Add to ORKGThe network communication scenario where one or more receivers request all the information transmitted by different sources is considered. We introduce the first polynomial-time (in network size) network codes that achieve any point inside the rate-region for the problem of multiple-source multicast in the presence of malicious errors, for any fixed number of sources. Our codes are fully distributed and different sources require no knowledge of the data transmitted by their peers. Our codes are “end-to-end”, that is, all nodes apart from the sources and the receivers are oblivious to the adversaries present in the network and simply implement random linear network coding
We consider the problem of multicasting information from a source to a set of receivers over a netwo...
We investigate the network source coding rate region for networks with multiple sources and multicas...
We consider a simple multiple access network in which a destination node receives information from m...
The network communication scenario where one or more receivers request all the information transmitt...
Abstract—The network communication scenario where one or more receivers request all the information ...
Abstract—The network communication scenario where one or more receivers request all the information ...
In this paper we derive capacity regions for network error correction with both known and unknown to...
This correspondence considers the problem of distributed source coding of multiple sources over a ne...
This work considers the multiple-access multicast error-correction scenario over a packetized netwo...
This correspondence considers the problem of distributed source coding of multiple sources over a ne...
This work considers the multiple-access multicast error-correction scenario over a packetized networ...
Network coding substantially increases network throughput. But since it involves mixing of informati...
In this paper we study the capacity regions of non-multicast networks that are susceptible to advers...
In this paper we study the capacity regions of non-multicast networks that are susceptible to advers...
Network coding substantially increases network throughput. But since it involves mixing of informati...
We consider the problem of multicasting information from a source to a set of receivers over a netwo...
We investigate the network source coding rate region for networks with multiple sources and multicas...
We consider a simple multiple access network in which a destination node receives information from m...
The network communication scenario where one or more receivers request all the information transmitt...
Abstract—The network communication scenario where one or more receivers request all the information ...
Abstract—The network communication scenario where one or more receivers request all the information ...
In this paper we derive capacity regions for network error correction with both known and unknown to...
This correspondence considers the problem of distributed source coding of multiple sources over a ne...
This work considers the multiple-access multicast error-correction scenario over a packetized netwo...
This correspondence considers the problem of distributed source coding of multiple sources over a ne...
This work considers the multiple-access multicast error-correction scenario over a packetized networ...
Network coding substantially increases network throughput. But since it involves mixing of informati...
In this paper we study the capacity regions of non-multicast networks that are susceptible to advers...
In this paper we study the capacity regions of non-multicast networks that are susceptible to advers...
Network coding substantially increases network throughput. But since it involves mixing of informati...
We consider the problem of multicasting information from a source to a set of receivers over a netwo...
We investigate the network source coding rate region for networks with multiple sources and multicas...
We consider a simple multiple access network in which a destination node receives information from m...