High-speed magnetic resonance imaging method and apparatus

What is claimed is: 1. A high-speed magnetic resonance imaging (MRI) method comprising: applying, to a subject, a radio frequency (RF) pulse sequence; splitting magnetic resonance signals produced in response to the RF pulse sequence based on sampling intervals between samples that configure a k-space and based on image resolutions of magnetic resonance images corresponding to the magnetic resonance signals, wherein sampling intervals of the magnetic resonance signals vary; and producing the magnetic resonance images with different resolutions using the split magnetic resonance signals, wherein the magnetic resonance images with different resolutions comprise a full-length body image with a lower resolution and an expanded image of an area of interest with a higher resolution. 2. The high-speed MRI method of claim 1 , wherein the magnetic resonance images with different resolutions are produced simultaneously. 3. The high-speed MRI method of claim 1 , further comprising applying, to the subject, gradients that form gradient fields in different directions, and wherein the magnetic resonance signals are produced in response to the gradients. 4. The high-speed MRI method of claim 3 , wherein the gradients comprise a frequency encoding gradient that varies the sampling intervals based on a frequency encoding scheme. 5. The high-speed MRI method of claim 4 , wherein the changing of the frequency encoding scheme causes a change in a gradient of a gradient field formed by the frequency encoding gradient. 6. The high-speed MRI method of claim 5 , wherein the frequency encoding gradient decreases the gradient of the gradient field formed by the frequency encoding gradient in response to a magnetic resonance signal used for producing a lower-resolution image being sampled, and increases the gradient of the gradient field formed by the frequency encoding gradient in response to a magnetic resonance signal used for producing a high-resolution image being sampled. 7. The high-speed MRI method of claim 1 , wherein the sampling intervals are varied in response to the magnetic resonance signals being converted from an analog type to a digital type. 8. The high-speed MRI method of claim 7 , wherein the sampling intervals are narrowed in response to magnetic resonance signals used for producing lower-resolution images being sampled, and widened in response to magnetic resonance signals used for producing higher-resolution images being sampled. 9. The high-speed MRI method of claim 1 , wherein the magnetic resonance signals with varying sampling intervals have different spatial frequency intervals on a k-space. 10. The high-speed MRI method of claim 1 , further comprising separately storing the split magnetic resonance signals, wherein the magnetic resonance images with different resolutions are simultaneously produced by using the magnetic resonance signals that are separately stored. 11. A non-transitory computer readable medium having recorded thereon a program to execute the method of claim 1 with a computer. 12. A high-speed magnetic resonance imaging (MRI) apparatus comprising: a radio frequency (RF) coil configured to apply a radio frequency (RF) pulse sequence to a subject; a splitter configured to split magnetic resonance signals produced in response to the RF pulse sequence based on sampling intervals between samples that configured a k-space and based on image resolutions of the magnetic resonance images corresponding to the magnetic resonance signals, wherein sampling intervals of the magnetic resonance signals vary; and a memory configured to separately store the split magnetic resonance signals to produce the magnetic resonance images with different resolutions using the split magnetic resonance signals, wherein the magnetic resonance images with different resolutions comprise a full-length body image with a lower resolution and an expanded image of an area of interest with a higher resolution. 13. The high-speed MRI apparatus of claim 12 , wherein the memory is configured to produce the magnetic resonance images with different resolutions simultaneously. 14. The high-speed MRI apparatus of claim 12 , further comprising: a gradient coil configured to form gradient fields, the gradient fields having different directions, and configured to apply the gradient fields to the subject, wherein the magnetic resonance signals are produced in response to the gradient fields. 15. The high-speed MRI apparatus of claim 12 , wherein the gradient coil is configured to form a frequency encoding gradient that varies the sampling intervals based on a frequency encoding scheme. 16. The high-speed MRI apparatus of claim 15 , wherein the changing of the frequency encoding scheme causes a change in a gradient of a gradient field that is formed by the frequency encoding gradient. 17. The high-speed MRI apparatus of claim 16 , wherein the frequency encoding gradient decreases the gradient of the gradient field formed by the frequency encoding gradient in response to a magnetic resonance signal used for producing a lower-resolution image being sampled, and increases the gradient of the gradient field formed by the frequency encoding gradient in response to a magnetic resonance signal used for producing a higher-resolution image being sampled. 18. The high-speed MRI apparatus of claim 12 , wherein the splitter varies the sampling intervals in response to the magnetic resonance signals being converted from an analog type to a digital type. 19. The high-speed MRI apparatus of claim 18 , wherein the splitter narrows the sampling intervals in response to magnetic resonance signals used for producing lower-resolution images being sampled, and widens the sampling intervals in response to magnetic resonance signals used for producing higher-resolution images being sampled. 20. The high-speed MRI apparatus of claim 12 , wherein the magnetic resonance signals with varying sampling intervals have different spatial frequency intervals on a k-space. 21. A high-speed magnetic resonance imaging (MRI) apparatus comprising: a signal obtainer configured to receive magnetic resonance signals emitted from a subject in response to a radio frequency (RF) pulse sequence, wherein sampling intervals of the magnetic resonance signals vary; a splitter configured to split the magnetic resonance signals based on the sampling intervals between samples that configure a k-space and based on image resolutions of magnetic resonance images corresponding to the magnetic resonance signals; and an operating console configured to produce the magnetic resonance images with different resolutions, by using the split magnetic resonance signals, wherein the magnetic resonance images with different resolutions comprise a full-length body image with a lower resolution and an expanded image of an area of interest with a higher resolution. 22. The high-speed MRI apparatus of claim 21 , wherein the operating console is configured to produce the magnetic resonance images with different resolutions simultaneously. 23. The high-speed MRI apparatus of claim 21 , wherein the magnetic resonance signals emitted from the subject are in response to gradients that form gradient fields in different directions. 24. The high-speed MRI apparatus of claim 21 , wherein the magnetic resonance signals with varying sampling intervals have different spatial frequency intervals on a k-space. 25. The high-speed magnet