Add to ORKGAbstract: In this paper a detailed capital expenditure cost model is presented taking various network elements and node architectures at the WDM layer into account. It was developed within the European NOBEL project [1] and aligned by major European network suppliers and operators. The current cost structure of WDM transport equipment is shown in a normalised format. Typical model applications are also discussed by presenting examples. This model can serve as a reference for future techno-economic research into optical transport networks in general
A wavelength division multiplexed (WDM) network is considered for arbitrary topologies. The network ...
International audienceIn this paper, we assess a new technology, WDM Slotted Add/Drop Multiplexer (W...
Optical 5G transport networks are the subject of academic and industrial research aimed at identifyi...
Abstract. Network operators are receiving high pressure to increase networks’ bandwidth capacity pro...
this paper was undertaken as part of COST Action 239. The COST framework (European Cooperation in th...
Abstract: In this paper we propose a simple model that analyzes the cost saving achieved by Optical ...
Abstract—A model for calculating the costs and quantities of required components of a multilayer tra...
Up to now, the focus of R and D activities on photonic communication networks, using optical transmi...
Technology innovations and capacity upgrades in optical networks have influenced the optical transmi...
Improvements in optical technology will enable the construction of high bandwidth,low latency switch...
In this paper, we employ a cost model embodying major sources of capital expenditure (CapEx) to comp...
This paper discusses the evolution of optical systems starting from WDM links to Optical Packet Swit...
The design of optical packet switch with limited number of optical components is addressed. Switch a...
Optical 5G transport networks are the subject of academic and industrial research aimed at identifyi...
Optical Fiber Communication Conference and the National Fiber Optic Engineers Conference (OFC/NFOEC)
A wavelength division multiplexed (WDM) network is considered for arbitrary topologies. The network ...
International audienceIn this paper, we assess a new technology, WDM Slotted Add/Drop Multiplexer (W...
Optical 5G transport networks are the subject of academic and industrial research aimed at identifyi...
Abstract. Network operators are receiving high pressure to increase networks’ bandwidth capacity pro...
this paper was undertaken as part of COST Action 239. The COST framework (European Cooperation in th...
Abstract: In this paper we propose a simple model that analyzes the cost saving achieved by Optical ...
Abstract—A model for calculating the costs and quantities of required components of a multilayer tra...
Up to now, the focus of R and D activities on photonic communication networks, using optical transmi...
Technology innovations and capacity upgrades in optical networks have influenced the optical transmi...
Improvements in optical technology will enable the construction of high bandwidth,low latency switch...
In this paper, we employ a cost model embodying major sources of capital expenditure (CapEx) to comp...
This paper discusses the evolution of optical systems starting from WDM links to Optical Packet Swit...
The design of optical packet switch with limited number of optical components is addressed. Switch a...
Optical 5G transport networks are the subject of academic and industrial research aimed at identifyi...
Optical Fiber Communication Conference and the National Fiber Optic Engineers Conference (OFC/NFOEC)
A wavelength division multiplexed (WDM) network is considered for arbitrary topologies. The network ...
International audienceIn this paper, we assess a new technology, WDM Slotted Add/Drop Multiplexer (W...
Optical 5G transport networks are the subject of academic and industrial research aimed at identifyi...