Patent Number: 
Section: claims

1. An imaging system, comprising:a first bowtie filter, a second bowtie filter, and a hardening filter;a carriage that includes the first bowtie filter and the hardening filter;a first motor coupled to the carriage and a second motor coupled to the second bowtie filter,wherein the first motor is configured to move the carriage to selectively position at least one of the hardening filter and the first bowtie filter in a path of a radiation beam between a radiation source and an imaging subject, andwherein the second motor is configured to move the second bowtie filter into the path of the radiation beam. 2. The system of claim 1, further comprising:a third bowtie filter,wherein the carriage further includes the third bowtie filter, andwherein the beam hardening filter overlaps with one of the first bowtie filter and the third bowtie filter. 3. The system of claim 1, wherein the beam hardening filter overlaps with both of the first bowtie filter and the third bowtie filter. 4. The system of claim 3, wherein the first bowtie filter and the third bowtie filter are placed between the first bowtie filter and the third bowtie filter, the hardening filter partially overlapping with each of the first bowtie filter and the third bowtie filter. 5. The system of claim 3, wherein the first bowtie filter is housed within a first slot formed in a cavity of the carriage and wherein the third bowtie filter is housed within a second slot formed in the cavity of the carriage, the first slot separated from the second slot via a tab. 6. The system of claim 5, wherein the hardening filter is embedded within a recess between the first bowtie filter and the third bowtie filter, and coupled to the tab. 7. The system of claim 5, wherein the hardening filter includes a support structure and one or more metallic sheets, the support structure and the one or more metallic sheets stacked together and coupled to the tab via a plurality of bolts. 8. The system of claim 7, wherein the support structure and the one or more metallic sheets may be of a same dimension, the support structure made of a material different from that of the one or more metallic sheets. 9. The system of claim 5, further comprising, an aluminum filter coupled to an underside of the carriage. 10. The system of claim 9, wherein the radiation beam passed through the hardening filter, then one of the bowtie filters, and the aluminum filter prior to entering the imaging subject. 11. The system of claim 1, further comprising:a first shaft coupled to the first motor and the carriage; anda second shaft coupled to the second motor and the second bowtie filter,wherein the first motor is configured to translate the shaft for positioning at least one of the hardening filter and the first bowtie filter in the path of the radiation beam. 12. A method for an imaging system, comprising:during a first imaging, moving a carriage to position a hardening filter and a first bowtie filter housed in the carriage in a path of a radiation beam between a radiation source and an imaging subject, andduring a second imaging, moving the carriage to move the hardening filter and the first bowtie filter out of the path of the radiation and then positioning a second bowtie filter in the path of the radiation,wherein the carriage does not include the second bowtie filter. 13. The method of claim 12, wherein the first imaging is a scout scan and a second imaging is a diagnostic scan of an anatomy of the imaging subject. 14. The method of claim 12, wherein the moving the carriage includes actuating a motor coupled to the carriage via a shaft, the shaft translating in a direction perpendicular to a direction of the path of the radiation to position at least one of hardening filter and the first bowtie filter in the path of the radiation. 15. The method of claim 12, wherein the carriage further houses:a third bowtie filter,wherein the first bowtie filter and the third bowtie filter are positioned inside corresponding, adjacent slots within the carriage and the hardening filter is coupled to the carriage between the first bowtie filter and the second bowtie filter. 16. The method of claim 15, wherein the hardening filter partially overlaps with each of the first bowtie filter and the third bowtie filter, and herein, during the first imaging, the radiation beam first passes through the hardening filter and then passes through the first bowtie filter. 17. An imaging system, comprising:a gantry for receiving an imaging subject;a radiation source positioned in the gantry for emitting radiation exposure;a detector positioned on the opposite of the gantry relative to the radiation source;a motorized table for moving the imaging subject within the gantry;a computation device with instructions stored in a non-transient memory;a first bowtie filter, a second bowtie filter, and one or more hardening filters positioned in the filter carriage, the one or more hardening filters mounted in between the first bowtie filter and the second bowtie filter and partially overlapping with each of the first bowtie filter and the second bowtie filter;a third bowtie filter positioned outside of the filter carriage;a first filter driving system configured to move one or more of the first bowtie filter, the second bowtie filter, and the one or more hardening filters into or out of the radiation beam; anda second filter driving system configured to move the third bowtie filter into or out of the radiation beam. 18. The system of claim 17, wherein each of the first bowtie filter and the second bowtie filter include a first, straight long side and a second, parallel long side including a central ridge, each of the first bowtie filter and the second bowtie filter made of graphite. 19. The system of claim 17, wherein the hardening filter includes each of a rectangular support structure, and one or more rectangular metallic sheets stacked under the support structure. 20. The system of claim 19, wherein the rectangular support structure is made of aluminum and the one or more rectangular metallic sheets are made of copper with each of the one or more rectangular metallic sheets having a different thickness.