The work of Avestimehr et al. \u2707 has recently proposed a deterministic model for wireless networks and characterized the unicast capacity C of such networks as the minimum rank of the adjacency matrices describing all possible source-destination cuts. Amaudruz & Fragouli first proposed a polynomial-time algorithm for finding the unicast capacity of a linear deterministic wireless network in their 2009 paper. In this work, we improve upon Amaudruz & Fragouli\u27s work and further reduce the computational complexity of the algorithm by fully exploring the useful combinatorial features intrinsic in the problem. Our improvement applies generally with any size of finite fields associated with the channel model. Comparing with other algorithm...
AbstractTraditionally, network optimization problems assume that each link in the network has a fixe...
In this paper we improve the deterministic complexity of two fundamental communication primitives in...
In this paper we improve the deterministic complexity of two fundamental communication primitives in...
long-standing open question in information theory is to characterize the unicast capacity of a wirel...
While Shannon already characterized the capacity of point-to-point channels back in 1948, characteri...
The deterministic wireless relay network model, introduced by Avestimehr et al., has been proposed f...
We here summarize some recent advances in the study of linear deterministic networks, recently propo...
We present a deterministic channel model which captures several key features of multiuser wireless c...
The capacity of multiuser networks has been a long-standing problem in information theory. Recently,...
We consider a wireless network of n nodes that communicate over a common wireless medium under some ...
Abstract — We present an achievable rate for general deterministic relay networks, with broadcasting...
In many problems in wireline networks, it is known that achieving capacity on each link or subnetwor...
We consider the wireless relay network model as introduced by Avestimehr, Diggavi and Tse for approx...
We investigate the two unicast flow problem over layered linear deterministic networks with arbitrar...
This paper explores how degrees of freedom (DoF) results from wireless networks can be translated in...
AbstractTraditionally, network optimization problems assume that each link in the network has a fixe...
In this paper we improve the deterministic complexity of two fundamental communication primitives in...
In this paper we improve the deterministic complexity of two fundamental communication primitives in...
long-standing open question in information theory is to characterize the unicast capacity of a wirel...
While Shannon already characterized the capacity of point-to-point channels back in 1948, characteri...
The deterministic wireless relay network model, introduced by Avestimehr et al., has been proposed f...
We here summarize some recent advances in the study of linear deterministic networks, recently propo...
We present a deterministic channel model which captures several key features of multiuser wireless c...
The capacity of multiuser networks has been a long-standing problem in information theory. Recently,...
We consider a wireless network of n nodes that communicate over a common wireless medium under some ...
Abstract — We present an achievable rate for general deterministic relay networks, with broadcasting...
In many problems in wireline networks, it is known that achieving capacity on each link or subnetwor...
We consider the wireless relay network model as introduced by Avestimehr, Diggavi and Tse for approx...
We investigate the two unicast flow problem over layered linear deterministic networks with arbitrar...
This paper explores how degrees of freedom (DoF) results from wireless networks can be translated in...
AbstractTraditionally, network optimization problems assume that each link in the network has a fixe...
In this paper we improve the deterministic complexity of two fundamental communication primitives in...
In this paper we improve the deterministic complexity of two fundamental communication primitives in...