为了提升不完全角度计算机断层成像(CT)图像的重建精度和重建效率,研究了有限角度和稀疏角度下的CT图像重建问题,提出新的全变差最小化目标函数,通过将上一步迭代重建的图像作为反馈加入到新的迭代之中,不断更新目标函数的已知项.在算法求解时,采用增广Lagrangian罚函数方法,将约束问题非约束化,并将之转化为等价的3个子问题,通过在交替方向上求解子问题来获得优化问题的最优解.实验结果表明,该算法重建出的图像信息完整,细节清晰,重建精度高,与Split Bregman算法相比,本文算法结果的相对均方误差可下降42.1% ~98.5%,条纹指标可下降42.8% ~98.5%.%To improve the accuracy and efficiency of few-view computed tomography (CT) image reconstruction,CT image reconstruction is studied from limited view and sparse view,and a novel objective function of total variation norm is proposed.According to the newly-developed objective function,the next iteration is based on the information acquired in the previous one,through which the updated sparse representation model is achieved at each iteration.Additionally,the constrained optimization problem is converted to unconstrained optimization one by adopting the augmented Lagrangian method.Then it can be equally expressed by three sub-problems which can be solved by the alternating minimization scheme.The experimental results using the proposed strategy show that it can attain higher quality CT images which possess integral information,clear detail and high precision.Furthermore,the relative root mean square error can be reduced by 42.1%-98.5% and the streak indicator 42.8%-98.5%,compared with those using Split Bregman-based algorithm.
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