Title :
Electro-optical correlation utilising a semiconductor laser amplifier for spread spectrum systems
Author :
Wallace, C.G. ; Kelly, A.E. ; Andonovic, Ivan ; Uttamchandani, Deepak
Author_Institution :
Dept. of Electron. & Electr. Eng., Strathclyde Univ., Glasgow, UK
Abstract :
The paper reports on the use of a semiconductor laser amplifier to execute correlation in the optical domain. A new unipolar code based on bipolar Golay codes has been developed for use with the correlator. A sensor network interrogated through a spread spectrum approach utilising the correlator and modified Golay codes is proposed allowing signal processing to be performed in the optical domain, maintaining low crosstalk and a high probe duty cycle (50%). The semiconductor laser amplifier also acts as a detection preamplifier and removes the need for a high speed detector. The operation of a three sensor ladder network has been simulated showing zero crosstalk when using an ideal semiconductor laser amplifier and crosstalk of less than 0.7% taking into account the gain saturation effect
Keywords :
Golay codes; ladder networks; optical communication equipment; optical correlation; optical crosstalk; optical links; optical saturation; optical sensors; semiconductor lasers; signal processing; spread spectrum communication; bipolar Golay codes; correlator; crosstalk; detection preamplifier; electro-optical correlation; gain saturation effect; high probe duty cycle; low crosstalk; modified Golay codes; optical domain; semiconductor laser amplifier; sensor network; signal processing; spread spectrum approach; spread spectrum systems; three sensor ladder network; unipolar code; zero crosstalk;
Conference_Titel :
Guided Wave Optical Signal Processing, IEE Colloquium on
Conference_Location :
London
DOI :
10.1049/ic:19950827
