@article{kolda2009tensor, abstract = {This survey provides an overview of higher-order tensor decompositions, their applications, and available software. A tensor is a multidimensional or $N$-way array. Decompositions of higher-order tensors (i.e., $N$-way arrays with $N \geq 3$) have applications in psycho-metrics, chemometrics, signal processing, numerical linear algebra, computer vision, numerical analysis, data mining, neuroscience, graph analysis, and elsewhere. Two particular tensor decompositions can be considered to be higher-order extensions of the matrix singular value decomposition: CANDECOMP/PARAFAC (CP) decomposes a tensor as a sum of rank-one tensors, and the Tucker decomposition is a higher-order form of principal component analysis. There are many other tensor decompositions, including INDSCAL, PARAFAC2, CANDELINC, DEDICOM, and PARATUCK2 as well as nonnegative variants of all of the above. The N-way Toolbox, Tensor Toolbox, and Multilinear Engine are examples of software packages for working with tensors.}, author = {Kolda, Tamara G. and Bader, Brett W.}, doi = {10.1137/07070111X}, interhash = {b30bb2d42e1a05fc41370c50844822ad}, intrahash = {e52e5c7bff59fd01fb6497d3bb620077}, issn = {00361445}, journal = {SIAM Review}, number = 3, pages = {455--500}, publisher = {SIAM}, title = {Tensor Decompositions and Applications}, url = {http://dx.doi.org/10.1137/07070111X}, volume = 51, year = 2009 } @incollection{hl84parafac, address = {New York}, author = {Harshman, R. A. and Lundy, M. E.}, booktitle = {{R}esearch methods for multimode data analysis}, editor = {Law, H. G. and {Snyder Jr}, C. W. and Hattie, J. A. and McDonald, R. P.}, interhash = {2e24bc87fee86cbc73811b7853680312}, intrahash = {0a93b832524031bbfe46db5406b99574}, pages = {122--215}, publisher = {Praeger}, title = {{T}he {P}{A}{R}{A}{F}{A}{C} model for three-way factor analysis and multidimensional scaling}, year = 1984 }