Turbo codes, also known as parallel concatenated re-cursive systematic convolutional codes, have been shown to perform near the Shannon capacity limit in AWGN channels. In mobile communication cases, the channel has a signicant correlation. In this paper, we propose an iterative joint correlated Rayleigh fading channel esti-mation and turbo decoding procedure. The detector (esti-mator/decoder) is a soft-in soft-out process. The decoder consists of the BJCR-MAP algorithm and the channel estimator is based on the MMSE criterion. The chan-nel estimation process does not require pilot symbols and only the channel statistics are supposed known. The per-formance of the proposed method is evaluated by Monte-Carlo simulation for rate 1=2 and 1=3 tu...
This thesis considers a combination of iterative decoding with space-time coding, known as space-tim...
Though coding theory suggests long error correcting codes chosen at random perform close to the opti...
This paper proposes a joint source-channel coding technique using high rate block turbo codes where ...
Joint source and channel decoding (JSCD) has been proved to be an effective technique which can impr...
The turbo detection of turbo coded symbols over correlated Rayleigh flat fading channels generated a...
In this thesis, iterative estimation and decoding techniques are considered for channels with memory...
This paper proposes for single carrier signaling a simple structure that combines turbo equalization...
Abstract. In this paper we present a new method to decode convolutional codes. The method is based o...
We propose a new turbo detection structure called as Multiple Channel Turbo Detection (MCTD) where t...
In this work, we investigate the joint source-channel coding problem of transmitting non-uniform mem...
This correspondence looks at the problem of joint decoding of serially concatenated convolutional co...
A novel signaling scheme for iterative channel estimation and data decoding is proposed. In the prop...
In this article we exploit the potential correlation existing between multiple information sources t...
The challenging problem in the design of digital receivers of today's and future high-speed, high da...
In this article, we present two versions of a simplifled maximum a posteriori decoding algorithm. Th...
This thesis considers a combination of iterative decoding with space-time coding, known as space-tim...
Though coding theory suggests long error correcting codes chosen at random perform close to the opti...
This paper proposes a joint source-channel coding technique using high rate block turbo codes where ...
Joint source and channel decoding (JSCD) has been proved to be an effective technique which can impr...
The turbo detection of turbo coded symbols over correlated Rayleigh flat fading channels generated a...
In this thesis, iterative estimation and decoding techniques are considered for channels with memory...
This paper proposes for single carrier signaling a simple structure that combines turbo equalization...
Abstract. In this paper we present a new method to decode convolutional codes. The method is based o...
We propose a new turbo detection structure called as Multiple Channel Turbo Detection (MCTD) where t...
In this work, we investigate the joint source-channel coding problem of transmitting non-uniform mem...
This correspondence looks at the problem of joint decoding of serially concatenated convolutional co...
A novel signaling scheme for iterative channel estimation and data decoding is proposed. In the prop...
In this article we exploit the potential correlation existing between multiple information sources t...
The challenging problem in the design of digital receivers of today's and future high-speed, high da...
In this article, we present two versions of a simplifled maximum a posteriori decoding algorithm. Th...
This thesis considers a combination of iterative decoding with space-time coding, known as space-tim...
Though coding theory suggests long error correcting codes chosen at random perform close to the opti...
This paper proposes a joint source-channel coding technique using high rate block turbo codes where ...