basis of the distribution. 2 . The focus position detection device according to claim 1 , wherein the calculating the feature quantity calculates, for each of the plurality of shift amount calculation areas, the sum of absolute differences between pixel values of corresponding pixels of the first sub-image and the second sub-image while shifting the second sub-image with respect to the first sub-image and calculates the feature quantity on the basis of the sum. 3 . The focus position detection device according to claim 2 , wherein the calculating the feature quantity calculates, as the feature quantity, a variance feature quantity representing a variance of a probability distribution representing accuracy of the sum for each shift amount of the second sub-image with respect to the first image and a mean feature quantity representing a rate of change in a mean of a probability distribution representing accuracy of the sum with respect to change in the shift amount. 4 . The focus position detection device according to claim 3 , wherein the calculating the feature quantity calculates a minimum value of the sum as the variance feature quantity. 5 . The focus position detection device according to claim 3 , wherein the calculating the feature quantity calculates, for each of the plurality of shift amount calculation areas, a root square error between pixel values of corresponding pixels of a noiseless image obtained by applying a denoising filter to one of the first sub-image and the second sub-image and the one of the first sub-image and the second sub-image as the variance feature quantity. 6 . The focus position detection device according to claim 3 , wherein the calculating the feature quantity calculates, for each of the plurality of shift amount calculation areas, a difference between a maximum pixel value and a minimum pixel value of one of the first sub-image and the second sub-image or a variance of pixel values of one of the first sub-image and the second sub-image as the mean feature quantity. 7 . The focus position detection device according to claim 2 , wherein the calculating the feature quantity calculates the sum for each of a plurality of shift amounts of the second sub-image with respect to the first sub-image as the feature quantity. 8 . The focus position detection device according to claim 2 , wherein the estimating the probability distribution calculates, for each of the plurality of shift amount calculation areas, a mean and a variance of a probability distribution representing accuracy of the sum for each of a plurality of shift amounts of the second sub-image with respect to the first sub-image on the basis of the local shift amount and the feature quantities and estimates a probability distribution representing accuracy of the local shift amount on the basis of the mean and the variance. 9 . The focus position detection device according to claim 1 , wherein the combining the probability distributions of the plurality of shift amount calculation areas assigns a weight to a shift amount corresponding to a mean of a probability distribution representing accuracy of the local shift amount for each of the plurality of shift amount calculation areas, adds up the weights of the shift amounts, one by one, in each of the plurality of shift amount calculation areas, and applies a smoothing filter to obtain the distribution, wherein the smaller the variance of the probability distribution, the greater the weight is. 10 . The focus position detection device according to claim 1 , wherein the calculating the representative value selects the shift amount calculation areas in which a shift amount equivalent to a mean of the probability distribution is included within a predetermined range including a shift amount having the highest accuracy in the distribution from among the plurality of shift amount calculation areas and calculates a shift amount corresponding to a mean of a sum of the probability distributions for the selected shift amount calculation areas as the representative value. 11 . A method for detecting a focus position comprising: identifying, by a processor, a plurality of shift amount calculation areas included in a measurement area set on an image sensor in an imaging unit including the image sensor which generates an image and an optical system, each of the plurality of shift amount calculation areas generating a first sub-image and a second sub-image which represent a subject appearing in the shift amount calculation area, wherein a shift amount between the subject on the first sub-image and the subject on the second sub-image changes in accordance with a distance between a focus position at which the subject is brought into focus by the optical system and the image sensor; calculating, by the processor, for each of the plurality of shift amount calculation areas, a local shift amount of the second sub-image with respect to the first sub-image when the subject on the first sub-image and the subject on the second sub-image are most coincident with each other; calculating, by the processor, for each of the plurality of shift amount calculation areas, a feature quantity representing a probability distribution representing accuracy of the local shift amount; estimating, by the processor, for each of the plurality of shift amount calculation areas, the probability distribution on the basis of the local shift amount and the feature quantity; combining, by the processor, the probability distributions of the plurality of shift amount calculation areas to obtain a distribution of accuracy of the local shift amount for the measurement area; and calculating, by the processor, a representative value representing a distance between a focus position produced by the optical system and the image sensor on the basis of the distribution. 12 . The focus position detection method according to claim 11 , wherein the calculating the feature quantity calculates, for each of the plurality