Abstract :
Both broadcast CATV and switched telephony access networks have evolved, over decades, to deliver their respective services efficiently. But these networks are not necessarily optimal for services that are rapidly emerging. This suggests that the access infrastructure will likely change in the future, driven by demands for new services and the costs of providing them. Will fiber optic networks play an important role? Trade-offs in desirable network properties (low initial costs, high capacity, flexible provisioning, enhanced maintenance and operations, etc.) are strongly influenced by the network architecture. We classify architectures on two characteristics: delivery mode (i.e., broadcast vs. switched) and carrier utilization (i.e., shared vs. dedicated), examining the trade-offs these imply with several examples of existing and proposed architectures. We show that optical networks can, by virtue of recent component development, be reconfigured to change their characteristics without changing the outside plant
Keywords :
cable television; optical fibre subscriber loops; switching networks; telephony; television broadcasting; television networks; access infrastructure; broadcast CATV access networks; carrier utilization; costs; dedicated carrier; delivery mode; fiber optic networks; flexible network provisioning; high capacity; local access optical networks; network architectures; network maintenance; network operations; network properties; outside plant; shared carrier; switched telephony access network; Artificial satellites; Bandwidth; Costs; IP networks; Legislation; Optical fiber networks; Satellite broadcasting; Telecommunication services; Telephony; Web and internet services;
