Abstract
In this paper, dual-layer multi-user multiple-input multiple-output systems are studied. Building on the low-complexity layered orthogonal lattice detector (LC-LORD), an efficient sub-optimal joint modulation classification (MC) of the co-scheduled user and data detection receiver is developed. By adjusting the Max-Log-Maximum-a-Posteriori MC approach to the limitations of LC-LORD, and expanding it to include distances of counter maximum likelihood hypothesis symbols, the decision metric for MC is shown to be an accumulation over a set of tones of Euclidean distance computations also used by the LC-LORD detector for bit log-likelihood ratio soft decision generation. Simulations demonstrate that with a small complexity overhead, the proposed approaches achieve near interference-aware performance. An efficient hardware implementation scheme is presented.