Superstructured fibre Bragg gratings enable the encoding and decoding of short pulses into long code sequences at ultrafast chip rates. Such code sequences can be used for the implementation of all-optical code division multiple access systems operating at Gbit/s data rates
This paper shows simulations of an all-fiber fast optical code division multiple access communicatio...
Abstract: We report four channel WDM/OCDMA experiments using superstructured fiber Bragg gratings fo...
We demonstrate high contrast, optical code generation and recognition of 160 GBit/s, 64-bit bipolar ...
Fibre Bragg grating technology enables all-optical encoding and decoding of short pulses at ultrafas...
We report a range of elementary optical coding and decoding experiments employing superstructured fi...
This thesis describes the research on the implementation of all-optical code generation and recognit...
The area of Optical Code Division Multiple Access (OCDMA) systems has received steadily growing inte...
The development of ultrafast laser technology and high-speed fibre-optic communications, has resulte...
Optical-code-division multiple access (OCDMA) technology based on superstructured fiber Bragg gratin...
i This thesis presents our recent researches on the development of coding devices, the investigation...
This thesis documents my work in the telecommunication system laboratory at the Optoelectronics Rese...
Optical Code Division Multiple Access (OCDMA) is capable of providing future local area networks wit...
A 7-chip, 160-Gchip/s phase-shift keyed code is assigned to short pulses after reflection from a sup...
We report a range of elementary optical coding and decoding experiments employing superstructured fi...
Abstract—We propose and demonstrate new optical code-division multiple-access (OCDMA) encoder–decode...
This paper shows simulations of an all-fiber fast optical code division multiple access communicatio...
Abstract: We report four channel WDM/OCDMA experiments using superstructured fiber Bragg gratings fo...
We demonstrate high contrast, optical code generation and recognition of 160 GBit/s, 64-bit bipolar ...
Fibre Bragg grating technology enables all-optical encoding and decoding of short pulses at ultrafas...
We report a range of elementary optical coding and decoding experiments employing superstructured fi...
This thesis describes the research on the implementation of all-optical code generation and recognit...
The area of Optical Code Division Multiple Access (OCDMA) systems has received steadily growing inte...
The development of ultrafast laser technology and high-speed fibre-optic communications, has resulte...
Optical-code-division multiple access (OCDMA) technology based on superstructured fiber Bragg gratin...
i This thesis presents our recent researches on the development of coding devices, the investigation...
This thesis documents my work in the telecommunication system laboratory at the Optoelectronics Rese...
Optical Code Division Multiple Access (OCDMA) is capable of providing future local area networks wit...
A 7-chip, 160-Gchip/s phase-shift keyed code is assigned to short pulses after reflection from a sup...
We report a range of elementary optical coding and decoding experiments employing superstructured fi...
Abstract—We propose and demonstrate new optical code-division multiple-access (OCDMA) encoder–decode...
This paper shows simulations of an all-fiber fast optical code division multiple access communicatio...
Abstract: We report four channel WDM/OCDMA experiments using superstructured fiber Bragg gratings fo...
We demonstrate high contrast, optical code generation and recognition of 160 GBit/s, 64-bit bipolar ...