System and method for magnetic resonance imaging reconstruction using novel k-space sampling sequences

We claim: 1. A method of obtaining an NMR image, the method comprising: dividing k-space into a plurality of regions along a dividing direction, the plurality of regions comprising a first region including a center of the k-space and a second region adjacent to but different from the first region, wherein the first region and the second region partially overlap with each other; scanning an object using a plurality of sampling sequences to acquire a plurality of groups of data lines along the dividing direction, with each group of data lines corresponding to one of the plurality of sampling sequences and filled into a region of the plurality of regions along a filling direction, wherein a data line comprises a plurality of echo signals corresponding to a plurality of echo times respectively and wherein the filling direction is phase encoding direction in magnetic resonance imaging and the filing direction of at least a portion of the first region is opposite to the filling direction of at least a portion of the second region; and reconstructing the plurality of groups of data lines filled into the k-space to obtain an NMR image of the object. 2. The method of claim 1 , the dividing direction comprising a first phase encoding direction, a second phase encoding direction, a linear combination of the first phase encoding direction and the second phase encoding direction, or a radial direction. 3. The method of claim 1 , wherein the filing direction comprises a first direction that is along the dividing direction or opposite to the dividing direction, and a second direction that is opposite to the first direction. 4. The method of claim 3 , the plurality of groups of data lines comprising a first group of data lines and a second group of data lines, wherein the first group of data lines are filled into the first region along the first direction, and the second group of data lines are filled into the first region along the second direction. 5. The method of claim 4 , the first group of data lines and the second group of data lines are symmetric with respect to the center of the k-space. 6. The method of claim 5 , the first group of data lines and the second group of data lines each comprising one or more data lines and the one or more data lines from the first group of data lines and the second group of data lines have same phase encoding. 7. The method of claim 6 , further comprising: performing a weighted averaging process on the one or more data lines with the same phase encoding. 8. The method of claim 3 , the plurality of groups of data lines comprising a third group of data lines and a fourth group of data lines, wherein a first portion of the first region abuts a second portion of the second region, the third group of data lines are filled into the first portion along the first direction, and the fourth group of data lines are filled into the second portion along the second direction. 9. The method of claim 3 , further comprising: dividing the second region into a plurality of portions, the plurality of portions comprising a third portion and a fourth portion that abuts the third portion, wherein a fifth group of data lines are filled into the third portion along the first direction, and a sixth group of data lines are filled into the fourth portion along the second direction. 10. The method of claim 3 , further comprising: performing a correction of at least some groups of the plurality of groups of data lines based on the echo times of the echo signals. 11. The method of claim 10 , the performing a correction comprising: identifying a fifth portion in a third region of the plurality of regions, the fifth portion being filled with a seventh group of data lines along the first direction; obtaining an eighth group of data lines; filling the eighth group of data lines into the fifth portion of the third region along the second direction; and performing a weighted averaging process on the seventh group of data lines and the eighth group of data lines. 12. The method of claim 1 , the plurality of groups of data lines comprising at least three groups of data lines, wherein two groups of data lines of the three groups of data lines include a data line corresponding to zero phase encoding, phase encodings of the other one group of data lines of the three groups of data lines are larger than or less than the zero phase encoding. 13. The method of claim 1 , the acquiring a plurality of groups of data lines comprising: acquiring two groups of data lines using two sampling sequences, wherein the filling directions of the two groups of lines are the same or opposite, and wherein the two groups of data lines include one or more data lines with a same phase encoding. 14. The method of claim 1 , the sampling sequence comprising a fast spin echo sequence, a half-Fourier acquisition single-shot turbo spin-echo, a turbo gradient spin echo sequence, or an echo planar imaging sequence. 15. The method of claim 1 , wherein the second region does not include the center of the k-space. 16. The method of claim 1 , wherein each group of data lines of the plurality of groups of data lines comprises a same number of data lines. 17. A method comprising: dividing k-space into a plurality of regions along a dividing direction, the plurality of regions comprising a first region and a second region adjacent to the first region, with at least one of the first region and the second region including at least portion of a center of the k-space, and wherein the first region and the second region partially overlap with each other; scanning an object using a plurality of sampling sequences to acquire a plurality of groups of data lines along the dividing direction, with each group of data lines corresponding to one of the plurality of sampling sequences and filled into a region of the plurality of regions along a filing direction, wherein a data line comprises a plurality of echo signals corresponding to a plurality of echo times respectively and wherein the filling direction is phase encoding direction in magnetic resonance imaging and the filing direction of at least a portion of the first region is opposite to the filling direction of at least a portion of the second region; and reconstructing the plurality of groups of data lines filled into the k-space to obtain an NMR image of the object. 18. A system for obtaining an NMR image, the system comprising: a region division block configured to divide k-space into a plurality of regions along a dividing direction, the plurality of regions comprising a first region including a center of the k-space and a second region adjacent to but different from the first region, wherein the first region and the second region partially overlap with each other; an MRI scanner configured to scan an object using a plurality of sampling sequences to acquire a plurality of groups of data lines along the dividing direction, with each group of data lines corresponding to one of the plurality of sampling sequences and filled into a region of the plurality of regions along a filing direction using a filling block of the system, wherein a data line comprises a plurality of echo signals corresponding to a plurality of echo times respectively and wherein the filling direction is phase encoding direction in magnetic resonance imaging and the filing direction of at least a portion of the first region is opposite to the filling direction of at least a portion of the second region; an image reconstruction block configured to reconstruct the pluralit