For part I see ibid. vol.42, no.7, p.2470 (1994). In a recently proposed optical orthogonal code division multiple-access (OOCDMA) system, one bit of user's data is transmitted per sequence-period, and a threshold is employed for the final bit decision. In this paper, a system that can transmit multibits per sequence-period is introduced, and avalanche photodiode (APD) noise, thermal noise, and interference, are included. This system, derived by exploiting orthogonal properties of the OOCDMA code sequence and using a maximum search (instead of a threshold) in the final decision, is log/sub 2/ F times higher in throughput, where F is sequence-period. For example, four orders of magnitude are better in bit error probability at -56 dBW received laser power, with F=1000 chips, 10 "marks" in a sequence, and 10 users of 30 Mb/s data rate for one-bit/sequence-period and 270 Mb/s data rate for multibits/sequence-period system. Furthermore, an exact analysis is performed for the log/sub 2/F bits/sequence-period system with a hard-limiter placed before the receiver, and its performance is compared to the performance without hard-limiter, for the chip-synchronous case. The improvement from using a hard-limiter is significant in the log/sub 2/F bits/sequence-period OCCDMA system (while it is not in a one-bit/sequence-period OOCDMA system proposed in Part I).
展开▼
机译:在某种程度上,我看到同上。第42卷第7期,第2470页(1994)。在最近提出的光正交码分多址(OOCDMA)系统中,每个序列周期发送用户数据的一位,并且将阈值用于最终位确定。本文介绍了一种可以在每个序列周期内传输多比特的系统,其中包括雪崩光电二极管(APD)噪声,热噪声和干扰。该系统是通过利用OOCDMA码序列的正交属性并在最终决策中使用最大搜索(而不是阈值)而得出的,吞吐量的log / sub 2 / F倍高,其中F为序列周期。例如,在接收到的激光功率为-56 dBW时,误码概率要好四个数量级,其中F = 1000芯片,一个序列中有10个“标记”,并且10位用户的数据速率为30 Mb / s,一位/多位/序列周期系统的序列周期和270 Mb / s数据速率。此外,对于在接收器之前放置了硬限制器的log / sub 2 / F位/序列周期系统进行了精确的分析,并且对于芯片同步情况,将其性能与没有硬限制器的性能进行了比较。 。使用硬限制器的改进在log / sub 2 / F位/序列周期OCCDMA系统中是重要的(而在第一部分中提出的1位/序列周期OOCDMA系统中则不是)。
展开▼
