Characterizing the performance of wireless communication architectures via basic Diophantine approximation bounds
From MaRDI portal
Publication:2658389
DOI10.1007/978-3-030-61303-7_2zbMath1460.94004OpenAlexW3120240825MaRDI QIDQ2658389
Publication date: 22 March 2021
Full work available at URL: https://doi.org/10.1007/978-3-030-61303-7_2
Information theory (general) (94A15) Communication theory (94A05) Diophantine approximation, transcendental number theory (11Jxx)
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- A Mathematical Theory of Communication
- Diophantine approximation and applications in interference alignment
- The metrical theory of simultaneously small linear forms
- New bounds in some transference theorems in the geometry of numbers
- MMSE decision-feedback equalizers and coding. I. Equalization results
- Expanding the Compute-and-Forward Framework: Unequal Powers, Signal Levels, and Multiple Linear Combinations
- Information Dimension and the Degrees of Freedom of the Interference Channel
- Precoded Integer-Forcing Universally Achieves the MIMO Capacity to Within a Constant Gap
- Integer-Forcing Linear Receivers
- Real Interference Alignment: Exploiting the Potential of Single Antenna Systems
- The Approximate Sum Capacity of the Symmetric Gaussian <inline-formula> <tex-math notation="TeX">$K$ </tex-math></inline-formula>-User Interference Channel
- Integer-Forcing Source Coding
- Network Information Theory
- Lattice Coding for Signals and Networks
- Modern Coding Theory
- Achieving<tex>$ 1over 2log (1+ hboxSNR)$</tex>on the AWGN Channel With Lattice Encoding and Decoding
- An Information-Theoretic Framework for Deriving Canonical Decision-Feedback Receivers in Gaussian Channels
- Degrees of Freedom Region of the MIMO <formula formulatype="inline"> <tex>$X$</tex></formula> Channel
- Communication Over MIMO X Channels: Interference Alignment, Decomposition, and Performance Analysis
- Interference Alignment and Degrees of Freedom of the $K$-User Interference Channel
- Outage Behavior of Integer Forcing With Random Unitary Pre-Processing
- Degrees of Freedom of Wireless Networks With Relays, Feedback, Cooperation, and Full Duplex Operation
- Channel Polarization: A Method for Constructing Capacity-Achieving Codes for Symmetric Binary-Input Memoryless Channels
- Achievability Performance Bounds for Integer-Forcing Source Coding
- Compute-and-Forward: Harnessing Interference Through Structured Codes
- Fundamentals of Wireless Communication
- Interference Alignment: From Degrees of Freedom to Constant-Gap Capacity Approximations
- Elements of Information Theory
