% Encoding: UTF-8 @misc{gartner-digitalization, author = {Gartner}, title = {Gartner Glossary: Digitalization}, url = {https://www.gartner.com/en/information-technology/glossary/digitalization} } @Misc{planetsolar, author = {Jenny Filippetti}, howpublished = {Online}, month = jul, title = {PlanetSolar: the first solar powered boat around the world}, year = {2012}, groups = {Renewables}, url = {https://www.designboom.com/technology/planetsolar-the-first-solar-powered-boat-around-the-world}, urldate = {2020-12-16}, } @Misc{Radar, author = {Shilavadra Bhattacharjee}, howpublished = {Online}, month = apr, title = {Marine Radars and Their Use in the Shipping Industry}, year = {2020}, groups = {Navigation}, url = {https://www.marineinsight.com/marine-navigation/marine-radars-and-their-use-in-the-shipping-industry}, urldate = {2020-12-15}, } @Book{sonar-slam, author = {David Ribas and Pere Ridao and Jos{\'e} Neira}, publisher = {Springer-Verlag Berlin Heidelberg}, title = {Underwater SLAM for Structured Environments Using an Imaging Sonar}, year = {2010}, edition = {1}, isbn = {978-3-642-14039-6}, month = jan, doi = {10.1007/978-3-642-14040-2}, groups = {Navigation}, issn = {1610-7438}, urldate = {2020-12-15}, } @Misc{maritime-autonomy.vs.autpilot, author = {{Sea Machines}}, howpublished = {Online}, month = jan, title = {Marine Autonomy vs. Autopilot: Know the Differences}, year = {2020}, groups = {Navigation}, url = {https://www.maritime-executive.com/features/marine-autonomy-vs-autopilot-know-the-differences-1}, urldate = {2020-12-15}, } @Article{unmanned-slam, author = {Prof R Sutton and Dr S Sharma and Dr T Xao}, journal = {Journal of Marine Engineering \& Technology}, title = {Adaptive navigation systems for an unmanned surface vehicle}, year = {2011}, number = {3}, pages = {3--20}, volume = {10}, doi = {10.1080/20464177.2011.11020248}, eprint = {https://doi.org/10.1080/20464177.2011.11020248}, groups = {Navigation}, publisher = {Taylor \& Francis}, url = {https://doi.org/10.1080/20464177.2011.11020248}, urldate = {2020-12-15}, } @Misc{dyn-pos, author = {{Nautical Institute}}, howpublished = {Online}, title = {Dynamic Positioning}, groups = {Navigation}, url = {https://www.nautinst.org/resource-library/technical-library/dynamic-positioning.html}, urldate = {2020-12-15}, } @Misc{dnv-dp, author = {{DNV GL}}, howpublished = {Online}, month = jul, title = {Dynamic positioning vessel design philosophy guidelines}, year = {2015}, groups = {Navigation}, url = {https://rules.dnvgl.com/docs/pdf/DNVGL/RP/2015-07/DNVGL-RP-E306.pdf}, urldate = {2020-12-15}, } @Misc{offshore-dp, author = {{Offshore Engineering}}, howpublished = {Online}, title = {Dynamic Positioning Classes - Redundancy Levels}, groups = {Navigation}, url = {https://www.offshoreengineering.com/education/dynamic-positioning-dp/dnv-dp-classes-redundancy}, urldate = {2020-12-15}, } @Misc{icom-radio, author = {{ICOM}}, howpublished = {Online}, title = {A Guide to Marine Radio}, groups = {Communications}, url = {https://icomuk.co.uk/A-Guide-to-Marine-Radio/3995/169}, } @Misc{yachtcom-vhf, author = {YachtCom}, howpublished = {Online}, title = {Marine VHF Radio}, groups = {Communications}, url = {http://www.yachtcom.co.uk/comms/vhf}, } @Misc{yachtcom-requirements, author = {YachtCom}, howpublished = {Online}, title = {Marine Radio Legal Requirements}, groups = {Communications}, url = {http://www.yachtcom.co.uk/comms/home2020.html}, } @Misc{marininsight-ais, author = {Shilavadra Bhattacharjee}, howpublished = {Online}, month = nov, title = {Automatic Identification System (AIS): Integrating and Identifying Marine Communication Channels}, year = {2019}, groups = {Communications, Navigation}, url = {https://www.marineinsight.com/marine-navigation/automatic-identification-system-ais-integrating-and-identifying-marine-communication-channels}, urldate = {2020-12-15}, } @Article{digisat, author = {Digisat}, title = {Maritime Internet Service}, groups = {Communications}, url = {https://www.digisat.org/maritime-satellite-internet}, } @Misc{deccan-repair, author = {Francis D'Sa}, howpublished = {Online}, month = dec, title = {How undersea fibre-optic cables are repaired}, year = {2016}, groups = {Operations}, url = {https://www.deccanchronicle.com/technology/in-other-news/161216/how-undersea-fibre-optic-cables-are-repaired.html}, urldate = {2020-12-15}, } @Misc{subcom-anim, author = {Subcom}, howpublished = {Youtube}, month = jan, title = {Repair Animation - Undersea Fiber Optic Cable System}, year = {2019}, groups = {Operations}, url = {https://www.youtube.com/watch?v=r3tPI0qbLaE}, urldate = {2020-12-16}, } @Misc{kis-orca, author = {KIS-ORCA}, title = {Maintenance / Repair Operations}, groups = {Operations}, keywords = {rank1}, ranking = {rank1}, url = {https://kis-orca.eu/subsea-cables/maintenance-repair-operations}, } @Misc{schmidt-subastian, author = {{Schmidt Ocean Institute}}, howpublished = {Online}, title = {4500 m Remotely Operated Vehicle (ROV SuBastian)}, groups = {ROV}, url = {https://schmidtocean.org/technology/robotic-platforms/4500-m-remotely-operated-vehicle-rov}, urldate = {2020-12-16}, } @Proceedings{suboptic-grapnel, title = {Advances in Deepwater Cable Maintenance Through New Grapnel Technology}, year = {2010}, organization = {SubOptic}, author = {Andrew Thomas and Nigel Weaver}, groups = {Operations}, keywords = {rank1}, ranking = {rank1}, url = {https://www.suboptic.org/wp-content/uploads/2014/10/273_Poster_MN_08.pdf}, } @Misc{rov-manual, author = {{Marine Technology Society ROV Committe}}, howpublished = {Online}, title = {Operational Effectiveness of Unmanned Underwater Systems}, groups = {ROV}, url = {https://rov.org/wp-content/uploads/2020/06/manual.pdf}, urldate = {2020-12-16}, } @Misc{noaa-depth, author = {NOAA}, month = aug, title = {ETOPO1 1 Arc-Minute Global Relief Model}, year = {2008}, comment = {water depth data}, url = {https://data.nodc.noaa.gov/cgi-bin/iso?id=gov.noaa.ngdc.mgg.dem:316}, } @misc{noaa-depth-google, author = {NOAA}, howpublished = {Google}, month = aug, title = {Google Earth - ETOPO1 1 Arc-Minute Global Relief Model}, url = {https://earth.google.com/web/@-1.09506143,142.69180778,-2789.96992561a,18002923.90380377d,35y,0h,0t,0r/data=Ci4SLBIgYjczNzM1Y2E0Y2FiMTFlODhlMTU3MTM3ODRlMDYzMjMiCGxheWVyc18w}, year = {2008} } @Misc{first-solar, author = {Jeff Butler}, howpublished = {Plugboats}, month = may, title = {TBThursday 1975: The world{\rq}s 1st Solarboat}, year = {2019}, groups = {Renewables}, url = {https://plugboats.com/tbthursday-1975-the-worlds-1st-solarboat}, urldate = {2020-12-16}, } @InProceedings{cut-and-hold-paper, author = {Y. {Ejiri} and T. {Mizuguchi} and K. {Oto} and Y. {Yamaguchi}}, booktitle = {OCEANS 91 Proceedings}, title = {Newly Developed Cut And Hold Grapnel}, year = {1991}, month = oct, pages = {290-295}, volume = {1}, doi = {10.1109/OCEANS.1991.613945}, groups = {Operations}, url = {https://ieeexplore.ieee.org/document/613945}, urldate = {2020-12-16}, } @Misc{cut-and-hold-eta-product, author = {ETA}, howpublished = {Online}, title = {Cut & Hold Grapnel}, groups = {Operations}, url = {https://www.eta-ltd.com/cut-and-hold-grapnel.html}, urldate = {2020-12-15}, } @Misc{rov-hector-7-datasheet, author = {{SIMEC Technologies}}, howpublished = {Online}, month = nov, title = {Hector ROVs}, year = {2014}, groups = {ROV}, url = {http://www.simec-technologies.com/upload/galerie/fiche-hector-2016-50770.pdf}, urldate = {2020-12-16}, } @Misc{auv-hugin-superior-datasheet, author = {{Kongsberg Maritime}}, howpublished = {Online}, month = dec, title = {HUGIN Superior}, year = {2018}, groups = {AUV}, url = {https://www.kongsberg.com/globalassets/maritime/km-products/product-documents/hugin-superior.pdf}, urldate = {2020-12-16}, } @Misc{smd-qtrencher-600-datasheet, author = {SMD}, howpublished = {Online}, month = jan, title = {Q‐TRENCHER 600}, year = {2017}, groups = {ROV}, url = {https://www.smd.co.uk/wp-content/uploads/2017/01/QT600.pdf_0.pdf}, urldate = {2020-12-16}, } @Misc{global-marine-atlas-data-sheet, author = {{Global Marine}}, howpublished = {Online}, month = dec, title = {Atlas Series}, year = {2019}, groups = {ROV}, url = {https://globalmarine.co.uk/wp-content/uploads/2019/12/atlantisrovdatasheet.pdf}, urldate = {2020-12-16}, } @Misc{ultra-map-cable-damage-causes, author = {Ultramap}, howpublished = {Online}, month = mar, title = {The Biggest Threat to Subsea Cables}, year = {2020}, groups = {Operations}, url = {https://ultra-map.org/the-biggest-threat-to-subsea-cables/}, urldate = {2020-12-16}, } @Misc{glboal-marine-st200-datasheet, author = {{Global Marine}}, howpublished = {Online}, month = dec, title = {ST200 Series}, year = {2019}, groups = {ROV}, url = {https://globalmarine.co.uk/wp-content/uploads/2019/12/st200seriesdatasheet.pdf}, urldate = {2020-12-16}, } @Misc{battery-uni-chemistry-types, author = {{Battery University}}, howpublished = {Online}, month = mar, title = {What's the Best Battery?