This paper examines the reduction in the non-renewable power consumption of transport networks including core, metro and access layers when Video-on-Demand (VoD) content is cached in solar-powered fog data centres with Energy Storage Devices (ESDs). The effects of considering optical bypass routing and Mixed Line Rate (MLR) in the core network, the availability of solar renewable energy in the access network, and optimising the use of ESDs were addressed. A Mixed Integer Linear Programming (MILP) model that considers the above factors was developed to optimise delivering VoD content from cloud data centres in the core network or fog data centres in the access network
With the rapid growth of interest in media-rich user experience, content distribution networks (CDNs...
The success of novel bandwidth-consuming multimedia services such as Video-on-Demand (VoD) is leadin...
Motivated by increased concern over energy consumption in mod-ern data centers, we propose a new, di...
This paper examines the reduction in brown power consumption of transport networks and data centres ...
This paper examines the utilization of metro fog data centres and access fog datacentres with integr...
© 2016 Dr. Sandu Padmapanie AbeywickramaOver the past 35 years, optical telecommunications networks ...
The rapid growth of time-sensitive applications and services has driven enhancements to computing in...
AbstractOptical networks are expected to cater for the future Internet due to the high speed and cap...
This thesis focuses on the energy efficiency of service provider networks. It examines methodologies...
There is a continuous growth in demand for time sensitive applications which has shifted the cloud p...
The increasing popularity of bandwidth-intensive video Internet services has positioned Content Dist...
In this paper, we utilize Mixed Integer Linear Programming (MILP) models to compare the energy effic...
Today's growth in the demand for access bandwidth is driven by the success of the Video-on-Demand (V...
2015-09-14With the continually growing popularity of online video sharing, energy consumption in vid...
The success of novel bandwidth-consuming multimedia services such as Video-on-Demand (VoD) is leadin...
With the rapid growth of interest in media-rich user experience, content distribution networks (CDNs...
The success of novel bandwidth-consuming multimedia services such as Video-on-Demand (VoD) is leadin...
Motivated by increased concern over energy consumption in mod-ern data centers, we propose a new, di...
This paper examines the reduction in brown power consumption of transport networks and data centres ...
This paper examines the utilization of metro fog data centres and access fog datacentres with integr...
© 2016 Dr. Sandu Padmapanie AbeywickramaOver the past 35 years, optical telecommunications networks ...
The rapid growth of time-sensitive applications and services has driven enhancements to computing in...
AbstractOptical networks are expected to cater for the future Internet due to the high speed and cap...
This thesis focuses on the energy efficiency of service provider networks. It examines methodologies...
There is a continuous growth in demand for time sensitive applications which has shifted the cloud p...
The increasing popularity of bandwidth-intensive video Internet services has positioned Content Dist...
In this paper, we utilize Mixed Integer Linear Programming (MILP) models to compare the energy effic...
Today's growth in the demand for access bandwidth is driven by the success of the Video-on-Demand (V...
2015-09-14With the continually growing popularity of online video sharing, energy consumption in vid...
The success of novel bandwidth-consuming multimedia services such as Video-on-Demand (VoD) is leadin...
With the rapid growth of interest in media-rich user experience, content distribution networks (CDNs...
The success of novel bandwidth-consuming multimedia services such as Video-on-Demand (VoD) is leadin...
Motivated by increased concern over energy consumption in mod-ern data centers, we propose a new, di...