Patent Number: 
Section: claims

1. A method for determining a position of a tumor in a patient for treatment using positively charged particles, comprising the steps of:providing at least a first fiducial indicator mechanically coupled to a nozzle system, the positively charged particles passing through said nozzle system during use;providing at least a second fiducial indicator mechanically coupled to a first movable object in a treatment room;a controller determining, using said first fiducial indicator and said second fiducial indicator, a first position of said first movable object relative to said nozzle system;targeting the tumor with the positively charged particles using knowledge of said nozzle system and the first position of said first movable object; andsaid controller prognosticating a conflict between the first movable object and a treatment beam path of the positively charged particles using: (1) a known geometry of the first movable object and (2) at least two positions, at separate times, of the first movable object determined using said second fiducial indicator. 2. The method of claim 1, further comprising the steps of:providing a set of fiducial indicators, said set of fiducial indicators comprising:said first fiducial indicator;said second fiducial indicator;a set of fiducial markers; anda set of fiducial detectors;providing a set of movable objects, said set of movable objects comprising said first movable object;placing at least one member of said set of fiducial indicators on each member of said set of movable objects in a treatment room, said set of objects comprising: (1) a nozzle system, said nozzle system connected to a synchrotron via a first beam transport line; (2) an imaging system; and (3) a patient positioning system;using said set of fiducial detectors to detect photons from said set of fiducial markers;determining, using said controller, a relative position of said nozzle system and the tumor using output from said set of fiducial detectors; andtargeting the tumor, with the positively charged particles, using the relative position of said nozzle system and the tumor. 3. The method of claim 2, further comprising the step of:using input from said set of fiducial indicators, said controller controlling position of at least three movable objects, of said set of movable objects in the treatment room. 4. The method of claim 2, further comprising the steps of:linking said controller to said set of fiducial indicators; andusing input from said set of fiducial indicators, said controller controlling the positively charged particles. 5. The method of claim 4, further comprising the step of:said controller, using output from said set of fiducial indicators, monitoring rotation of at least one of: said nozzle system, said imaging system, and said patient positioning system. 6. The method of claim 4, further comprising the step of:said controller, using first output from said set of fiducial indicators, determining relative current positions of each of said set of objects after movement of any of said set of objects. 7. The method of claim 6, further comprising the step of:said controller adjusting position of said patient positioning system based on the output from said set of fiducial indicators. 8. The method of claim 6, further comprising the step of:said controller dynamically adjusting a relative position of the tumor and a beam position of the positively charged particles using second output from said imaging system. 9. The method of claim 8, said imaging system comprising a proton tomography imaging system. 10. The method of claim 1, further comprising the step of:upon determination of the conflict, said controller automatically adjusting a radiation treatment plan for treatment of the tumor. 11. A method for determining a position of a tumor in a patient for treatment using positively charged particles, comprising the steps of:providing at least a first fiducial indicator, mechanically coupled to a nozzle system, the positively charged particles passing through said nozzle system during use;providing at least a second fiducial indicator mechanically coupled to a first movable object in a treatment room;a controller determining, using said first fiducial indicator and said second fiducial indicator, a first position of said first movable object relative to said nozzle system;targeting the tumor with the positively charged particles using knowledge of said nozzle system and the first position of said first movable object;providing a set of fiducial indicators, said set of fiducial indicators comprising:said first fiducial indicator;said second fiducial indicator;a set of fiducial markers; anda set of fiducial detectors;providing a set of movable objects, said set of movable objects comprising said first movable object;placing at least one member of said set of fiducial indicators on each member of said set of movable objects in a treatment room, said set of objects comprising: (1) a nozzle system, said nozzle system connected to a synchrotron via a first beam transport line; (2) an imaging system; and (3) a patient positioning system;using said set of fiducial detectors to detect photons from said set of fiducial markers;determining, using said controller, a relative position of said nozzle system and the tumor using output from said set of fiducial detectors; andtargeting the tumor, with the positively charged particles, using the relative position of said nozzle system and the tumor;linking said controller to said set of fiducial indicators; andusing input from said set of fiducial indicators, said controller controlling the positively charged particles; andsaid controller, upon observing a loss of an expected signal from said set of fiducial indicators, preventing the positively charged particles from striking the patient. 12. The method of claim 2, further comprising the step of:said controller tracking position of at least two of said set of movable objects in the treatment room. 13. The method of claim 2, further comprising the step of:using a tomography system, linked to said set of fiducial indicators via said controller, to image the tumor using the positively charged particles. 14. The method of claim 13, said step of using said tomography system further comprising the step of:determining a relative position of a scintillation material, of said tomography system, and the patient using said set of fiducial indicators. 15. The method of claim 13, said step of using said tomography system further comprising the step of:determining relative positions of a scintillation material, of said tomography system, the patient, and said patient positioning system using said set of fiducial indicators. 16. A method for determining a position of a tumor in a patient for treatment using positively charged particles, comprising the steps of:providing at least a first fiducial indicator, mechanically coupled to a nozzle system, the positively charged particles passing through said nozzle system during use;providing at least a second fiducial indicator mechanically coupled to a first movable object in a treatment room;a controller determining, using said first fiducial indicator and said second fiducial indicator, a first position of said first movable object relative to said nozzle system;targeting the tumor with the positively charged particles using knowledge of said nozzle system and the first position of said first movable object;attaching a third fiducial indicator to an operator in the treatment room; andusing output from said third fiducial indicator, said controller preventing the positively charged particles from striking the operator. 17. The method of claim 1, further comprising the step of:marking a patient movement assist device with a third fiducial indicator, said patient movement assist device movable from outside of the treatment room into the treatment room. 18. The method of claim 2, further comprising the step of:said controller, using input from said set of fiducial indicators, verifying a clear field treatment vector from said nozzle system to the patient.