1.562 Gb/s phase-encrypted secure communication
- ,
- S.D. Walker
- University of Essex
Research Output: Contribution to journal Article Peer-review
Abstract
A field programmable gate array (FPGA)-based physical layer phase-encryption technique suitable for applications in high-speed passive optical networks is presented. The physical layer ciphering technique is based on a combination of multilevel phase shift keying (PSK) modulation and binary differential PSK. A mathematical model of the system is first derived and numerical simulations are obtained using Mathematica. Expressions for the probability of error for both a legitimate and eavesdropping receiver are derived and evaluated numerically. The results from experimental implementation using high-speed phase modulators and FPGAs are also given to further prove the efficacy of the presented technique. The macroscopic cryptography technique offers completely opaque communication over trans-oceanic distances, gigabit date rates and multiple wavelengths.
Publication Information
Output type
Research Output: Contribution to journal Article Peer-review
Original language
EnglishJournal (Volume, Issue Number)
IET OptoelectronicsPublication milestones
- Published - 01/10/2008
Publication status
Published - 01/10/2008
ISSN
1751-8768External Publication IDs
- handle.net: 10547/224160
- Scopus: 54949102061
- ORCID: /0000-0003-2170-5248/work/180105466
