© 2016 IEEE. We propose a new practical multiuser decoding scheme based on physical-layer network coding (PNC) for a K-user fading multiple-access channel. In the scheme, the users encode their messages with a same practical channel code, and the coded and modulated signals are transmitted simultaneously. The receiver first reconstructs K linear functions of the K users' messages based on PNC. Then all messages are recovered by solving the K linear equations. Compared to the well-known iterative detection and decoding schemes, we show by numerical results that the proposed scheme achieves near interference-free bound performance without utilizing receiver iterations
(MARC), in which K source nodes transmit their messages to the destination node D with the help of a...
Abstract—This paper presents a first real-time network-coded multiple access (NCMA) system that join...
Physical-layer network coding (PNC) has attracted much attention in the past decade. The intuitive i...
© 2017 IEEE. This paper studies non-orthogonal transmission over a K -user fading multiple access ch...
A Physical layer Network Coding (PNC) scheme is proposed for the K-user wireless Multiple Access Rel...
© 2002-2012 IEEE. We propose a new linear physical-layer network coding (LPNC) and information combi...
We propose a Physical layer Network Coding (PNC) scheme for the K-user wireless Multiple Access Rela...
© 2016 IEEE. We propose a new linear physical-layer network coding and information combining scheme ...
In this paper, we propose a novel detection algorithm for random multiple access, which combines slo...
The physical layer network coding (PNC) technique has been utilized for increasing the system throug...
Abstract—This paper proposes and experimentally demonstrates a first wireless local area network (WL...
We present a novel random multiple access scheme that combines joint multiuser detection (MUD) with ...
Abstract—When two or more users in a wireless network transmit simultaneously, their electromagnetic...
We consider the two-user wireless Multiple Access Relay Channel (MARC), in which nodes A and B want ...
Physical-layer network coding (PNC) has received much attention, both from academia and industry lat...
(MARC), in which K source nodes transmit their messages to the destination node D with the help of a...
Abstract—This paper presents a first real-time network-coded multiple access (NCMA) system that join...
Physical-layer network coding (PNC) has attracted much attention in the past decade. The intuitive i...
© 2017 IEEE. This paper studies non-orthogonal transmission over a K -user fading multiple access ch...
A Physical layer Network Coding (PNC) scheme is proposed for the K-user wireless Multiple Access Rel...
© 2002-2012 IEEE. We propose a new linear physical-layer network coding (LPNC) and information combi...
We propose a Physical layer Network Coding (PNC) scheme for the K-user wireless Multiple Access Rela...
© 2016 IEEE. We propose a new linear physical-layer network coding and information combining scheme ...
In this paper, we propose a novel detection algorithm for random multiple access, which combines slo...
The physical layer network coding (PNC) technique has been utilized for increasing the system throug...
Abstract—This paper proposes and experimentally demonstrates a first wireless local area network (WL...
We present a novel random multiple access scheme that combines joint multiuser detection (MUD) with ...
Abstract—When two or more users in a wireless network transmit simultaneously, their electromagnetic...
We consider the two-user wireless Multiple Access Relay Channel (MARC), in which nodes A and B want ...
Physical-layer network coding (PNC) has received much attention, both from academia and industry lat...
(MARC), in which K source nodes transmit their messages to the destination node D with the help of a...
Abstract—This paper presents a first real-time network-coded multiple access (NCMA) system that join...
Physical-layer network coding (PNC) has attracted much attention in the past decade. The intuitive i...