Author_Institution :
Bell Communications Res., Red Bank, NJ, USA
Abstract :
The intra local access and transport area (LATA) transport network is modeled into four layers: the switched layer, the cross-connect layer, the multiplex layer, and the physical layer. Capacity provided to meet demand at a given layer in turn becomes demand for the next lower layer. Thus, survivability provided for a subnetwork at a given layer protects the demand originating at that layer as well as higher layer subnetworks. The author defines the layered model, gives a general characterization of survivability restoral methods, and then compares principal existing and proposed methods at each layer, especially the cross-connect layer. In particular, he discusses routing efficiency, speed, control architectures, feasibility, and potential integration with other operations functions, such as demand provisioning, network operations, customer control, and network planning
Keywords :
reliability; telecommunication network routing; control architectures; cross-connect layer; customer control; demand provisioning; feasibility; intra-LATA transport networks; local access and transport area; multi-layered model; multiplex layer; network operations; network planning; operations functions; physical layer; potential integration; routing efficiency; speed; subnetworks; survivability restoral methods; switched layer; telecommunication network routing; Centralized control; Intelligent networks; Optical fiber cables; Optical fiber devices; Packet switching; Physical layer; Routing; SONET; Switches; Switching circuits;
