Imaging support apparatus, radiation imaging system, and storage medium

What is claimed is: 1. An imaging support apparatus that supports imaging by a radiation imaging apparatus which obtains a plurality of frame images by successively performing a plurality of radiation imaging operations to a subject, the imaging support apparatus comprising: a hardware processor that determines a reference signal value of one or more initial frame images during the imaging by the radiation imaging apparatus, calculates a normalized reference signal value on the basis of a sensitivity index, and determines a number of the plurality of frame images to be obtained by the radiation imaging apparatus based on the normalized reference signal value of the one or more initial frame images, each of the initial frame images being an initial frame image obtained early in the radiation imaging operations by the radiation imaging apparatus, wherein the reference signal value is determined based on an average value, a median value, a highest value, or a lowest value of pixel signal values in a region of interest of the one or more initial frame images, and wherein the hardware processor determines the number of the frame images to be obtained while the plurality of frame images are being obtained by the radiation imaging apparatus. 2. The imaging support apparatus according to claim 1 , wherein the hardware processor determines the number of the frame images such that a total dose of irradiation doses of a region of interest in the frame images becomes a target dose, by analyzing the one or more initial frame images. 3. The imaging support apparatus according to claim 1 , wherein the hardware processor determines whether or not the determined number of the frame images are obtained by the radiation imaging apparatus, and the hardware processor causes the radiation imaging apparatus to stop the imaging in response to determination that the determined number of the frame images are obtained by the radiation imaging apparatus. 4. The imaging support apparatus according to claim 3 , wherein the hardware processor determines whether or not an image abnormality is occurring by analyzing two or more initial frame images, each of the initial frame images being the initial frame image, and the hardware processor causes the radiation imaging apparatus to stop the imaging in response to determination that the image abnormality is occurring. 5. The imaging support apparatus according to claim 4 , wherein the hardware processor calculates a difference value between signal values of the two or more initial frame images, and determines whether or not the image abnormality is occurring based on whether or not a representative value of an absolute value of the calculated difference value exceeds a threshold value that is determined in advance. 6. The imaging support apparatus according to claim 1 , wherein the hardware processor generates a single still image by combining the frame images obtained by the radiation imaging apparatus. 7. The imaging support apparatus according to claim 1 , wherein the each of the one or more initial frame images is a chest image and the hardware processor sets a pulmonary region or a region surrounding an outline of the pulmonary region as the region of interest. 8. The imaging support apparatus according to claim 7 , wherein the hardware processor is configured to determine the region of interest by obtaining a threshold value from a histogram of signal values of each pixel, and extracting regions of signals higher than the threshold value as a pulmonary region candidate. 9. The imaging support apparatus according to claim 1 , wherein the reference signal value includes a highest value and a lowest value of signal values in a region of interest of the one or more initial frame images. 10. The imaging support apparatus according to claim 1 , wherein the imaging is radiological imaging. 11. The imaging support apparatus according to claim 1 , wherein the initial frame image obtained early in the radiation imaging operations by the radiation imaging apparatus is part of the plurality of frame images obtained by the radiation imaging apparatus by successively performing a plurality of radiation imaging operations, and the hardware processor determines the reference signal value while the radiation imaging apparatus continues obtaining the plurality of frame images by successively performing the plurality of radiation imaging operations. 12. The imaging support apparatus according to claim 1 , wherein the sensitivity index is based on a highest value and a lowest value of the pixel signal values in the region of interest. 13. The imaging support apparatus according to claim 1 , wherein the sensitivity index is calculated so that a highest value and a lowest value of the pixel signal values in the region of interest respectively become a predetermined standard high value and a predetermined standard low value. 14. A radiation imaging system, comprising: a radiation imaging apparatus that obtains a plurality of frame images by successively performing a plurality of radiation imaging operations to a subject; and the imaging support apparatus according to claim 1 . 15. A non-transitory storage medium storing a computer readable program for a computer in an imaging support apparatus that supports imaging by a radiation imaging apparatus which obtains a plurality of frame images by successively performing a plurality of radiation imaging operations to a subject, the program causing the computer to perform determining a reference signal value of one or more initial frame images during the imaging by the radiation imaging apparatus, calculating a normalized reference signal value on the basis of a sensitivity index, and determining a number of the plurality of frame images to be obtained by the radiation imaging apparatus based on the normalized reference signal value of the one or more initial frame images obtained early in the radiation imaging operations by the radiation imaging apparatus, wherein the reference signal value is determined based on an average value, a median value, a highest value, or a lowest value of pixel signal values in a region of interest of the one or more initial frame images, and wherein the hardware processor determines the number of the frame images to be obtained while the plurality of frame images are being obtained by the radiation imaging apparatus.