In the literature there exists analytical expressions for the probability of a receiver decoding a transmitted source message that has been encoded using random linear network coding. In this work, we look into the probability that the receiver will decode at least a fraction of the source message, and present an exact solution to this problem for both non-systematic and systematic network coding. Based on the derived expressions, we investigate the potential of these two implementations of network coding for information-theoretic secure communication and progressive recovery of data
This paper considers a transmitter, which uses random linear coding (RLC) to encode data packets. Th...
Graduation date: 2016In this work, we study network coding technique, its relation to random matrice...
Abstract—This paper considers the multiple-access relay chan-nel in a setting where two source nodes...
In the literature, there exist analytical expressions for the probability of a receiver decoding a t...
This paper considers a network comprising a transmitter, which employs random linear network coding ...
This paper considers a source, which employs random linear coding (RLC) to encode a message, a legit...
Abstract—This letter considers a network comprising a trans-mitter, which employs random linear netw...
In this letter, we compute the exact probability that a receiver obtains N linearly independent pack...
International audienceIn this letter, we compute the exact probability that a receiver obtains N lin...
This paper considers a network of source nodes that transmit data packets to a destination node via ...
We focus on a network where $n$ sources send data to $k$ destinations, through $m\geq n$ relay nod...
We focus on a network where $n$ sources send data to $k$ destinations, through $m\geq n$ relay nodes...
This letter considers a multi-source multi-relay network, in which relay nodes employ a coding schem...
Restricted until 27 Nov. 2010.Network Communications has been established on the principle of routin...
It has been shown that network coding can effectively improve the throughput of multicast communicat...
This paper considers a transmitter, which uses random linear coding (RLC) to encode data packets. Th...
Graduation date: 2016In this work, we study network coding technique, its relation to random matrice...
Abstract—This paper considers the multiple-access relay chan-nel in a setting where two source nodes...
In the literature, there exist analytical expressions for the probability of a receiver decoding a t...
This paper considers a network comprising a transmitter, which employs random linear network coding ...
This paper considers a source, which employs random linear coding (RLC) to encode a message, a legit...
Abstract—This letter considers a network comprising a trans-mitter, which employs random linear netw...
In this letter, we compute the exact probability that a receiver obtains N linearly independent pack...
International audienceIn this letter, we compute the exact probability that a receiver obtains N lin...
This paper considers a network of source nodes that transmit data packets to a destination node via ...
We focus on a network where $n$ sources send data to $k$ destinations, through $m\geq n$ relay nod...
We focus on a network where $n$ sources send data to $k$ destinations, through $m\geq n$ relay nodes...
This letter considers a multi-source multi-relay network, in which relay nodes employ a coding schem...
Restricted until 27 Nov. 2010.Network Communications has been established on the principle of routin...
It has been shown that network coding can effectively improve the throughput of multicast communicat...
This paper considers a transmitter, which uses random linear coding (RLC) to encode data packets. Th...
Graduation date: 2016In this work, we study network coding technique, its relation to random matrice...
Abstract—This paper considers the multiple-access relay chan-nel in a setting where two source nodes...