TY - GEN
T1 - On the energy-efficient multidimensional coded modulation for optical transport networks
AU - Djordjevic, Ivan B.
N1 - Publisher Copyright:
© 2014 IEEE.
PY - 2014/5/28
Y1 - 2014/5/28
N2 - Optical transport networks have been affected by the following problems: (i) limited bandwidth of information infrastructure, (ii) high power consumption, (iii) heterogeneity of network segments, and (iv) security issues. As a solution to the first three problems, the multidimensional signaling has been proposed recently by author. In multidimensional signaling, for the conveyance information over spatial domain multiplexing (SDM) based fibers (few-mode fibers, few-core fibers, few-modefew-core fibers), all available degrees of freedoms, be optical or electrical, have been employed. In electrical domain discrete-time basis functions (such as Slepian sequences) have been employed. In optical domain, both polarization states and spatial modes have been employed. Additionally, the orthogonal division multiplexing (ODM) has been employed in optical domain to enable beyond 1 Pb/s serial optical transport over single-mode fibers. With SDM, the serial optical transport over SDM fibers exceeding 10 Pb/s is achievable. Concepts of statistical physics and information theory have been used in energy-efficient multidimensional signal constellation design. To solve for the security issues problem, the use of FBGs with impulse responses derived from mutually orthogonal Slepian sequences has been advocated.
AB - Optical transport networks have been affected by the following problems: (i) limited bandwidth of information infrastructure, (ii) high power consumption, (iii) heterogeneity of network segments, and (iv) security issues. As a solution to the first three problems, the multidimensional signaling has been proposed recently by author. In multidimensional signaling, for the conveyance information over spatial domain multiplexing (SDM) based fibers (few-mode fibers, few-core fibers, few-modefew-core fibers), all available degrees of freedoms, be optical or electrical, have been employed. In electrical domain discrete-time basis functions (such as Slepian sequences) have been employed. In optical domain, both polarization states and spatial modes have been employed. Additionally, the orthogonal division multiplexing (ODM) has been employed in optical domain to enable beyond 1 Pb/s serial optical transport over single-mode fibers. With SDM, the serial optical transport over SDM fibers exceeding 10 Pb/s is achievable. Concepts of statistical physics and information theory have been used in energy-efficient multidimensional signal constellation design. To solve for the security issues problem, the use of FBGs with impulse responses derived from mutually orthogonal Slepian sequences has been advocated.
KW - LDPC codes
KW - energy-efficient coded modulation
KW - multidimensional signaling
KW - optical transport networks
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U2 - 10.1109/OnlineGreenCom.2014.7114428
DO - 10.1109/OnlineGreenCom.2014.7114428
M3 - Conference contribution
AN - SCOPUS:84949926391
T3 - 2014 IEEE Online Conference on Green Communications, OnlineGreenComm 2014
BT - 2014 IEEE Online Conference on Green Communications, OnlineGreenComm 2014
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2014 IEEE Online Conference on Green Communications, OnlineGreenComm 2014
Y2 - 12 November 2014 through 14 November 2014
ER -