Structure tensor: Difference between revisions

As in the two-dimensional case, the eigenvalues <math>\lambda_1,\lambda_2,\lambda_3</math> of <math>S_w[p]</math>, and the corresponding eigenvectors <math>\hat{e}_1,\hat{e}_2,\hat{e}_3</math>, summarize the distribution of gradient directions within the neighborhood of ''p'' defined by the window <math>w</math>. This information can be visualized as an [[ellipsoid]] whose semi-axes are equal to the eigenvalues and directed along their corresponding eigenvectors.<ref name="Medioni"/><ref>{{Cite journal | last1=Westin|first1=C.-F. | last2=Maier|first2=S.E. | last3=Mamata|first3=H. | last4=Nabavi|first4=A. | last5=Jolesz|first5=F.A. | last6=Kikinis|first6=R. | date=June 2002 | title=Processing and visualization for diffusion tensor MRI | url=https://linkinghub.elsevier.com/retrieve/pii/S1361841502000531 | journal = Medical Image Analysis | language=en | volume=6 | issue=2 | pages=93–108 | doi=10.1016/S1361-8415(02)00053-1 | pmid=12044998| url-access=subscription }}</ref>

{{cite conference|author1=I. Laptev |author2=T. Lindeberg |name-list-style=amp |title=Local descriptors for spatio-temporal recognition|conference=ECCV'04 Workshop on Spatial Coherence for Visual Motion Analysis (Prague, Czech Republic) Springer Lecture Notes in Computer Science|url=http://kth.diva-portal.org/smash/record.jsf?pid=diva2%3A445261&dswid=-1233| doi=10.1007/11676959|date=May 2004|volume=3667| pages=91–103|url-access=subscription}}