A near-capacity distributed coding scheme is conceived by incorporating multiple relay nodes for constructing a virtual Irregular Convolutional Code (IRCC). We first compute the relay channel’s capacity and then design IRCCs for the source and relay nodes. Extrinsic Information Transfer (EXIT) charts are utilized to design the codes for approaching the achievable capacity of the relay channels. Additionally, we improve the transmit power efficiency of the overall system by invoking both power allocation and relay selection. We found that even a low-complexity repetition code or a unit-memory convolutional code is capable of forming a near-capacity virtual IRCC. The performance of the proposed Distributed IRCC (DIRCC) scheme is shown to be p...
We propose a novel near-capacity Multiple-Symbol Differential Decoding (MSDD) aided cooperative Diff...
Cooperation has been recently introduced to mitigate the impairments imposed by fading on a communic...
Communication over wireless channels is affected by fading, i.e., fast random variations of the rece...
Abstract — This paper presents an Irregular Distributed Hybrid Con-catenated Space-Time (Ir-DHC-ST) ...
In this contribution, we propose a Distributed Concatenated Irregular Convolutional Coded Unity Rate...
In this paper, we propose a power-efficient distributed binary self-concatenated coding scheme using...
In this paper, we propose a distributed turbo-like coding scheme for a multi-source relay scenario w...
In this paper we propose a novel Irregular Variable Length Coding (IrVLC) scheme for near-capacity j...
The nodes of ad hoc networks are typically batterypowered, hence requiring the employment of energy-...
In this paper, we develop a capacity-approaching Cooperative Space-Time Coding CSTC scheme employing...
In this contribution, the performance of a Distributed Self-Concatenated Convolutional Coding (DSECC...
Cooperative communications by pooling available resources—for example, power and bandwidth—across th...
In this tutorial, the design procedure of nearcapacity channel code design invoking non-binary EXtri...
The design of wireless communication networks is based on the premise that networks are collections ...
International audienceIn this paper, we propose a distributed turbo-like coding scheme for a multi-s...
We propose a novel near-capacity Multiple-Symbol Differential Decoding (MSDD) aided cooperative Diff...
Cooperation has been recently introduced to mitigate the impairments imposed by fading on a communic...
Communication over wireless channels is affected by fading, i.e., fast random variations of the rece...
Abstract — This paper presents an Irregular Distributed Hybrid Con-catenated Space-Time (Ir-DHC-ST) ...
In this contribution, we propose a Distributed Concatenated Irregular Convolutional Coded Unity Rate...
In this paper, we propose a power-efficient distributed binary self-concatenated coding scheme using...
In this paper, we propose a distributed turbo-like coding scheme for a multi-source relay scenario w...
In this paper we propose a novel Irregular Variable Length Coding (IrVLC) scheme for near-capacity j...
The nodes of ad hoc networks are typically batterypowered, hence requiring the employment of energy-...
In this paper, we develop a capacity-approaching Cooperative Space-Time Coding CSTC scheme employing...
In this contribution, the performance of a Distributed Self-Concatenated Convolutional Coding (DSECC...
Cooperative communications by pooling available resources—for example, power and bandwidth—across th...
In this tutorial, the design procedure of nearcapacity channel code design invoking non-binary EXtri...
The design of wireless communication networks is based on the premise that networks are collections ...
International audienceIn this paper, we propose a distributed turbo-like coding scheme for a multi-s...
We propose a novel near-capacity Multiple-Symbol Differential Decoding (MSDD) aided cooperative Diff...
Cooperation has been recently introduced to mitigate the impairments imposed by fading on a communic...
Communication over wireless channels is affected by fading, i.e., fast random variations of the rece...