Systems and methods for estimating magnetic susceptibility through continuous motion in an MRI scanner

What is claimed is: 1. A system for scanning for and obtaining magnetic resonance imaging (MM) phase data from a patient undergoing an MRI scan, the system comprising: one or more magnets; one or more radio frequency (RF) coils, wherein the one or more RF coils are configured to transmit and receive RF signals; a memory; one or more processors; and one or more programs, wherein the one or more programs are stored in the memory and configured to be executed by the one or more processors, the one or more programs when executed by the one or more processors cause the processor to: generate one or more magnetic fields using one or more magnets; transmit one or more RF signals to the patient, wherein the one or more RF signals are generated and transmitted by one or more RF coils configured to generate and transmit RF signals; receive a plurality RF signals from the one or more RF coils transmitted from the patient in response to the generated one or more magnetic fields and the one or more generated RF signals, wherein the received plurality of RF signals are transmitted from the patient while the patient is continuously moving during the MRI scan; receive data corresponding to a plurality of physical orientations of the patient and the time at which the patient was determined to be in each physical orientation of the plurality of physical orientations while continuously moving during the MRI scan; associate each RF signal of the received plurality RF signals with a physical orientation of the patient based on the received data; reconstruct a phase image associated with each of the received one or more RF signals from the patient based on the received one or more RF signals and the received data corresponding to the plurality of physical orientations of the patient and the time at which the patient was determined to be in each physical orientation of the plurality of physical orientations while continuously moving during the MRI scan, wherein reconstructing a phase image associated with the received one or more RF signals from the patient comprises: categorizing each received RF signal of the plurality RF signals into a bin of a plurality of bins based on the received data associated with the RF signal, wherein each bin of the plurality of bins corresponds to a range of values associated with the physical orientation of patient; and determining a phase information of a first RF signal categorized into a first bin of the plurality of bins based on the received RF signals categorized into the first bin and the received RF signals categorized into one or more bins adjacent to the bin, wherein the range of values associated with each adjacent bin is proximal to the range of values associated with the first bin; and generate a magnetic susceptibility image of the patient based on the reconstructed phase image. 2. The system of claim 1 , wherein the received data corresponding to a plurality of physical orientations of the patient and the time at which the patient was determined to be in each physical orientation of the plurality of physical orientations while continuously moving during the MRI scan is received from a motion tracker. 3. The system of claim 1 , wherein the one or more processors are caused to determine a magnetic susceptibility of a portion of the patient's body based on the determined phase information of the first RF signal. 4. The system of claim 3 , wherein determining the magnetic susceptibility of the portion of the patient's body comprises: calculating a magnetic field of the portion of the patient's body based on the determined phase information of the first RF signal; and calculating the magnetic susceptibility of the portion of the patient's body based on the determined phase information of the first RF signal. 5. The system of claim 1 , wherein the one or more processors are caused to generate an image of the portion of the patient's body based on the determined magnetic susceptibility of the portion of the patient's body. 6. The system of claim 2 , wherein the motion tracker includes a camera configured to capture the orientation of a portion of the patient's body. 7. The system of claim 1 , wherein a pulse sequencer is used to cause the one or more magnets to generate one or more magnetic fields, and wherein the pulse sequencer is used to cause to one or more RF coils to transmit the one or more RF signals to the patient. 8. The system of claim 7 , wherein the pulse sequencer is configured to generate the one or more magnetic fields and the one or more RF signals so as to calculate the magnetic susceptibility of a portion of the patient's body. 9. The system of claim 8 , wherein the pulse sequencer is configured to generate the one or more magnetic fields and the one or more RF signals based on a portion of the patient's body being scanned. 10. The system of claim 2 , wherein the motion tracker collects data corresponding to the plurality of physical orientations of the patient in a first spatial dimension and a second spatial dimension. 11. The system of claim 10 , wherein each bin of the plurality of bins corresponds to a range of values in the first dimension and range of values in the second dimension. 12. The system of claim 1 , wherein reconstructing the phase image includes converting the received RF signals to phase information. 13. A method for scanning for and obtaining magnetic resonance imaging (MM) phase data from a patient undergoing an MRI scan, the method comprising: generating one or more magnetic fields using one or more magnets; transmitting one or more RF signals to a patient, wherein the one or more RF signals are generated and transmitted by one or more RF coils configured to generate and transmit RF signals; receiving a plurality RF signals from the one or more RF coils transmitted from the patient in response to the generated one or more magnetic fields and the one or more generated RF signals, wherein the received plurality of RF signals are transmitted from the patient while the patient is continuously moving during the MRI scan; receiving data corresponding to a plurality of physical orientations of the patient and the time at which the patient was determined to be in each physical orientation of the plurality of physical orientations while continuously moving during the MRI scan; associating each RF signal of the received plurality RF signals with a physical orientation of the patient based on the received data; reconstructing a phase image associated with each of the received one or more RF signals from the patient based on the received one or more RF signals and the received data corresponding to the plurality of physical orientations of the patient and the time at which the patient was determined to be in each physical orientation of the plurality of physical orientations while continuously moving during the MRI scan, wherein reconstructing a phase image associated with the received one or more RF signals from the patient comprises: categorizing each received RF signal of the plurality RF signals into a bin of a plurality of bins based on the received data associated with the RF signal, wherein each bin of the plurality of bins corresponds to a range of values associated with the physical orientation of patient; and determining a phase information of a first RF signal categorized into a first bin of the plurality of bins based on the received RF signals categorized into the first bin and the received RF signals categorized into one or more bins adjacent to the bin, wherein the range of values associated with each adjacent bin is proximal to the range of values associated with the first bin;