Add to ORKGThe discrete memoryless interference channel is modelled as a conditional probability distribution with two outputs depending on two inputs and has widespread applications in practical communication scenarios. In this paper, we introduce and study the quantum interference channel, a generalization of a two-input, two-output memoryless channel to the setting of quantum Shannon theory. We discuss three different coding strategies and obtain corresponding achievable rate regions for quantum interference channels. We calculate the capacity regions in the special cases of very strong and strong interference. The achievability proof in the case of strong interference exploits a novel quantum simultaneous decoder for two-sender quantum multi...
In this paper, we consider the problem of transmitting classical and quantum information reliably ov...
Abstract—We discuss two techniques for transmitting classical information over quantum broadcast cha...
© 2018 IEEE. We explore the classical communication over quantum channels with one sender and two re...
Abstract—The discrete memoryless interference channel is modelled as a conditional probability distr...
Calculating the capacity of interference channels is a notorious open problem in classical informati...
In this paper, we consider quantum channels with two senders and one receiver. For an arbitrary such...
We define quantum multiway channels for transmission of classical information, after recent work by ...
Semiclassical models for multiple-user optical communication cannot assess the ultimate limits on re...
We discuss two techniques for transmitting classical information over quantum broadcast channels. Th...
We consider communication between two parties using a bipartite quantum operation, which constitutes...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
We consider communication between two parties using a bipartite quantum operation, which constitutes...
Network information theory is the study of communication problems involving multiple senders, multip...
Bennett et al. showed that allowing shared entanglement between a sender and receiver before communi...
We present two approaches for transmitting classical information over quantum broadcast channels. Th...
In this paper, we consider the problem of transmitting classical and quantum information reliably ov...
Abstract—We discuss two techniques for transmitting classical information over quantum broadcast cha...
© 2018 IEEE. We explore the classical communication over quantum channels with one sender and two re...
Abstract—The discrete memoryless interference channel is modelled as a conditional probability distr...
Calculating the capacity of interference channels is a notorious open problem in classical informati...
In this paper, we consider quantum channels with two senders and one receiver. For an arbitrary such...
We define quantum multiway channels for transmission of classical information, after recent work by ...
Semiclassical models for multiple-user optical communication cannot assess the ultimate limits on re...
We discuss two techniques for transmitting classical information over quantum broadcast channels. Th...
We consider communication between two parties using a bipartite quantum operation, which constitutes...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
We consider communication between two parties using a bipartite quantum operation, which constitutes...
Network information theory is the study of communication problems involving multiple senders, multip...
Bennett et al. showed that allowing shared entanglement between a sender and receiver before communi...
We present two approaches for transmitting classical information over quantum broadcast channels. Th...
In this paper, we consider the problem of transmitting classical and quantum information reliably ov...
Abstract—We discuss two techniques for transmitting classical information over quantum broadcast cha...
© 2018 IEEE. We explore the classical communication over quantum channels with one sender and two re...