Patent Number: 
Section: claims

1. A radiographic apparatus comprising:a radiation source emitting radiation;a compensating filter provided on the radiation source controlling a dose of the radiation;a detecting device detecting radiation transmitting through the compensating filter to output detection data;an air-data storage device storing air data as detection data that is acquired under a state where a subject is not placed between the radiation source and the detecting device;a subject-data storage device storing subject data as detection data that is acquired under a state where the subject is placed between the radiation source and the detecting device;a secondary scattered-ray estimating device estimating a dose of secondary scattered radiation that enters into the detecting device based on the subject data, the secondary scattered radiation being scattered radiation generated with the subjecta direct-ray attenuation-rate acquiring device acquiring a direct-ray attenuation rate based on the air data, the subject data, and an estimated dose of the secondary scattered radiation, the direct-ray attenuation rate being a rate of a dose of direct radiation from the compensating filter before transmitting through the subject to a dose of the direct radiation after transmitting through the subject; andan image generating device generating an image having a subject image appearing therein in accordance with the direct-ray attenuation rate,wherein the direct-ray attenuation-rate acquiring device acquires the direct-ray attenuation rate on an assumption that a primary scattered-ray attenuation rate is equal to the direct-ray attenuation rate, the primary scattered-ray attenuation rate representing a rate of a dose of primary scattered radiation generated by the compensating filter before transmitting through the subject to a dose of the primary scattered radiation after transmitting through the subject, the primary scattered radiation being scattered radiation generated with the compensating filter. 2. The radiographic apparatus according to claim 1, whereinthe direct-ray attenuation-rate acquiring device acquires a direct-ray attenuation rate using the following equation:Rd=(Is−le)/la, where Rd denotes the direct-ray attenuation-rate, Is denotes a radiation intensity from subject data, Ie denotes an estimated secondary scattered-radiation intensity, and Ia denotes a radiation intensity from the air data. 3. The radiographic apparatus according to claim 1, whereinthe compensating filter is removable from the radiation source. 4. The radiographic apparatus according to claim 1, whereinthe compensating filter comprises a plurality of parts variable in relative position therebetween, and further comprises:a compensating filter moving device moving the parts; anda compensating filter control device controlling the compensating filter moving device. 5. The radiographic apparatus according to claim 1, further comprising:a supporting portion supporting the radiation source and the detecting device;a rotating device rotating the supporting portion; anda rotation control device controlling the rotating device,wherein the image generating device generates a sectional image in accordance with a series of direct-ray attenuation rates acquired while the supporting portion is rotated. 6. A method of obtaining an image with use of detection data acquired by radiographic apparatus having a radiation source for emitting radiation, a compensating filter provided on the radiation source for controlling a dose of radiation, and a detecting device for detecting radiation transmitting through the compensating filter to output detection data, comprising:an air-data acquiring step acquiring air data as detection data that is acquired under a state where a subject is not placed between the radiation source and the detecting device;a subject-data acquiring step acquiring subject data as detection data that is acquired under a state where the subject is placed between the radiation source and the detecting device;a secondary scattered-ray estimating step estimating a dose of secondary scattered radiation that enters into the detecting device based on the subject data, the secondary scattered radiation being scattered radiation generated with the subject;a direct-ray attenuation-rate acquiring step acquiring a direct-ray attenuation rate based on the air data, the subject data, and an estimated dose of the secondary scattered radiation, the direct-ray attenuation rate being a rate of a dose of direct radiation from the compensating filter before transmitting through the subject to a dose of the direct radiation after transmitting through the subject; andan image generating step generating an image having a subject image appearing therein in accordance with the direct-ray attenuation rate,wherein in the direct-ray attenuation-rate acquiring step, the direct-ray attenuation rate is acquired on an assumption that a primary scattered-ray attenuation rate is equal to the direct-ray attenuation rate, the primary scattered-ray attenuation rate representing a rate of a dose of primary scattered radiation generated by the compensating filter before transmitting through the subject to a dose of the primary scattered radiation after transmitting through the subject, the primary scattered radiation being scattered radiation generated with the compensating filter. 7. The method of obtaining an image according to claim 6, whereinin the direct-ray attenuation-rate acquiring step, a direct-ray attenuation rate is acquired using the following equation:Rd=(Is−le)/la, where Rd denotes the direct-ray attenuation-rate, Is denotes a radiation intensity from subject data, Ie denotes an estimated secondary scattered-radiation intensity, and Ia denotes a radiation intensity from the air data.