In this contribution we show how Shannon’s coding theory could be realized for Multiple-Input Multiple-Output (MIMO) channels with the aid of EXtrinsic Information Transfer (EXIT) charts and the Maximum-Aposteriori Probability (MAP) algorithm. We review the relationship between the channel capacity, EXIT charts and the MAP algorithm, outlining the principles of designing near MIMO-channel capacity coding schemes. Both serial and parallel concatenated coding schemes are designed based on these principles and near MIMO-channel capacity performance is achieved
We consider three capacity definitions for general channels with channel side information at the rec...
In this paper 3-D Extrinsic Information Transfer (EXIT) charts are used to design binary Self-Concat...
In this thesis, we apply EXtrinsic Information Transfer (EXIT) charts for analysing iterative decodi...
In this tutorial, the design procedure of nearcapacity channel code design invoking non-binary EXtri...
Near-capacity performance may be achieved with the aid of iterative decoding, where extrinsic soft i...
Shannon’s channel capacity specifies the upper bound on the amount of bits per channel use. In this ...
The use of multiple antennas at the transmitter and/or the receiver promises greatly increased capa...
Classic Shannon theory suggests that the achievable channel capacity increases logarithmically with ...
Masters Research - Masters of EngineeringMobile telephony, wireless networks and wireless telemetry ...
Iteratively decoded near-capacity Space-Time Block Coding (STBC) schemes are designed. Recursive uni...
The following topics were dealt with: Shannon theory; universal lossless source coding; CDMA; turbo ...
Conventional two-stage turbo-detected schemes typically suffer from a Bit Error Rate (BER) floor, pr...
Recent advancements in iterative processing have allowed communication systems to perform close to c...
We study the information rates of noncoherent, stationary, Gaussian, and multiple-input multiple-out...
This paper proposes a capacity-approaching, yet simple scheme for multi-input multiple-output (MIMO)...
We consider three capacity definitions for general channels with channel side information at the rec...
In this paper 3-D Extrinsic Information Transfer (EXIT) charts are used to design binary Self-Concat...
In this thesis, we apply EXtrinsic Information Transfer (EXIT) charts for analysing iterative decodi...
In this tutorial, the design procedure of nearcapacity channel code design invoking non-binary EXtri...
Near-capacity performance may be achieved with the aid of iterative decoding, where extrinsic soft i...
Shannon’s channel capacity specifies the upper bound on the amount of bits per channel use. In this ...
The use of multiple antennas at the transmitter and/or the receiver promises greatly increased capa...
Classic Shannon theory suggests that the achievable channel capacity increases logarithmically with ...
Masters Research - Masters of EngineeringMobile telephony, wireless networks and wireless telemetry ...
Iteratively decoded near-capacity Space-Time Block Coding (STBC) schemes are designed. Recursive uni...
The following topics were dealt with: Shannon theory; universal lossless source coding; CDMA; turbo ...
Conventional two-stage turbo-detected schemes typically suffer from a Bit Error Rate (BER) floor, pr...
Recent advancements in iterative processing have allowed communication systems to perform close to c...
We study the information rates of noncoherent, stationary, Gaussian, and multiple-input multiple-out...
This paper proposes a capacity-approaching, yet simple scheme for multi-input multiple-output (MIMO)...
We consider three capacity definitions for general channels with channel side information at the rec...
In this paper 3-D Extrinsic Information Transfer (EXIT) charts are used to design binary Self-Concat...
In this thesis, we apply EXtrinsic Information Transfer (EXIT) charts for analysing iterative decodi...