Add to ORKG5G communication networks enable the steering and control of Internet of Things and therefore require extreme low latency communication referred to as the tactile Internet. In this paper we show that the massive use of network coding throughout the network significantly improves latency and reduce the frequency of packet re-transmission, so an architecture built around network coding may be a feasible road towards realizing the tactile internet vision. Our contribution is threefold: (i) we show how network coding improves latency and reduces packet re-transmission with respect to other coding schemes in an analytical manner, (ii) we present our implementation of a network coding capable software router and support our analytical results wit...
Network coding is an elegant and novel technique that allows nodes in the network to perform coding ...
The exponential growth of the mobile devices market, not only smartphones but also tablets, laptops ...
Emerging applications like wireless control or drone swarms require low-latency communication across...
Tactile Internet requires a round trip latency of 1ms, which considered being the main challenge wit...
Tactile Internet requires a round trip latency of 1ms, which considered being the main challenge wit...
One of the main design aspects of the Tactile Internet system is the 1 ms end-to-end latency, which ...
One of the main design aspects of the Tactile Internet system is the 1 ms end-to-end latency, which ...
One of the main design aspects of the Tactile Internet system is the 1 ms end-to-end latency, which ...
Software defined networking has garnered large attention due to its potential to virtualize services...
Throughout the last decades, communication networks have become embedded into almost every aspect of...
Modern communications have moved away from point-to-point models to increasingly heterogeneous netwo...
Software Defined Networking (SDN) and Network Coding (NC) are two key concepts in networking that ha...
The Tactile Internet (TI) is an emerging area of research involving 5G and beyond (B5G) communicatio...
Abstract—Delay-tolerant networking effectively extends the network connectivity in the time domain, ...
“Tactile internet” refers to a network that can support real-time interactions between human operato...
Network coding is an elegant and novel technique that allows nodes in the network to perform coding ...
The exponential growth of the mobile devices market, not only smartphones but also tablets, laptops ...
Emerging applications like wireless control or drone swarms require low-latency communication across...
Tactile Internet requires a round trip latency of 1ms, which considered being the main challenge wit...
Tactile Internet requires a round trip latency of 1ms, which considered being the main challenge wit...
One of the main design aspects of the Tactile Internet system is the 1 ms end-to-end latency, which ...
One of the main design aspects of the Tactile Internet system is the 1 ms end-to-end latency, which ...
One of the main design aspects of the Tactile Internet system is the 1 ms end-to-end latency, which ...
Software defined networking has garnered large attention due to its potential to virtualize services...
Throughout the last decades, communication networks have become embedded into almost every aspect of...
Modern communications have moved away from point-to-point models to increasingly heterogeneous netwo...
Software Defined Networking (SDN) and Network Coding (NC) are two key concepts in networking that ha...
The Tactile Internet (TI) is an emerging area of research involving 5G and beyond (B5G) communicatio...
Abstract—Delay-tolerant networking effectively extends the network connectivity in the time domain, ...
“Tactile internet” refers to a network that can support real-time interactions between human operato...
Network coding is an elegant and novel technique that allows nodes in the network to perform coding ...
The exponential growth of the mobile devices market, not only smartphones but also tablets, laptops ...
Emerging applications like wireless control or drone swarms require low-latency communication across...