Add to ORKGHigh-dimensional tensor models are notoriously computationally expensive to train. We present a meta-learning algorithm, MMT, that can significantly speed up the process for spatial tensor models. MMT leverages the property that spatial data can be viewed at multiple resolutions, which are related by coarsening and finegraining from one resolution to another. Using this property, MMT learns a tensor model by starting from a coarse resolution and iteratively increasing the model complexity. In order to not "over-train" on coarse resolution models, we investigate an information-theoretic fine-graining criterion to decide when to transition into higher-resolution models. We provide both theoretical and empirical evidence for the advantages of ...
We study a multitask learning problem in which each task is parametrized by a weight vector and inde...
Most existing subspace analysis-based tracking algo-rithms utilize a flattened vector to represent a...
Modern applications in engineering and data science are increasingly based on multidimensional data ...
High-dimensional tensor models are notoriously computationally expensive to train. We present a meta...
High-dimensional tensor models are notoriously computationally expensive to train. We present a meta...
Efficient and interpretable spatial analysis is crucial in many fields such as geology, sports, and ...
Efficient and interpretable spatial analysis is crucial in many fields such as geology, sports, and ...
Data with rich spatial information are commonly acquired in the real-world. These data are often rep...
Existing tensor completion formulation mostly relies on partial observations from a single tensor. H...
Most visual computing domains are witnessing a steady growth in sheer data set size, complexity, and...
We propose an end-to-end trainable framework that processes large-scale visual data tensors by looki...
Tensor representation is helpful to reduce the small sample size problem in discriminative subspace ...
113 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2006.In this dissertation, we show...
The success of tensor-based subspace learning depends heavily on reducing correlations along the col...
Linear algebra is the foundation of machine learning, especially for handling big data. We want to e...
We study a multitask learning problem in which each task is parametrized by a weight vector and inde...
Most existing subspace analysis-based tracking algo-rithms utilize a flattened vector to represent a...
Modern applications in engineering and data science are increasingly based on multidimensional data ...
High-dimensional tensor models are notoriously computationally expensive to train. We present a meta...
High-dimensional tensor models are notoriously computationally expensive to train. We present a meta...
Efficient and interpretable spatial analysis is crucial in many fields such as geology, sports, and ...
Efficient and interpretable spatial analysis is crucial in many fields such as geology, sports, and ...
Data with rich spatial information are commonly acquired in the real-world. These data are often rep...
Existing tensor completion formulation mostly relies on partial observations from a single tensor. H...
Most visual computing domains are witnessing a steady growth in sheer data set size, complexity, and...
We propose an end-to-end trainable framework that processes large-scale visual data tensors by looki...
Tensor representation is helpful to reduce the small sample size problem in discriminative subspace ...
113 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2006.In this dissertation, we show...
The success of tensor-based subspace learning depends heavily on reducing correlations along the col...
Linear algebra is the foundation of machine learning, especially for handling big data. We want to e...
We study a multitask learning problem in which each task is parametrized by a weight vector and inde...
Most existing subspace analysis-based tracking algo-rithms utilize a flattened vector to represent a...
Modern applications in engineering and data science are increasingly based on multidimensional data ...