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In this letter, to tackle the inevitable effects of imperfect channel state information caused by finite feedback, we investigate a rate splitting transmission scheme proposed recently, which splits one symbol… Click to show full abstract
In this letter, to tackle the inevitable effects of imperfect channel state information caused by finite feedback, we investigate a rate splitting transmission scheme proposed recently, which splits one symbol into a common part and a private part, and transmits signals simultaneously after superposition. First, we propose a minimum mean square error precoding to further suppress the imperfectness of the channel, in which random vector quantization is considered and a closed-form expression is derived. Then, utilizing an approximate expression of the quantization error, we develop a modified power allocation scheme for different parts of symbols by minimizing the sum-rate loss. Numerical results demonstrate the performance gains of the proposed schemes.
Journal Title: IEEE Communications Letters
Year Published: 2018
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