A new multiplexing and demultiplexing technique based on duty cycle division is proposed, thus the name duty cycle division multiplexing (DCDM). DCDM can be applied in both electrical and optical domains. The new technique allows for more efficient use of time slots as well as the spectrum, taking advantage of both the conventional TDM and FDM. In this paper, three channels operating at the same speed of 10 Gbps are multiplexed in the optical domain and demultiplexed in the electrical domain. The performance comparison is made against 30 Gbps TDM, and the experimental simulation results show that the minimum sensitivity achieved is -26 dBm and -25.5 dBm for the two systems respectively, thus a 0.5 dB improvement
In order to explore the potential of optical multilevel signaling for high speed optical fiber netwo...
Experimental demonstration of Duty Cycle Division Multiplexing (DCDM) is reported which validates th...
Ever increasing demand for higher bandwidth and capacity requests more efficient multiplexing techni...
A new multiplexing and demultiplexing technique based on duty cycle division is proposed, thus the n...
A new multiplexing technique based on duty cycle division is proposed, thus the name Duty Cycle Divi...
A multiplexing technique, which is based on duty-cycle division, is proposed. The channel multiplexi...
A duty cycle division multiplexing (DCDM) is proposed as an alternative multiplexing technique. It c...
In this paper, duty cycle division multiplexing (DCDM) is proposed as an alternative multiplexing te...
Demultiplexing concept of Duty-Cycle Division Multiplexing (DCDM) technique is tested in the back-to...
An electrical multiplexing technique, namely Absolute Polar Duty Cycle Division Multiplexing (AP-DCD...
The authors propose a new multiplexing and demultiplexing technique based on return-to-zero (RZ) dut...
An electrical multiplexing technique, namely Absolute Polar Duty Cycle Division Multiplexing (AP-DCD...
In order to explore the potential of optical multilevel signaling for high speed optical fiber netwo...
The ever increasing demand for network capacity motivates the explorations for new modulation forma...
The performance of absolute polar duty cycle division multiplexing (AP-DCDM) over wavelength divisio...
In order to explore the potential of optical multilevel signaling for high speed optical fiber netwo...
Experimental demonstration of Duty Cycle Division Multiplexing (DCDM) is reported which validates th...
Ever increasing demand for higher bandwidth and capacity requests more efficient multiplexing techni...
A new multiplexing and demultiplexing technique based on duty cycle division is proposed, thus the n...
A new multiplexing technique based on duty cycle division is proposed, thus the name Duty Cycle Divi...
A multiplexing technique, which is based on duty-cycle division, is proposed. The channel multiplexi...
A duty cycle division multiplexing (DCDM) is proposed as an alternative multiplexing technique. It c...
In this paper, duty cycle division multiplexing (DCDM) is proposed as an alternative multiplexing te...
Demultiplexing concept of Duty-Cycle Division Multiplexing (DCDM) technique is tested in the back-to...
An electrical multiplexing technique, namely Absolute Polar Duty Cycle Division Multiplexing (AP-DCD...
The authors propose a new multiplexing and demultiplexing technique based on return-to-zero (RZ) dut...
An electrical multiplexing technique, namely Absolute Polar Duty Cycle Division Multiplexing (AP-DCD...
In order to explore the potential of optical multilevel signaling for high speed optical fiber netwo...
The ever increasing demand for network capacity motivates the explorations for new modulation forma...
The performance of absolute polar duty cycle division multiplexing (AP-DCDM) over wavelength divisio...
In order to explore the potential of optical multilevel signaling for high speed optical fiber netwo...
Experimental demonstration of Duty Cycle Division Multiplexing (DCDM) is reported which validates th...
Ever increasing demand for higher bandwidth and capacity requests more efficient multiplexing techni...