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ICC
2007
IEEE

Optical Impulse Modulation for Diffuse Indoor Wireless Optical Channels

14 years 5 months ago
Optical Impulse Modulation for Diffuse Indoor Wireless Optical Channels
— In this paper, power efficient signaling over indoor diffuse wireless optical channels is considered. Present-day laser diodes have pulse rates many times higher than the bandwidth of multipath distorted diffuse channels. Despite the fact that the transmitter extra degrees of freedom are not supported by the low-pass channel, they can be used to satisfy the channel nonnegativity constraint. In this paper, we define optical impulse modulation (OIM) in which data are confined to the low-pass region while the high-pass region, which is distorted by the channel, is used to satisfy the channel amplitude constraints. A mathematical framework for OIM is presented, and an optimal receiver filter is designed. At a normalized delay spread of 0.2, the gain in average optical power of using decision feedback equalization (DFE) with rectangular pulse-amplitude modulation (PAM) is 4.8 dBo, while that of using the less complex unequalized OIM receiver is shown to be 4.9 dBo.
Mohamed D. A. Mohamed, Steve Hranilovic
Added 02 Jun 2010
Updated 02 Jun 2010
Type Conference
Year 2007
Where ICC
Authors Mohamed D. A. Mohamed, Steve Hranilovic
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