Title :
High-speed nondirective optical communication for wireless networks
Author :
Barry, John R. ; Kahn, Joseph M. ; Lee, Edward A. ; Messerschmitt, D.G.
Author_Institution :
California Univ., Berkeley, CA, USA
Abstract :
The primary obstacles to high-speed communication, namely, shot noise from ambient light, high-capacitance photodiodes and multipath dispersion, are reviewed, and ways to counter them are demonstrated for a prototypical infrared system. The discussion is limited to the physical-layer issues involved in the design of a single high-speed optical link. The focus is on the downlink (from base station to portable), which is a more challenging problem technically than the uplink for two reasons. First, the complexity of the portable receiver is much more constrained than that of the base station, due to power consumption and cost restrictions. Second, the downlink data rates are likely to be much higher than the uplink rates, because downlink communication will include downloading large executable files and possibly video services, whereas uplink communication will be used for transferring working files and keyboard commands which tend to be much smaller.<>
Keywords :
local area networks; optical links; ambient light; base station; cost; data rates; design; downlink; downloading; executable files; high-capacitance photodiodes; high-speed communication; high-speed optical link; infrared system; keyboard commands; multipath dispersion; nondirective optical communication; physical-layer; portable receiver; power consumption; shot noise; uplink communication; video services; wireless LAN; working files; Base stations; Counting circuits; Downlink; Optical design; Optical fiber communication; Optical noise; Optical receivers; Photodiodes; Prototypes; Wireless networks;
Journal_Title :
Network, IEEE
