Performance Analysis of Optical CDMA Systems Utilizing Optical Encoding in Presence of Interference and Receiver Noises
-
and
Abstract
In this paper, performance of incoherent and asynchronous optical CDMA (OCDMA) systems employing “optical encoding” is investigated and the results are compared with the results obtained when the encoding is performed in electrical domain. These investigations are performed for receiver structures that employ a single hard limiter (SHL), a double optical hard limiter (DHL) and also for the structures without a hard limiter (WHL). In addition, “electrical encoding” OCDMA systems using DHL in their receiver structures are investigated. In this work, conventional optical orthogonal codes are used and Gaussian approximation is assumed for the output of APD. Besides interference, other destructive effects such as APD and thermal noises are also taken into account.
It is shown that when the number of users N is equal to or greater than pulsed laser's modulation extinction ratio Me, for all receiver structures (SHL, DHL and WHL) “optical encoding” systems are superior to their “electrical encoding” counterparts and this superiority becomes much more apparent in SHL and DHL receivers. We will also show that when N < Me, “optical encoding” WHL systems outperform their “electrical encoding” counterparts. Our results also indicate that the performance of “optical encoding” SHL systems approaches the performance of DHL systems as the transmitted power increases.
Copyright © 2011 De Gruyter
Articles in the same Issue
- Performance Study of All-optical Header Extractor based on SOA-MZI with Bidirectional Data Injection
- A Compound Modulation Diffraction Grating
- Investigation of Microstructured Optical Fiber in Eight Fiber Laser
- Analysis of Impulse Responses Characteristics of an Optical Delayed Feedback Semiconductor Laser
- Design of a Multicast Optical Packet Switch Based on Fiber Bragg Grating Technology for Future Networks
- Performance Analysis of Optical CDMA Systems Utilizing Optical Encoding in Presence of Interference and Receiver Noises
- A Colorless and Bidirectional WDM-PON Doubling System Capacity
- Error-rate Floors in Differential n-level Phase-shift-keying Coherent Receivers employing Electronic Dispersion Equalisation
- Research on Half of the Bandwidth of the En-/Decoding Spectrum Application Based on SSFBG
Articles in the same Issue
- Performance Study of All-optical Header Extractor based on SOA-MZI with Bidirectional Data Injection
- A Compound Modulation Diffraction Grating
- Investigation of Microstructured Optical Fiber in Eight Fiber Laser
- Analysis of Impulse Responses Characteristics of an Optical Delayed Feedback Semiconductor Laser
- Design of a Multicast Optical Packet Switch Based on Fiber Bragg Grating Technology for Future Networks
- Performance Analysis of Optical CDMA Systems Utilizing Optical Encoding in Presence of Interference and Receiver Noises
- A Colorless and Bidirectional WDM-PON Doubling System Capacity
- Error-rate Floors in Differential n-level Phase-shift-keying Coherent Receivers employing Electronic Dispersion Equalisation
- Research on Half of the Bandwidth of the En-/Decoding Spectrum Application Based on SSFBG
