用于纤维取向分布估计的高阶张量稀疏反卷积
Sparse deconvolution of higher order tensor for fiber orientation distribution estimation.
作者信息
Feng Yuanjing, Wu Ye, Rathi Yogesh, Westin Carl-Fredrik
机构信息
Institute of Information Processing and Automation, College of Information Engineering, Zhejiang University of Technology, 288 Liuhe Road, Hangzhou, Zhejiang Province 310023, China.
Institute of Information Processing and Automation, College of Information Engineering, Zhejiang University of Technology, 288 Liuhe Road, Hangzhou, Zhejiang Province 310023, China.
出版信息
Artif Intell Med. 2015 Nov;65(3):229-38. doi: 10.1016/j.artmed.2015.09.004. Epub 2015 Sep 15.
PURPOSE
Higher order tensor (HOT) imaging approaches based on the spherical deconvolution framework have attracted much interest for their effectiveness in estimating fiber orientation distribution (FOD). However, sparse regularization techniques are still needed to obtain stable FOD in solving the deconvolution problem, particularly in very high orders. Our goal is to adequately characterize the actual sparsity lying in the FOD domain to develop accurate estimation approach for fiber orientation in HOT framework.
MATERIALS AND METHODS
We propose a sparse HOT regularization model by enforcing the sparse constraint directly on the representation of FOD instead of imposing it on coefficients of basis function. Then, we incorporate both the stabilizing effect of the l2 penalty and the sparsity encouraging effect of the l1 penalty in the sparse model to adequately characterize the actual sparsity lying in the FOD domain. Furthermore, a weighted regularization scheme is developed to iteratively solve the deconvolution problem. The deconvolution technique is compared against existing methods using l2 or l1 regularizer and tested on synthetic data and real human brain.
RESULTS
Experiments were conducted on synthetic data and real human brain data. The synthetic experimental results indicate that crossing fibers are more easily detected and the angular resolution limit is improved by our method by approximately 20°-30° compared to existing HOT method. The detection accuracy is considerably improved compared with that of spherical deconvolution approaches using the l2 regularizer and the reweighted l1 scheme.
CONCLUSIONS
Results of testing the deconvolution technique demonstrate that it allows HOTs to obtain increasingly clean and sharp FOD, which in turn significantly increases the angular resolution of current HOT methods. With sparsity on FOD domain, this method efficiently improves the ability of HOT in resolving crossing fibers.
目的
基于球面反卷积框架的高阶张量(HOT)成像方法因其在估计纤维取向分布(FOD)方面的有效性而备受关注。然而,在解决反卷积问题时,仍需要稀疏正则化技术来获得稳定的FOD,特别是在非常高的阶数情况下。我们的目标是充分表征FOD域中的实际稀疏性,以开发HOT框架中纤维取向的准确估计方法。
材料与方法
我们提出了一种稀疏HOT正则化模型,通过直接对FOD的表示施加稀疏约束,而不是对基函数的系数施加约束。然后,我们在稀疏模型中结合了l2惩罚的稳定作用和l1惩罚的稀疏促进作用,以充分表征FOD域中的实际稀疏性。此外,还开发了一种加权正则化方案来迭代解决反卷积问题。将该反卷积技术与使用l2或l1正则化器的现有方法进行比较,并在合成数据和真实人脑数据上进行测试。
结果
在合成数据和真实人脑数据上进行了实验。合成实验结果表明,与现有的HOT方法相比,我们的方法更容易检测到交叉纤维,并且角分辨率极限提高了约20°-30°。与使用l2正则化器和重新加权l1方案的球面反卷积方法相比,检测精度有了显著提高。
结论
反卷积技术的测试结果表明,它允许HOT获得越来越清晰和尖锐的FOD,这反过来又显著提高了当前HOT方法的角分辨率。通过FOD域的稀疏性,该方法有效地提高了HOT解决交叉纤维的能力。
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