Add to ORKGA 25 and 35 Gbps Absolute Pole Duty cycle division multiplexing (APDCDM) based communication system is designed successfully. A technique for estimation of BER is developed for four users APDCDM based optical communication system, referring to the data recovery rules. The performance parameters like SNR, Q-factor and BER are calculated for the transmission rate Gbps25 and Gbps35 in this system. After design and simulation it is concluded that the performance of system is reduces for higher data transmission rate as compare to lower data transmission rate
A new multiplexing technique based on duty cycle division is proposed, thus the name Duty Cycle Divi...
In order to explore the potential of optical multilevel signaling for high speed optical fiber netwo...
A new multiplexing and demultiplexing technique for wireless communications which is called Absolute...
The authors propose a new multiplexing and demultiplexing technique based on return-to-zero (RZ) dut...
In this study the author has modeled and characterizes the performance of 3times10 Gbp/s absolute po...
Experimental demonstration of Duty Cycle Division Multiplexing (DCDM) is reported which validates th...
An electrical multiplexing technique, namely Absolute Polar Duty Cycle Division Multiplexing (AP-DCD...
Duty cycle division multiplexing (DCDM) is proposed as an alternative multiplexing technique. In thi...
An electrical multiplexing technique, namely Absolute Polar Duty Cycle Division Multiplexing (AP-DCD...
In this paper, duty cycle division multiplexing (DCDM) is proposed as an alternative multiplexing te...
A multiplexing technique, which is based on duty-cycle division, is proposed. The channel multiplexi...
The performance of absolute polar duty cycle division multiplexing (AP-DCDM) over wavelength divisio...
Division Multiplexing (PolDM) system is presented based on the simulation results, in order to doubl...
Multiplexing is one of the fundamental necessities in today’s digital communications. It allows mul...
In order to explore the potential of optical multilevel signaling for high speed optical fiber netwo...
A new multiplexing technique based on duty cycle division is proposed, thus the name Duty Cycle Divi...
In order to explore the potential of optical multilevel signaling for high speed optical fiber netwo...
A new multiplexing and demultiplexing technique for wireless communications which is called Absolute...
The authors propose a new multiplexing and demultiplexing technique based on return-to-zero (RZ) dut...
In this study the author has modeled and characterizes the performance of 3times10 Gbp/s absolute po...
Experimental demonstration of Duty Cycle Division Multiplexing (DCDM) is reported which validates th...
An electrical multiplexing technique, namely Absolute Polar Duty Cycle Division Multiplexing (AP-DCD...
Duty cycle division multiplexing (DCDM) is proposed as an alternative multiplexing technique. In thi...
An electrical multiplexing technique, namely Absolute Polar Duty Cycle Division Multiplexing (AP-DCD...
In this paper, duty cycle division multiplexing (DCDM) is proposed as an alternative multiplexing te...
A multiplexing technique, which is based on duty-cycle division, is proposed. The channel multiplexi...
The performance of absolute polar duty cycle division multiplexing (AP-DCDM) over wavelength divisio...
Division Multiplexing (PolDM) system is presented based on the simulation results, in order to doubl...
Multiplexing is one of the fundamental necessities in today’s digital communications. It allows mul...
In order to explore the potential of optical multilevel signaling for high speed optical fiber netwo...
A new multiplexing technique based on duty cycle division is proposed, thus the name Duty Cycle Divi...
In order to explore the potential of optical multilevel signaling for high speed optical fiber netwo...
A new multiplexing and demultiplexing technique for wireless communications which is called Absolute...
