New Null Space Results and Recovery Thresholds for Matrix Rank Minimization
- Creators
- Oymak, Samet
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Hassibi, Babak
Abstract
Nuclear norm minimization (NNM) has recently gained significant attention for its use in rank minimization problems. Similar to compressed sensing, using null space characterizations, recovery thresholds for NNM have been studied in. However simulations show that the thresholds are far from optimal, especially in the low rank region. In this paper we apply the recent analysis of Stojnic for compressed sensing to the null space conditions of NNM. The resulting thresholds are significantly better and in particular our weak threshold appears to match with simulation results. Further our curves suggest for any rank growing linearly with matrix size n we need only three times of oversampling (the model complexity) for weak recovery. Similar to we analyze the conditions for weak, sectional and strong thresholds. Additionally a separate analysis is given for special case of positive semidefinite matrices. We conclude by discussing simulation results and future research directions.
Additional Information
This work was supported in part by the National Science Foundation under grants CCF-0729203, CNS-0932428 and CCF-1018927, by the Office of Naval Research under the MURI grant N00014-08-1-0747, and by Caltech's Lee Center for Advanced Networking.Attached Files
Submitted - New_Null_Space_Results_and_Recovery_Thresholds_for_Matrix_Rank_Minimization.pdf
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Additional details
- Eprint ID
- 54214
- Resolver ID
- CaltechAUTHORS:20150129-072018732
- CCF-0729203
- NSF
- CNS-0932428
- NSF
- CCF-1018927
- NSF
- N00014-08-1-0747
- Office of Naval Research (ONR)
- Caltech's Lee Center for Advanced Networking
- Created
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2015-01-30Created from EPrint's datestamp field
- Updated
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2023-06-02Created from EPrint's last_modified field