scientific article; zbMATH DE number 7594707
From MaRDI portal
Publication:5038018
DOI10.12286/jssx.j2021-0855MaRDI QIDQ5038018
No author found.
Publication date: 29 September 2022
Title: zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Hilbert and pre-Hilbert spaces: geometry and topology (including spaces with semidefinite inner product) (46C05) General harmonic expansions, frames (42C15)
Uses Software
Cites Work
- Unnamed Item
- Uniqueness conditions for low-rank matrix recovery
- Solving quadratic equations via phaselift when there are about as many equations as unknowns
- Projections and phase retrieval
- Uniqueness results in an extension of Pauli's phase retrieval problem
- Phase retrieval for sparse signals
- Some new results on composition of quadratic forms
- Ambiguities in one-dimensional discrete phase retrieval from Fourier magnitudes
- A strong restricted isometry property, with an application to phaseless compressed sensing
- Confirmation of Matheron's conjecture on the covariogram of a planar convex body
- Compositions of quadratic forms
- The minimal measurement number for low-rank matrix recovery
- On a problem posed by Pauli
- Phase retrieval from the norms of affine transformations
- Saving phase: injectivity and stability for phase retrieval
- Generalized phase retrieval: measurement number, matrix recovery and beyond
- Phase retrieval from the magnitudes of affine linear measurements
- The Hopf condition for bilinear forms over arbitrary fields
- On signal reconstruction without phase
- The recovery of complex sparse signals from few phaseless measurements
- Almost everywhere generalized phase retrieval
- Almost everywhere injectivity conditions for the matrix recovery problem
- PhaseLift: Exact and Stable Signal Recovery from Magnitude Measurements via Convex Programming
- Phase Retrieval via Wirtinger Flow: Theory and Algorithms
- Phase retrieval and norm retrieval
- Pure-state informationally complete and “really” complete measurements
- Phaseless Recovery Using the Gauss–Newton Method
- Toward a Mathematical Theory of the Crystallographic Phase Retrieval Problem
- Perturbed Amplitude Flow for Phase Retrieval
- Sparse Phase Retrieval Via PhaseLiftOff
- Phase Retrieval: Uniqueness and Stability
- The Estimation Performance of Nonlinear Least Squares for Phase Retrieval
- Phase Retrieval With Random Gaussian Sensing Vectors by Alternating Projections
- Phase retrieval for characteristic functions of convex bodies and reconstruction from covariograms
- Euclidean Models of Projective Spaces
- On the Embeddability of the Real Projective Spaces
This page was built for publication:
