. . . . . "511256" . . . "RIV/68407700:21230/05:00110700!RIV11-GA0-21230___" . "MIMO channel"@en . "Achievable Rate Region of Linearly Precoded Multiple Access Block-Fading Delay Limited MIMO Channel"@en . . "Achievable Rate Region of Linearly Precoded Multiple Access Block-Fading Delay Limited MIMO Channel"@en . "Achievable Rate Region of Linearly Precoded Multiple Access Block-Fading Delay Limited MIMO Channel" . . "P(GA102/05/2177), P(OC 273.001)" . . "Achievable Rate Region of Linearly Precoded Multiple Access Block-Fading Delay Limited MIMO Channel" . "2"^^ . "Proceedings of the COST 273 MCM - Bologna" . "In this paper, the achievable rate region of multiple-access delay limited MIMO channel with user-wise independent linear precoding is investigated. No channel state information is assumed to be known at the transmitter and each user wants to communicate at the maximum but constant rate during the frame consisted of finite number of blocks of block-fading channel realizations. Each user employs the linear transmit energy preserving preprocessing. We aim at better performance in the terms of outage capacity compared with block-wise independent coding over the whole frame. There was found proper information-theoretical channel description. The behavior of the maximum achievable rate and entire rate region volume was evaluated so that there was proved that in the case of linear precoding the maximum achievable rate is stabilized and there exists the rate region achievable with lower guaranteed probability of outage." . "[C591BEC80EEB]" . "8"^^ . . "Kn\u00ED\u017Ee, Milan" . "Bologna" . "RIV/68407700:21230/05:00110700" . "2"^^ . "In this paper, the achievable rate region of multiple-access delay limited MIMO channel with user-wise independent linear precoding is investigated. No channel state information is assumed to be known at the transmitter and each user wants to communicate at the maximum but constant rate during the frame consisted of finite number of blocks of block-fading channel realizations. Each user employs the linear transmit energy preserving preprocessing. We aim at better performance in the terms of outage capacity compared with block-wise independent coding over the whole frame. There was found proper information-theoretical channel description. The behavior of the maximum achievable rate and entire rate region volume was evaluated so that there was proved that in the case of linear precoding the maximum achievable rate is stabilized and there exists the rate region achievable with lower guaranteed probability of outage."@en . "S\u00FDkora, Jan" . . . "Brussels" . "COST Office" . "21230" . . "2005-01-19+01:00"^^ . . .