Ultrasound-based liver examination device, ultrasound apparatus, and ultrasound imaging method

The invention claimed is: 1. An ultrasound apparatus, comprising: an ultrasound probe configured to transmit ultrasound waves to a liver and receive ultrasound echoes from the liver; a transmission and receiving controller configured to control the ultrasound probe to transmit the ultrasound waves to the liver and receive the ultrasound echoes to obtain ultrasound echo signals, wherein the ultrasound echo signals comprises a first ultrasound echo signal and a second ultrasound echo signal; an ultrasound echo signal processor configured to perform a first gain compensation for enhancing image quality on the first ultrasound echo signal for obtaining an ultrasound image of the liver, and a second gain compensation for preserving ultrasound attenuation information of the second ultrasound echo signal on the second ultrasound echo signal for calculating a quantitative parameter of the liver; a data processor configured to generate the ultrasound image of the liver according to the processed first ultrasound echo signal, calculate the quantitative parameter of the liver according to the processed second ultrasound echo signal, and output the ultrasound image and the quantitative parameter; and a display device configured to display the ultrasound image and the quantitative parameter. 2. The ultrasound apparatus of claim 1 , wherein the ultrasound echo signal processor comprises a first ultrasound echo signal processor and a second ultrasound echo signal processor, the first echo signal processor being configured to perform the first gain compensation for enhancing image quality on the first ultrasound echo signal with a first gain coefficient which changes with a depth of a position where an ultrasound echo corresponding to the first ultrasound echo signal is generated in the liver, and the second ultrasound echo signal processor being configured to perform the second gain compensation for preserving ultrasound attenuation information of the second ultrasound echo signal with a fixed second gain coefficient. 3. The ultrasound apparatus of claim 1 , wherein the ultrasound echo signal processor is configured to perform a gain compensation on the second ultrasound echo signal with a first gain coefficient, and to perform a gain compensation on the gain-compensated second ultrasound echo signal with a third gain coefficient, such that a resultant gain coefficient on the second ultrasound echo signal does not change with a depth of a position where an ultrasound echo corresponding to the second ultrasound echo signal is generated in the liver. 4. The ultrasound apparatus of claim 1 , wherein the ultrasound echo signal processor is configured to perform the second gain compensation for preserving the ultrasound attenuation information of the second ultrasound echo signal on the second ultrasound echo signal by preserving strong and weak contrast of the second ultrasound echo signal. 5. The ultrasound apparatus of claim 1 , wherein the transmission and receiving controller is configured to control the ultrasound probe to transmit a first ultrasound wave to the liver to obtain the first ultrasound echo signal with a first transmission/receiving sequence, and to control the ultrasound probe to transmit a second ultrasound wave to the liver to obtain the second ultrasound echo signal with a second transmission/receiving sequence. 6. The ultrasound apparatus of claim 1 , wherein the quantitative parameter comprises at least one of a quantitative parameter representing an ultrasound attenuation degree in the liver, a quantitative parameter representing a difference between ultrasound echoes from the liver and another tissue, or a quantitative parameter representing an ultrasound velocity in the liver; wherein the quantitative parameter representing the ultrasound attenuation degree in the liver is obtained by fitting or comparing the gain-compensated second ultrasound echo signal based on a depth, the quantitative parameter representing the difference between ultrasound echoes from the liver and the another tissue is obtained by comparing the gain-compensated second ultrasound echo signals from the liver and the another tissue, and the quantitative parameter representing the ultrasound velocity in the liver is obtained by comparing signal-to-noise ratios or resolutions of gain-compensated second ultrasound echo signals obtained at different ultrasound velocities. 7. The ultrasound apparatus of claim 1 , wherein the quantitative parameter further comprises a quantitative parameter representing a size of the liver, wherein the quantitative parameter representing the size of the liver is obtained according to the obtained ultrasound echo signal or the ultrasound image. 8. The ultrasound apparatus of claim 1 , wherein the display device is configured to simultaneously or alternately display the ultrasound image and the quantitative parameter according to a selection of a user. 9. An ultrasound-based liver examination device, comprising: a receiving circuit configured to acquire ultrasound echo signals obtained by scanning a liver with ultrasound waves, wherein the ultrasound echo signals comprises a first ultrasound echo signal and a second ultrasound echo signal; an ultrasound echo signal processor configured to perform a first gain compensation for enhancing image quality on the first ultrasound echo signal for obtaining an ultrasound image of the liver and a second gain compensation for preserving ultrasound attenuation information of the second ultrasound echo signal on the second ultrasound echo signal for calculating a quantitative parameter of the liver; and a data processor configured to generate the ultrasound image of the liver according to the processed first ultrasound echo signal and calculate the quantitative parameter of the liver according to the processed second ultrasound echo signal. 10. The device of claim 9 , wherein the ultrasound echo signal processor is configured to perform a gain compensation on the first ultrasound echo signal with a first gain coefficient which changes with a depth of a position where an ultrasound echo corresponding to the first ultrasound echo signal is generated in the liver to implement the first gain compensation for enhancing image quality on the first ultrasound echo signal. 11. The device of claim 9 , wherein the ultrasound echo signal processor is configured to perform a gain compensation on the second ultrasound echo signal with a fixed second gain coefficient to implement the second gain compensation for preserving the ultrasound attenuation information of the second ultrasound echo signal. 12. The device of claim 9 , wherein the ultrasound echo signal processor is configured to perform a gain compensation on the second ultrasound echo signal with a first gain coefficient, and to perform a gain compensation on the gain-compensated second ultrasound echo signal with a third gain coefficient, such that a resultant gain coefficient on the second ultrasound echo signal does not change with a depth of a position where an ultrasound echo corresponding to the second ultrasound echo signal is generated in the liver to implement the second gain compensation for preserving the ultrasound attenuation information of the second ultrasound echo signal. 13. The device of claim 9 , wherein the ultrasound echo signal processor is configured to perform the second gain compensation for preserving the ultrasound attenuation information of the second ultrasound echo signal on the second ultrasound echo signal by preserving strong and weak contrast of the second ultrasound echo signal. 14. The device of claim 9 , wherein the first u