System and method for ultrasound elastography and method for dynamically processing frames in real time

What is claimed is: 1 . A system for ultrasound elastography, comprising an elasticity processing apparatus for performing an elasticity process on received signals; the elasticity processing apparatus comprising: an elasticity information detecting module for extracting elasticity information representing the elasticity of a target to be detected; a quality parameter calculating module for calculating at least a quality parameter reflecting quality of each elasticity image corresponding to the elasticity information; and a frame processing module for determining whether to output corresponding elasticity image based on the quality parameter of each elasticity image. 2 . The system for ultrasound elastography according to claim 1 , wherein the frame processing module comprises: a start point judging unit for judging whether there exists a dynamic process start point frame in the system, the dynamic process start point frame being defined as a frame with a quality parameter that meets a preset quality requirement, if no dynamic process start point frame exists, judging whether the quality parameter of current frame meets the preset quality requirement, if the quality parameter of current frame fails to meet the preset quality requirement, the current image is not outputted, if the quality parameter of current frame meets the preset quality requirement, the current image is outputted and regarded as the dynamic process start point frame; and a weighting frame judging unit for, after determining the existence of the dynamic process start point by the start point judging unit, according to the result of judging whether the quality parameter of current image meets the preset quality requirement, determining whether to weight the current image and previous image and output the weighted result. 3 . The system for ultrasound elastography according to claim 2 , wherein the weighting frame judging unit comprises: a bad frame judging subunit for, after determining the existence of dynamic process start point by the start point judging unit, accumulating a number of consecutive bad frames, the number of consecutive bad frames being defined as the number of consecutive frames with quality that fails to satisfy a preset quality requirement, under the situation that the quality parameter of current frame meets the preset quality requirement, determining whether the number of consecutive bad frames reaches a preset threshold, if the number of consecutive bad frames reaches a preset threshold, invalidating the dynamic process start point, clearing the number of consecutive bad frames, followed with the current image being not outputted, if the number of consecutive bad frames does not reach a preset threshold, outputting the previous image as the current frame; and a frame weighting subunit for, after determining that the quality parameter of current frame meets the preset quality requirement by the bad frame judging subunit, clearing the number of consecutive bad frames, weighting the current image and the previous image, and outputting the weighted result. 4 . The system for ultrasound elastography according to claim 1 , wherein the quality parameter comprises at least one of a deformation degree parameter and a cross correlation detecting quality parameter; the deformation degree parameter is an average strain value corresponding to current image; the cross correlation detecting quality parameter is a score of current frame acquired by corresponding scoring rule selected by a method of displacement detection adopted in the elasticity information detecting module. 5 . The system for ultrasound elastography according to claim 4 , wherein the method of displacement detection adopted in the elasticity information detecting module refers to absolute value and sum of absolute difference (SAD), the score is computed by: calculating a first score, where the first score is configured for evaluating a distance between a maximal SAD value of a position within current search area and an upper limit; calculating a second score, where the second score is configured for evaluating a distance between a minimal SAD value of a position within current search area and a lower limit; weighting the first score and the second score, and taking the weighted result as a quality score of current search; averaging the quality scores of all sampling positions of current frame, and obtaining a final quality score of the current frame. 6 . The system for ultrasound elastography according to claim 5 , wherein the first score is calculated as: score1=(SAD_max−SAD_min)/(SAD_High−SAD_min), the second score is calculated as: score2=(SAD_max−SAD_min)/(SAD_max−SAD_Low), weighting the first score and the second score are weighted as: score_SAD=score1*p+score2*(1−p), where score1 is the first score, score2 is the second score, SAD_max is the maximal SAD value of current search area, SAD_min is the minimal SAD value of current search area, SAD_High is the upper limit of SAD preset by the system, SAD_Low is the lower limit of SAD preset by the system, score_SAD is the quality score of current search, p is a weighting coefficient preset by the system. 7 . A method for ultrasound elastography, comprising: extracting elasticity information reflecting the elasticity of a target to be detected from received signals, calculating at least a quality parameter representing quality of each elasticity image corresponding to the elasticity information, and determining whether to output corresponding elasticity image based on the quality parameter of each elasticity image. 8 . The method for ultrasound elastography according to claim 7 , wherein determining whether to output corresponding elasticity image based on the quality parameter of each elasticity image comprises: judging whether there exists a dynamic process start point frame in the system, the dynamic process start point frame being defined as a frame with a quality parameter that meets a preset quality requirement, if no dynamic process start point frame exists, judging whether the quality parameter of current frame meets the preset quality requirement, if the quality parameter of current frame fails to meet the preset quality requirement, the current image is not outputted, if the quality parameter of current frame meets the preset quality requirement, the current image is outputted and regarded as the dynamic process start point frame; and after determining the existence of the dynamic process start point, according to the result of judging whether the quality parameter of current image meets the preset quality requirement, determining whether to weight the current image and previous image and output the weighted result. 9 . The method for ultrasound elastography according to claim 8 , wherein determining whether to weight comprises: after determining the existence of dynamic process start point, accumulating a number of consecutive bad frames, the number of consecutive bad frames being defined as the number of consecutive frames with quality that fails to satisfy a preset quality requirement, under the situation that the quality parameter of current frame meets the preset quality requirement, determining whether the number of consecutive bad frames reaches a preset threshold, if the number of consecutive bad frames reaches a preset threshold, invalidating the dynamic process start point, clearing the number of consecutive bad frames, followed with the current image being not outputted, if the number of consecutive bad frames does not reach a preset threshold, outputting the previous image as the current frame; and after determining that the quality parameter of current frame meets the preset qu