Title :
Synthesis and demonstration of high speed, bandwidth efficient optical code division multiple access (CDMA) tested at 1 Gb/s throughput
Author :
Mendez, Antonio J. ; Lambert, James L. ; Morookian, John-Michael ; Gagliardi, Robert M.
Author_Institution :
Mendez R&D Assoc., El Segundo, CA, USA
Abstract :
Code division multiple access (CDMA) permits concurrent communication over all virtual channels (in principle), independent of the data rate and the network size. In reality, most CDMA approaches have a bandwidth penalty due to the code length and a loss penalty due to the broadcasting required by CDMA. Both of these penalties can be reduced or ameliorated by means of multi-attribute coding. Matrices constructed from relatively inefficient (0,1) pulse sequences are suitable multi-attribute non-coherent CDMA codes which are both bandwidth and broadcast efficient. We exhibit a novel approach to synthesizing matrix CDMA codes, develop a 4/spl times/4 physical model, and demonstrate concurrent communication experimentally at concurrent data rates of 100-, 150-, and 250 Mb/s per port.<>
Keywords :
code division multiple access; encoding; matrix algebra; optical links; 1 Gb/s throughput; 100 Mbit/s; 150 Mbit/s; 250 Mbit/s; 4/spl times/4 physical model; CDMA; bandwidth efficient; bandwidth efficient optical code division multiple access; bandwidth penalty; broadcast efficient; code length; concurrent communication; concurrent data rates; data rate; high speed; loss penalty; matrix CDMA codes; multi-attribute coding; multi-attribute noncoherent CDMA codes; network size; pulse sequences; virtual channels; Bandwidth; Broadcasting; Delay effects; High speed optical techniques; Multiaccess communication; Network synthesis; Optical crosstalk; Optical pulses; System testing; Throughput;
Journal_Title :
Photonics Technology Letters, IEEE
