Transition points in the capacity-achieving distribution for the peak-power limited AWGN and free-space optical intensity channels
DOI10.1134/S0032946010040022zbMath1233.94011OpenAlexW1965797870MaRDI QIDQ764084
Publication date: 13 March 2012
Published in: Problems of Information Transmission (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1134/s0032946010040022
additive white Gaussian noise (AWGN) channelcomputation of the optimal distributionfinite number of mass pointsFree-Space Optical Intensity (FSOI) channel
Optimal stochastic control (93E20) Signal theory (characterization, reconstruction, filtering, etc.) (94A12) Channel models (including quantum) in information and communication theory (94A40)
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Cites Work
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- Transition points in the capacity-achieving distribution for the peak-power limited AWGN and free-space optical intensity channels
- Capacity-Achieving Probability Measure for Conditionally Gaussian Channels With Bounded Inputs
- Capacity Bounds for Power- and Band-Limited Optical Intensity Channels Corrupted by Gaussian Noise
- Characterization and Computation of Optimal Distributions for Channel Coding
- On the Capacity-Achieving Distribution of the Discrete-Time Noncoherent and Partially Coherent AWGN Channels
- On the Asymptotic Capacity of Stationary Gaussian Fading Channels
- Capacity of Noncoherent Time-Selective Rayleigh-Fading Channels
- On the Discreteness of Capacity-Achieving Distributions
- Capacity Results for Block-Stationary Gaussian Fading Channels With a Peak Power Constraint
- A First Course in Optimization Theory
- Capacity of fading channels with channel side information
- The capacity of discrete-time memoryless Rayleigh-fading channels
- The capacity of average and peak-power-limited quadrature Gaussian channels
- The information capacity of amplitude- and variance-constrained sclar gaussian channels
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