Add to ORKGIn this paper, duty cycle division multiplexing (DCDM) is proposed as an alternative multiplexing technique. It can be applied in any communication systems, although the focus in this paper is in optical fiber communications. In this paper, we examine 3 channels each operating at 10 Gbps modulation rate over a single optical carrier. The performance comparison is made against 30 Gbps RZ transmitted pulses, time domain multiplexed (TDM). The results show that at a fixed transmission power, DCDM can support longer distance than that with RZ TDM technique. Also, the results show that RZ-TDM pulses require 35.5 dB more SNR to support the same distance as that for DCDM
�A new multiplexing technique which is called duty cycle division multiplexing (DCDM) is presented...
A new multiplexing technique which is called duty cycle division multiplexing (DCDM) is presented in...
The authors propose a new multiplexing and demultiplexing technique based on return-to-zero (RZ) dut...
In this paper, duty cycle division multiplexing (DCDM) is proposed as an alternative multiplexing te...
A new multiplexing and demultiplexing technique based on duty cycle division is proposed, thus the n...
A duty cycle division multiplexing (DCDM) is proposed as an alternative multiplexing technique. It c...
A multiplexing technique, which is based on duty-cycle division, is proposed. The channel multiplexi...
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...
The ever increasing demand for network capacity motivates the explorations for new modulation forma...
Experimental demonstration of Duty Cycle Division Multiplexing (DCDM) is reported which validates th...
Demultiplexing concept of Duty-Cycle Division Multiplexing (DCDM) technique is tested in the back-to...
We show the realization of 40 Gbit/s on-off-keyed system that can be recovered at 5.71 GHz clock usi...
In order to explore the potential of optical multilevel signaling for high speed optical fiber netwo...
Demultiplexing concept of Duty-Cycle Division Multiplexing (DCDM) technique is tested in the back-to...
�A new multiplexing technique which is called duty cycle division multiplexing (DCDM) is presented...
A new multiplexing technique which is called duty cycle division multiplexing (DCDM) is presented in...
The authors propose a new multiplexing and demultiplexing technique based on return-to-zero (RZ) dut...
In this paper, duty cycle division multiplexing (DCDM) is proposed as an alternative multiplexing te...
A new multiplexing and demultiplexing technique based on duty cycle division is proposed, thus the n...
A duty cycle division multiplexing (DCDM) is proposed as an alternative multiplexing technique. It c...
A multiplexing technique, which is based on duty-cycle division, is proposed. The channel multiplexi...
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...
The ever increasing demand for network capacity motivates the explorations for new modulation forma...
Experimental demonstration of Duty Cycle Division Multiplexing (DCDM) is reported which validates th...
Demultiplexing concept of Duty-Cycle Division Multiplexing (DCDM) technique is tested in the back-to...
We show the realization of 40 Gbit/s on-off-keyed system that can be recovered at 5.71 GHz clock usi...
In order to explore the potential of optical multilevel signaling for high speed optical fiber netwo...
Demultiplexing concept of Duty-Cycle Division Multiplexing (DCDM) technique is tested in the back-to...
�A new multiplexing technique which is called duty cycle division multiplexing (DCDM) is presented...
A new multiplexing technique which is called duty cycle division multiplexing (DCDM) is presented in...
The authors propose a new multiplexing and demultiplexing technique based on return-to-zero (RZ) dut...