Low-dimensional models for dimensionality reduction and signal recovery: A geometric perspective
| Title | Low-dimensional models for dimensionality reduction and signal recovery: A geometric perspective |
| Publication Type | Journal Article |
| Authors | R. G. Baraniuk, V. Cevher, and M. B. Wakin |
| Abstract | We compare and contrast from a geometric perspective a number of low-dimensional signal models that support stable information-preserving dimensionality reduction. We consider sparse and compressible signal models for deterministic and random signals, structured sparse and compressible signal models, point clouds, and manifold signal models. Each model has a particular geometrical structure that enables signal information in to be stably preserved via a simple linear and nonadaptive projection to a much lower dimensional space whose dimension either is independent of the ambient dimension at best or grows logarithmically with it at worst. As a bonus, we point out a common misconception related to probabilistic compressible signal models, that is, that the generalized Gaussian and Laplacian random models do not support stable linear dimensionality reduction. |
| Acknowledgements | RGB and VC are with Rice University, Department of Electrical and Computer Engineering. MBW is with the Colorado School of Mines, Division of Engineering. Email: frichb, volkang@rice.edu, mwakin@mines.edu; Web: dsp.rice.edu/cs. This work was supported by the grants NSF CCF–0431150, CCF–0728867, and DMS–0603606; DARPA HR0011–08–1–0078; DARPA/ONR N66001–08–1–2065; ONR N00014–07–1–0936 and N00014–08–1–1112; AFOSR FA9550-07-1-0301; ARO MURI W311NF-07-1-0185; and the Texas Instruments Leadership University Program. |
| Keywords | compression; compressive sensing; dimensionality reduction; manifold; point cloud; sparsity; stable embedding |
| Year of Publication | 2010 |
| Journal | to appear in Proceedings of the IEEE |
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