Title :
Duality, achievable rates, and sum-rate capacity of Gaussian MIMO broadcast channels
Author :
Vishwanath, Sriram ; Jindal, Nihar ; Goldsmith, Andrea
Author_Institution :
Dept. of Electr. Eng., Stanford Univ., CA, USA
Abstract :
We consider a multiuser multiple-input multiple- output (MIMO) Gaussian broadcast channel (BC), where the transmitter and receivers have multiple antennas. Since the MIMO BC is in general a nondegraded BC, its capacity region remains an unsolved problem. We establish a duality between what is termed the "dirty paper" achievable region (the Caire-Shamai (see Proc. IEEE Int. Symp. Information Theory, Washington, DC, June 2001, p.322) achievable region) for the MIMO BC and the capacity region of the MIMO multiple-access channel (MAC), which is easy to compute. Using this duality, we greatly reduce the computational complexity required for obtaining the dirty paper achievable region for the MIMO BC. We also show that the dirty paper achievable region achieves the sum-rate capacity of the MIMO BC by establishing that the maximum sum rate of this region equals an upper bound on the sum rate of the MIMO BC.
Keywords :
Gaussian channels; MIMO systems; antenna arrays; broadcast channels; channel capacity; computational complexity; multi-access systems; multiuser channels; receiving antennas; transmitting antennas; Caire-Shamai achievable region; Gaussian MIMO broadcast channels; MIMO BC; MIMO multiple-access channel; achievable rates; capacity region; computational complexity reduction; dirty paper achievable region; duality; maximum sum rate; multiple antennas; multiuser multiple-input multiple-output channel; nondegraded BC; receivers; sum-rate capacity; transmitter; upper bound; Broadcasting; Channel capacity; Computational complexity; Gaussian channels; Interference; MIMO; Receiving antennas; Transmitters; Transmitting antennas; Upper bound;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2003.817421