}, year = {2017}, groups = {Battery}, url = {https://batteryuniversity.com/learn/archive/whats_the_best_battery}, urldate = {2020-12-19}, } @Article{lawsone-high-voltage-flow-battery, author = {Pengfei Hu and Hao Lan and Xiao Wang and Yun Yang and Xiaoyu Liu and Hua Wang and Lin Guo}, journal = {Energy Storage Materials}, title = {Renewable-lawsone-based sustainable and high-voltage aqueous flow battery}, year = {2019}, issn = {2405-8297}, pages = {62 - 68}, volume = {19}, abstract = {Recently, redox-flow batteries (RFBs) are drawing intensive attention due to their advantages of peak shaving, grid flexibility and long life time. All-vanadium RFBs are most widely employed, but the high cost and toxicity hinder their large-scale applications. As potential substitutes, development of organic-based aqueous RFBs is impeded by a lack of electroactive pairs with combination of high cell voltage and sufficient cycle stability. In this work, a novel biomolecule-based aqueous RFB with high performance was successfully fabricated. Lawsone, a renewable biomolecule derived from natural henna, was developed as a stable anolyte. By paring with 4-HO-TEMPO, the as-assembled RFB exhibits a high operating voltage above 1.30 V, which is among the highest records. Meanwhile, the capacity retention rate reaches 99.992% per cycle. This work highlights the rational utilization of redox-active biomolecule to construct sustainable, low-cost and high-performance aqueous RFBs.}, doi = {https://doi.org/10.1016/j.ensm.2018.10.017}, groups = {Battery}, keywords = {Biomolecule, Renewability, Flow battery, Energy storage, Sustainability}, url = {http://www.sciencedirect.com/science/article/pii/S240582971830895X}, urldate = {2020-12-20}, } @Misc{workingmouse-digitalisation, author = {David Burkett}, howpublished = {Online}, month = dec, title = {Digitisation and Digitalisation: What Means What?}, year = {2017}, url = {https://workingmouse.com.au/innovation/digitisation-digitalisation-digital-transformation}, urldate = {2020-12-20}, } @Misc{strathclyde-fuel-cell-efficiency, author = {{Green Box Systems Group}}, howpublished = {Online}, month = apr, title = {Fuel Cell Construction and Performance Characterisation}, year = {2000}, groups = {Battery}, organization = {University of Strathclyde}, url = {http://www.esru.strath.ac.uk/EandE/Web_sites/99-00/bio_fuel_cells/groupproject/library/constructionefficiency/text.htm}, urldate = {2020-12-21}, } @Misc{elec-a2z-fuel-cell-iv, author = {Ahmed Faizan}, howpublished = {Online}, title = {Fuel Cell: Characteristics Curve & Losses}, year = {2018}, groups = {Battery}, url = {https://electricala2z.com/renewable-energy/fuel-cell-characteristics-curve-losses/}, urldate = {2020-12-21}, } @TechReport{circular-energy-li-lca, author = {Hans Eric Melin}, institution = {Circular Energy Storage}, title = {Analysis of the climate impact of lithium-ion batteries and how to measure it}, year = {2019}, type = {resreport}, groups = {Battery}, url = {https://www.transportenvironment.org/sites/te/files/publications/2019_11_Analysis_CO2_footprint_lithium-ion_batteries.pdf}, urldate = {2020-12-21}, } @Comment{jabref-meta: databaseType:bibtex;} @Comment{jabref-meta: grouping: 0 AllEntriesGroup:; 1 StaticGroup:Communications\;0\;0\;0x8a8a8aff\;\;\;; 1 StaticGroup:Navigation\;0\;0\;0x8a8a8aff\;\;\;; 1 StaticGroup:Operations\;0\;1\;0x8a8a8aff\;\;\;; 1 StaticGroup:UUV\;0\;1\;0x8a8a8aff\;\;\;; 2 StaticGroup:ROV\;0\;1\;0x8a8a8aff\;\;\;; 2 StaticGroup:AUV\;0\;1\;0x8a8a8aff\;\;\;; 1 StaticGroup:Renewables\;0\;1\;0x8a8a8aff\;\;\;; 1 StaticGroup:Battery\;0\;1\;0x8a8a8aff\;\;\;; }