本稿ではホモダイン相関検波を用いた二つの全光パルス符号分割多重アクセス方式、即ちホモダイン相関検波とセルフホモダイン相関検波を用いたシステムを提案する。まず、送信側では光パルス符号を生成し、情報ビットで位相変調し、他ユーザと同時に一つの光伝送路を用いて伝送させ、受信側では局部発振器を利用し、局部発振器と光符号器で光パルス符号を生成し、受信信号と合波し、バランス光検波器によって逆拡散、光電変換を行い、光電流を積分した後、弁別することによって送信情報を検出するホモダイン相関検波システムである。また、局部発振器が不要なセルフホモダイシ相関検波システムは、ーユーザ信号を二つ光パルス符号によって時間多重で送り、受信側ではセルフホモダイン相関検波によって送信情報を検出する。提案する方式は従来の光整合フィルタ検波方式と比べ、送信情報を検出するのはビットレートで行うことができるので、より高速伝送が可能である。
Almost conventional optical pulse code division multiple access (CDMA), using a passive optical matched filter detection (MFD), has some fundamental differences between a more standard radio spread spectrum (SS) CDMA. In this paper,a novel all-optical pulse code division multiple access (CDMA) utilizing homodyne correlation detection (HCD) is proposed. Each CDMA transmitter generates an optical pulse code sequence by an optical encoder consisting of pulse laser and optical delay line elements. Electrical information data is imprinted upon the optical pulse sequence by an electro-optic modulation(EOM). With a pulse local oscillator (LO), the receiver includes a HCD process as follows: the same code as the transmitter is locally generated, the generated code is multiplied synchronously the receiver signal chip by chip via a 3dB coupler, followed by a balanced detector and a threshold comparison is implemented after integrating the photo-current from the detector over one bit interval. The advantage of the proposed system is to implement the thresholding in bit rate rather than in chip rate as a conventional optical pulse CDMA with MFD. Without requiring LO at the receiver, a modified system is also proposed. In the system,each user transmits its information data bits with two code sequences multiplexed alternately in time domain. The receiver uses a self-HCD. It permits to implement the system in bit rate without the information of the chip clock and avoids the issues such as phase drift and frequency stability of LO. In the paper, the systems are analyzed theoretically and the numerical results are given by using bipolar code.