Title :
Capacity analysis of G.fast systems via time-domain simulations
Author :
Almeida, Igor ; Klautau, Aldebaro ; Chenguang Lu
Author_Institution :
Signal Process. Lab., Fed. Univ. of Para, Belém, Brazil
Abstract :
The evolving broadband access systems using copper networks are currently deployed in a frequency band that goes up to 30 MHz, as specified in VDSL2. As hybrid fiber-copper architectures become more important in the industry and academia, using shorter loop lengths (i.e. up to 250 meters) from the last distribution point to users enables adopting even higher frequencies to achieve very high data rates of 500 Mbps and beyond, as is the case with the G.fast standard under development by ITU-T. In this work, a time-domain simulator has been developed to evaluate G.fast system performance. System capacity is evaluated with different cyclic extension lengths and different reference loop topologies specified by ITU-T. The simulation results show that G.fast systems are robust to bridgetaps and capable of providing very high data rates for all simulated loop topologies to support next generation ultra high speed broadband services.
Keywords :
broadband networks; digital subscriber lines; error statistics; next generation networks; optical fibre subscriber loops; BER; FTTdp approach; G.fast standard; G.fast system performance; ITU-T; VDSL2; bit rate 500 Mbit/s; bridge-taps; broadband access systems; capacity analysis; copper networks; cyclic extension lengths; distribution point; fiber-to-the-last-distribution-point; frequency 30 MHz; frequency band; hybrid fiber-copper architectures; loop lengths; next generation ultra high speed broadband services; reference loop topologies; simulated loop topologies; time-domain simulations; Bandwidth; Bit error rate; Encoding; Signal to noise ratio; Time-domain analysis; Topology; Training;
Conference_Titel :
Communications (ICC), 2013 IEEE International Conference on
Conference_Location :
Budapest
DOI :
10.1109/ICC.2013.6655186
