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    Journals >Chinese Optics Letters >Volume 17 >Issue 10 >Page 100005 > Article
    • Chinese Optics Letters
    • Vol. 17, Issue 10, 100005 (2019)
    Performance characterization of two-way multi-hop underwater networks in turbulent channels [Invited]
    Fangyuan Xing, Hongxi Yin*, and Lianyou Jing
    Author Affiliations
  • School of Information and Communication Engineering, Dalian University of Technology, Dalian 116023, China
    • show less
    DOI: 10.3788/COL201917.100005 Cite this Article Set citation alerts
    Fangyuan Xing, Hongxi Yin, Lianyou Jing. Performance characterization of two-way multi-hop underwater networks in turbulent channels [Invited][J]. Chinese Optics Letters, 2019, 17(10): 100005 Copy Citation Text show less
    Multi-hop two-way systems: (a) Scenario 1 with an odd number of relays, (b) Scenario 2 with an even number of relays.
    Fig. 1. Multi-hop two-way systems: (a) Scenario 1 with an odd number of relays, (b) Scenario 2 with an even number of relays.
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    Outage probability versus transmission distance for two-way multi-hop systems (a) with clear ocean water c(λ)=0.151 and (b) with pure sea water c(λ)=0.056.
    Fig. 2. Outage probability versus transmission distance for two-way multi-hop systems (a) with clear ocean water c(λ)=0.151 and (b) with pure sea water c(λ)=0.056.
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    Outage probability versus total transmitted power for two-way multi-hop systems (a) with clear ocean water c(λ)=0.151 and (b) with pure sea water c(λ)=0.056.
    Fig. 3. Outage probability versus total transmitted power for two-way multi-hop systems (a) with clear ocean water c(λ)=0.151 and (b) with pure sea water c(λ)=0.056.
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    Sum rates of one-way and two-way systems (a) with single relay, (b) with two relays, (c) with three relays, and (d) with four relays.
    Fig. 4. Sum rates of one-way and two-way systems (a) with single relay, (b) with two relays, (c) with three relays, and (d) with four relays.
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    Outage probability of two-hop two-way systems with three types of water and three relay locations.
    Fig. 5. Outage probability of two-hop two-way systems with three types of water and three relay locations.
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    Outage probability of two-hop two-way systems with equal power allocation and proportional power allocation under clear ocean water.
    Fig. 6. Outage probability of two-hop two-way systems with equal power allocation and proportional power allocation under clear ocean water.
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    Water Typesa(λ)(m1)b(λ)(m1)c(λ)(m1)
    Pure sea water0.0530.0030.056
    Clear ocean water0.1140.0370.151
    Coastal ocean water0.1790.2190.398
    Table 1. Typical Values of Attenuation Coefficients for Three Types of Ocean Water[18]
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    Fangyuan Xing, Hongxi Yin, Lianyou Jing. Performance characterization of two-way multi-hop underwater networks in turbulent channels [Invited][J]. Chinese Optics Letters, 2019, 17(10): 100005
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