Shear wave elasticity measurement method and shear wave elasticity imaging system

The invention claimed is: 1 . A shear wave elasticity measurement method, comprising: generating a first shear wave at a first position of a target area; generating a second shear wave at a second position of the target area, wherein the second position is located on a propagation path of the first shear wave; transmitting an ultrasound wave to a third position to detect the first shear wave and the second shear wave and receiving echoes of the ultrasound wave to obtain an echo signal, wherein the third position is located outside the target area and the first shear wave propagates to the third position through the second position; obtaining a time difference between a first time when the first shear wave reaches the third position and a second time when the second shear wave reaches the third position according to the echo signal; and calculating an elasticity parameter of the target area according to the time difference and a distance between the first position and the second position. 2 . The shear wave elasticity measurement method of claim 1 , wherein the second position is different from the first position. 3 . The shear wave elasticity measurement method of claim 1 , wherein generating the first shear wave at the first position of the target area comprises: generating multiple first shear waves at multiple target points at the first position. 4 . The shear wave elasticity measurement method of claim 3 , wherein generating the second shear wave at the second position of the target area comprises: generating multiple second shear waves at multiple target points at the second position, wherein the multiple first shear waves respectively propagate to the third position through the multiple target points at the second position. 5 . The shear wave elasticity measurement method of claim 1 , wherein the first shear wave and the second shear wave are generated at the same time or at different times. 6 . The shear wave elasticity measurement method of claim 1 , wherein the elasticity parameter comprises one or more of an average velocity of shear wave, a Young's modulus, and a shear modulus. 7 . The shear wave elasticity measurement method of claim 1 , further comprising: transmitting an ultrasound wave to the target area and receiving ultrasound echoes from the target area to obtain an echo signal for generating an ultrasound image; generating an ultrasound image of the target area according to the echo signal for generating an ultrasound image; displaying the ultrasound image; and displaying the elasticity parameter. 8 . The shear wave elasticity measurement method of claim 7 , further comprising: obtaining the target area selected by a user on the ultrasound image; and determining the first position and the second position according to the selected target area. 9 . A shear wave elasticity imaging system, comprising: a probe; a transmitting controller configured to control the probe to generate a first shear wave at a first position of a target area, control the probe to generate a second shear wave at a second position of the target area, and control the probe to transmit an ultrasound wave to a third position to detect the first shear wave and the second shear wave, wherein, the second position is located on a propagation path of the first shear wave, and the third position is located outside the target area and the first shear wave propagates to the third position through the second position; a receiving controller configured to control the probe to receive echoes of the ultrasound wave transmitted to the third position to obtain an echo signal; and an image processor configured to obtain a time difference between a first time when the first shear wave reaches the third position and a second time when the second shear wave reaches the third position according to the echo signal, and calculate an elasticity parameter of the target area according to the time difference and a distance between the first position and the second position. 10 . The shear wave elasticity imaging system of claim 9 , wherein the second position is different from the first position. 11 . The shear wave elasticity imaging system of claim 9 , wherein the transmitting controller is configured to control the probe to generate multiple first shear waves at multiple target points at the first position. 12 . The shear wave elasticity imaging system of claim 11 , wherein the transmitting controller is configured to control the probe to generate multiple second shear waves at multiple target points at the second position, wherein the multiple first shear waves respectively propagate to the third position through the multiple target points at the second position. 13 . The shear wave elasticity imaging system of claim 9 , wherein the transmitting controller is configured to control the probe to generate the first shear wave and the second shear wave at the same time or at different times. 14 . The shear wave elasticity imaging system of claim 9 , wherein the elasticity parameter obtained by the image processor comprises one or more of an average velocity of shear wave, a Young's modulus, and a shear modulus. 15 . The shear wave elasticity imaging system of claim 9 , further comprising a display device, wherein: the transmitting controller is further configured to control the probe to transmit an ultrasound wave to the target area, and the receiving controller is further configured to control the probe to receive ultrasound echoes from the target area to obtain an echo signal for generating an ultrasound image; the image processor is further configured to generate an ultrasound image of the target area according to the echo signal for generating an ultrasound image; and the display device is further configured to display the ultrasound image and the elasticity parameter. 16 . The shear wave elasticity imaging system of claim 15 , further comprising an instruction obtaining device configured to obtain a selection instruction of a user for selecting the target area on the ultrasound image, wherein the first position and the second position are determined according to the selected target area.