Physical-layer cryptography through massive MIMO

Keyphrases

• Eavesdropper 100%
• Massive multiple-input multiple-output (mMIMO) 100%
• Gain Matrix 100%
• Channel Gain 100%
• Massive MIMO Systems 100%
• Physical Layer Cryptography 100%
• Lattice Problems 66%
• Encryption 66%
• Transmitter-receiver 66%
• Standard Lattice 66%
• Physical Layer 33%
• Transmitter 33%
• Singular Value Decomposition 33%
• Parallel Channels 33%
• Exponential Complexity 33%
• Additive White Gaussian Noise 33%
• Quantum Computer 33%
• Decoder 33%
• Computation Overhead 33%
• Sender 33%
• Gaussian Distribution 33%
• Classical Computer 33%
• Application Layer 33%
• Worst-case Complexity 33%
• Encryption Algorithm 33%
• Encryption Scheme 33%
• Diffie-Hellman 33%
• MIMO Systems 33%
• Interlayer Properties 33%
• Channel-based 33%
• Shared Secret Key 33%
• MIMO Channel 33%
• Decoding Complexity 33%
• Radio Channel 33%
• Low Complexity Compression 33%
• Low-complexity Decoding 33%
• Channel Decomposition 33%
• Massive MIMO Channels 33%
• Standard Parallels 33%
• Common Encryption 33%
• PAM Modulation 33%
• M-PAM 33%

Computer Science

• Physical Layer 100%
• MIMO Systems 100%
• Massive MIMO 100%
• Channel Gain Matrix 60%
• Decoding Complexity 40%
• Singular Value 20%
• Exponential Complexity 20%
• Quantum Computer 20%
• Additive White Gaussian Noise 20%
• Classical Computer 20%
• Diffie-Hellman-Merkle key exchange 20%
• Application Layer 20%
• Case Complexity 20%
• Encryption Method 20%
• Encryption Scheme 20%
• Shared Secret Key 20%
• Encoding Complexity 20%
• Parallel Channel 20%

Engineering

• Massive MIMO 100%
• Gain Matrix 60%
• Channel Gain 60%
• Multiple-Input Multiple-Output 40%
• Decoding Complexity 40%
• Transmissions 20%
• Secret Key 20%
• Gaussians 20%
• Parallel Channel 20%
• Quantum Computer 20%
• Singular Value Decomposition 20%
• Additive White Gaussian Noise 20%
• Encoding Complexity 20%
• Radio Channel 20%
• Application Layer 20%