On the Low-SNR Asymptotic Capacity of Two Types of Optical Wireless Channels under Average-Intensity Constraints
In this paper, we study two types of optical wireless channels under average-intensity constraints. One is called the Gaussian optical intensity channel, where the channel output models the converted electrical current corrupted by the additive white Gaussian noise. The other one is the Poisson opti...
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| description | In this paper, we study two types of optical wireless channels under average-intensity constraints. One is called the Gaussian optical intensity channel, where the channel output models the converted electrical current corrupted by the additive white Gaussian noise. The other one is the Poisson optical intensity channel, where the channel output models the number of received photons corrupted by the positive dark current. When the average input intensity \(\mathcal{E}\) is small, the capacity of the Gaussian optical intensity channel is shown to scale as \(\mathcal{E}\sqrt{\frac{\log\frac{1}{\mathcal{E}}}{2}}\), and the capacity of the Poisson optical intensity channel as \(\mathcal{E}\log\log\frac{1}{\mathcal{E}}\), which close the existing capacity gaps in these two channels. |
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| title | On the Low-SNR Asymptotic Capacity of Two Types of Optical Wireless Channels under Average-Intensity Constraints |
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