A Notion of Optimal Packings of Subspaces with Mixed-Rank and Solutions
From MaRDI portal
Publication:5020132
DOI10.1007/978-3-030-69637-5_7zbMath1482.42074arXiv1911.05613OpenAlexW2988257216MaRDI QIDQ5020132
Peter G. Casazza, Joshua Stueck, Tin T. Tran
Publication date: 4 January 2022
Published in: Applied and Numerical Harmonic Analysis (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1911.05613
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Achieving the orthoplex bound and constructing weighted complex projective 2-designs with Singer sets
- Complex equiangular tight frames and erasures
- The road to deterministic matrices with the restricted isometry property
- Steiner equiangular tight frames
- Complex equiangular cyclic frames and erasures
- Geometric properties of Grassmannian frames for \(\mathbb R^2\) and \(\mathbb R^3\)
- Frame potentials and the geometry of frames
- On the existence of equiangular tight frames
- A group-theoretic framework for the construction of packings in Grassmannian spaces
- A family of optimal packings in Grassmannian manifolds
- Grassmannian frames with applications to coding and communication
- Optimal frames for erasures.
- Codes and designs in Grassmannian spaces.
- An introduction to finite tight frames
- Tremain equiangular tight frames
- Robust dimension reduction, fusion frames, and Grassmannian packings
- Complex equiangular Parseval frames and Seidel matrices containing 𝑝th roots of unity
- Constructing Packings in Grassmannian Manifolds via Alternating Projection
- Achieving the Welch Bound With Difference Sets
- Maximal orthoplectic fusion frames from mutually unbiased bases and block designs
- Packings in Real Projective Spaces
- Packing Lines, Planes, etc.: Packings in Grassmannian Spaces
- Symmetric informationally complete quantum measurements
- Fusion Frames
- Kirkman Equiangular Tight Frames and Codes
- Complex Conference Matrices, Complex Hadamard Matrices and Complex Equiangular Tight Frames
- The Closest Packing of Spherical Caps in n Dimensions
- An introduction to frames and Riesz bases
