Title :
Novel optical fiber code-division multiple access networks supporting real-time multichannel variable-bit-rate (VBR) video distributions
Author_Institution :
Sch. of Adv. Technol., Asian Inst. of Technol., Bangkok, Thailand
fDate :
9/1/1997 12:00:00 AM
Abstract :
we design novel code-division multiple access (CDMA) networks which use strict optical orthogonal codes (OOCs) and incoherent optical processing for multichannel variable-bit-rate (VBR) video broadcasting. The proposed techniques possess the characteristics of fast access tunability and bit-rate flexibility. This in turn can facilitate real-time VBR video distributions for entertainment HDTV applications. Compared with conventional OOCs, the use of strict OOCs can ensure both auto- and cross-correlation constraints to be minimum (i.e., “1”) for multichannel VBR video broadcasting and high-speed photonic switching applications. A parallel-serial hybrid architecture for all-optical tunable decoders (or encoders) is also presented to strict OOCs, which has a fast reconfiguration time to support real-time video applications in high-speed optical fiber CDMA networks
Keywords :
cable television; code division multiple access; codes; decoding; entertainment; high definition television; optical correlation; optical fibre networks; optical information processing; photonic switching systems; real-time systems; telecommunication channels; television networks; video coding; all-optical tunable decoders; all-optical tunable encoders; autocorrelation constraint; bit rate flexibility; code division multiple access; crosscorrelation constraint; entertainment HDTV applications; fast access tunability; fast reconfiguration time; high-speed photonic switching application; incoherent optical processing; optical fiber CDMA networks; optical orthogonal codes; parallel-serial hybrid architecture; real-time VBR video distributions; real-time multichannel video distributions; real-time video applications; variable bit rate video distributions; video broadcasting; Bit rate; Broadcasting; High speed optical techniques; Multiaccess communication; Multimedia communication; Optical buffering; Optical design; Optical fiber networks; Optical fibers; Optical signal processing;
Journal_Title :
Broadcasting, IEEE Transactions on
