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      KCI등재 SCIE SCOPUS

      Energy-Efficient Traffic Grooming in Bandwidth Constrained IP over WDM Networks = Energy-Efficient Traffic Grooming in Bandwidth Constrained IP over WDM Networks

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      https://www.riss.kr/link?id=A105456286

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      다국어 초록 (Multilingual Abstract)

      Minimizing power consumption in bandwidth limited optical traffic grooming networks is presented as a two-objective optimization problem. Since the main objective is to route a connection, the network throughput is maximized first, and then the minimu...

      Minimizing power consumption in bandwidth limited optical traffic grooming networks is presented as a two-objective optimization problem. Since the main objective is to route a connection, the network throughput is maximized first, and then the minimum power consumption solution is found for this maximized throughput. Both transparent IP over WDM (Tp-IPoWDM) and translucent IP over WDM (Tl-IPoWDM) network may be applied to examine such bi-objective algorithms. Simulations show that the bi-objective algorithms are more energy-efficient than the single objective algorithms where only the throughput is optimized. For a Tp-IPoWDM network, both link based ILP (LB-ILP) and path based ILP (PB-ILP) methods are formulated and solved. Simulation results show that PB-ILP can save more power than LB-ILP because PB-ILP has more path selections when lightpath lengths are limited. For a Tl-IPoWDM network, only PB-ILP is formulated and we show that the Tl-IPoWDM network consumes less energy than the Tp-IPoWDM network, especially under a sparse network topology. For both kinds of networks, it is shown that network energy efficiency can be improved by over-provisioning wavelengths, which gives the network more path choices.

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      참고문헌 (Reference)

      1 S. Huang, "Traffic grooming: a changing role in green optical networks" 1-6,

      2 K. Y. Zhu, "Traffic grooming in an optical WDM mesh network" 20 (20): 122-133, 2002

      3 A. K. Somani, "Survivability and Traffic Grooming in WDM Optical Networks" Cambridge Univ. Press 2006

      4 F. Idzikowski, "Saving energy in IP-over-WDM networks by switching off line cards in low-demand scenarios" 1-6, 2010

      5 G. Rizzelli, "Reach-Related Energy Consumption in IP-Over-WDM 100G Translucent Networks" 31 (31): 1828-1834, 2013

      6 P. Wiatr, "Power savings versus network performance in dynamically provisioned WDM networks" 50 (50): 48-55, 2012

      7 E. Yetginer, "Power Efficient Traffic Grooming in Optical WDM Networks" 1-6, 2009

      8 M. Yannuzzi, "Performance of translucent optical networks under dynamic traffic and uncertain physical-layer information" 1-6, 2009

      9 P. Chowdhury, "On the design of energy-efficient mixed-line-rate (MLR) optical networks" 30 (30): 130-139, 2012

      10 X. Ge, "Multi-Path Cooperative Communications Networks for Augmented and Virtual Reality Transmission" 19 (19): 2345-2358, 2017

      1 S. Huang, "Traffic grooming: a changing role in green optical networks" 1-6,

      2 K. Y. Zhu, "Traffic grooming in an optical WDM mesh network" 20 (20): 122-133, 2002

      3 A. K. Somani, "Survivability and Traffic Grooming in WDM Optical Networks" Cambridge Univ. Press 2006

      4 F. Idzikowski, "Saving energy in IP-over-WDM networks by switching off line cards in low-demand scenarios" 1-6, 2010

      5 G. Rizzelli, "Reach-Related Energy Consumption in IP-Over-WDM 100G Translucent Networks" 31 (31): 1828-1834, 2013

      6 P. Wiatr, "Power savings versus network performance in dynamically provisioned WDM networks" 50 (50): 48-55, 2012

      7 E. Yetginer, "Power Efficient Traffic Grooming in Optical WDM Networks" 1-6, 2009

      8 M. Yannuzzi, "Performance of translucent optical networks under dynamic traffic and uncertain physical-layer information" 1-6, 2009

      9 P. Chowdhury, "On the design of energy-efficient mixed-line-rate (MLR) optical networks" 30 (30): 130-139, 2012

      10 X. Ge, "Multi-Path Cooperative Communications Networks for Augmented and Virtual Reality Transmission" 19 (19): 2345-2358, 2017

      11 H. Isermann, "Linear lexicographic optimization" 4 (4): 223-228, 1982

      12 R. S. Tucker, "Green optical communications-Part II: Energy limitations in networks" 17 (17): 261-274, 2011

      13 M. Xia, "Green Provisioning for Optical WDM Networks" 17 (17): 437-445, 2011

      14 Y. Wu, "Green Grooming in Elastic Optical Networks" 1-3, 2014

      15 J. Y. Yen, "Finding the k shortest loopless paths in a network" 17 (17): 712-716, 1971

      16 G. Shen, "Energy-minimized design for IP over WDM networks" 1 (1): 176-186, 2009

      17 C. Cavdar, "Energy-efficient connection provisioning in WDM optical networks" 1-3, 2011

      18 A. Fallahpour, "Energy Efficient Routing and Spectrum Assignment With Regenerator Placement in Elastic Optical Networks" 32 (32): 2019-2027, 2014

      19 X. Ge, "Energy Efficiency Challenges of 5G Small Cell Networks" 55 (55): 184-191, 2017

      20 R. Bolla, "Enabling backbone networks to sleep" 25 (25): 26-31, 2011

      21 F. Farahmand, "Differentiated Energy Savings in Optical Networks with Grooming Capabilities" 1-5, 2010

      22 B. Chen, "An energy efficiency optimization method in bandwidth constrained IP over WDM networks" 1-4, 2013

      23 R. M. Krishnaswamy, "Algorithms for routing and wavelength assignment based on solutions of LP-relaxations" 5 (5): 435-437, 2001

      24 F. Musumeci, "A power consumption analysis for IP-over-WDM core network architectures" 4 (4): 108-117, 2012

      25 B. Chen, "A new lightpath establishing method for dynamic traffic grooming under the overlay model" 17 (17): 11-20, 2009

      26 M. M. Hasan, "A Study of Energy-Aware Traffic Grooming in Optical Networks: Static and Dynamic Cases" 7 (7): 161-173, 2013

      27 X. Ge, "5G Ultra-Dense Cellular Networks" 23 (23): 72-79, 2016

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      연월일 이력구분 이력상세 등재구분
      학술지등록 한글명 : KSII Transactions on Internet and Information Systems
      외국어명 : KSII Transactions on Internet and Information Systems
      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-01-01 평가 등재학술지 유지 (해외등재 학술지 평가) KCI등재
      2013-10-01 평가 등재학술지 선정 (기타) KCI등재
      2011-01-01 평가 등재후보학술지 유지 (기타) KCI등재후보
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.45 0.21 0.37
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.32 0.29 0.244 0.03
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