Vessel Service Planning in Seaports

References

• Adulyasak Y, Cordeau JF, Jans R (2014) Formulations and branch-and-cut algorithms for multivehicle production and inventory routing problems. INFORMS J. Comput. 26(1):103–120.Link, Google Scholar
• Adulyasak Y, Cordeau JF, Jans R (2015) Benders decomposition for production routing under demand uncertainty. Oper. Res. 63(4):851–867.Link, Google Scholar
• Benders J (1962) Partitioning procedures for solving mixed-variables programming problems. Numer. Math. 4:238–252.Crossref, Google Scholar
• Bierwirth C, Meisel F (2010) A survey of berth allocation and quay crane scheduling problems in container terminals. Eur. J. Oper. Res. 202(3):615–627.Crossref, Google Scholar
• Bierwirth C, Meisel F (2015) A follow-up survey of berth allocation and quay crane scheduling problems in container terminals. Eur. J. Oper. Res. 244(3):675–689.Crossref, Google Scholar
• Buhrkal K, Zuglian S, Ropke S, Larsen J, Lusby R (2011) Models for the discrete berth allocation problem: A computational comparison. Transportation Res. Part E Logist. Transportation Rev. 47(4):461–473.Crossref, Google Scholar
• Carlo HJ, Vis IF, Roodbergen KJ (2015) Seaside operations in container terminals: Literature overview, trends, and research directions. Flexible Services Manufacturing J. 27(2–3):224–262.Crossref, Google Scholar
• Cordeau JF, Laporte G, Legato P, Moccia L (2005) Models and tabu search heuristics for the berth-allocation problem. Transportation Sci. 39(4):526–538.Link, Google Scholar
• Cordeau JF, Stojković G, Soumis F, Desrosiers J (2001) Benders decomposition for simultaneous aircraft routing and crew scheduling. Transportation Sci. 35(4):375–388.Link, Google Scholar
• Corry P, Bierwirth C (2019) The berth allocation problem with channel restrictions. Transportation Sci. 53(3):708–727.Abstract, Google Scholar
• Dantzig GB, Wolfe P (1960) Decomposition principle for linear programs. Oper. Res. 8(1):101–111.Link, Google Scholar
• Dauzère-Pérès S, De Almeida D, Guyon O, Benhizia F (2015) A Lagrangian heuristic framework for a real-life integrated planning problem of railway transportation resources. Transportation Res. Part B Methodological 74:138–150.Crossref, Google Scholar
• Ding Y, Jia S, Gu T, Li CL (2016) SGICT builds an optimization-based system for daily berth planning. Interfaces 46(4):281–296.Link, Google Scholar
• Du Y, Chen Q, Lam JSL, Xu Y, Cao JX (2015) Modeling the impacts of tides and the virtual arrival policy in berth allocation. Transportation Sci. 49(4):939–956.Link, Google Scholar
• Edwards H (2010) Pilot assignment to ships in the Sea of Bothnia. Bjørndal E, Bjørndal M, Pardalos PM, Rönnqvist M, eds. Energy, Natural Resources and Environmental Economics (Springer, Berlin), 411–425.Crossref, Google Scholar
• Fransoo JC, Lee CY (2013) The critical role of ocean container transport in global supply chain performance. Production Oper. Management 22(2):253–268.Crossref, Google Scholar
• Goel A, Irnich S (2017) An exact method for vehicle routing and truck driver scheduling problems. Transportation Sci. 51(2):737–754.Link, Google Scholar
• Hillard G (2012) Harbor pilots reap high rewards for dangerous job. NPR (March 21), https://www.npr.org/2012/03/21/149091141/harbor-pilots-reap-high-rewards-for-dangerous-job.Google Scholar
• Hong Kong Maritime and Port Board (2018) Pilots in Hong Kong, Hong Kong. Accessed May 1, 2021, https://www.hkmpb.gov.hk/en/pilots.html.Google Scholar
• Imai A, Nagaiwa K, Tat CW (1997) Efficient planning of berth allocation for container terminals in Asia. J. Adv. Transportation 31(1):75–94.Crossref, Google Scholar
• Imai A, Nishimura E, Papadimitriou S (2001) The dynamic berth allocation problem for a container port. Transportation Res. Part B Methodological 35(4):401–417.Crossref, Google Scholar
• Imai A, Nishimura E, Papadimitriou S (2003) Berth allocation with service priority. Transportation Res. Part B Methodological 37(5):437–457.Crossref, Google Scholar
• Imai A, Sun X, Nishimura E, Papadimitriou S (2005) Berth allocation in a container port: Using a continuous location space approach. Transportation Res. Part B Methodological 39(3):199–221.Crossref, Google Scholar
• International Maritime Organization (2001) Guidelines on fatigue mitigation and management. Technical report, International Maritime Organization, London. https://wwwcdn.imo.org/localresources/en/OurWork/HumanElement/Documents/1014.pdf.Google Scholar
• Jans R (2009) Solving lot-sizing problems on parallel identical machines using symmetry-breaking constraints. INFORMS J. Comput. 21(1):123–136.Link, Google Scholar
• Jia S, Li CL, Xu Z (2019) Managing navigation channel traffic and anchorage area utilization of a container port. Transportation Sci. 53(3):728–745.Link, Google Scholar
• Jia S, Wu L, Meng Q (2020) Joint scheduling of vessel traffic and pilots in seaport waters. Transportation Sci. 54(6):1495–1515.Link, Google Scholar
• Lalla-Ruiz E, Shi X, Voß S (2018) The waterway ship scheduling problem. Transportation Res. Part D Transportation Environment 60:191–209.Crossref, Google Scholar
• Li S, Jia S (2019) The seaport traffic scheduling problem: Formulations and a column-row generation algorithm. Transportation Res. Part B Methodological 128:158–184.Crossref, Google Scholar
• Lübbecke E, Lübbecke ME, Möhring RH (2019) Ship traffic optimization for the Kiel Canal. Oper. Res. 67(3):791–812.Link, Google Scholar
• Mercier A, Cordeau JF, Soumis F (2005) A computational study of Benders decomposition for the integrated aircraft routing and crew scheduling problem. Comput. Oper. Res. 32(6):1451–1476.Crossref, Google Scholar
• Monaco MF, Sammarra M (2007) The berth allocation problem: A strong formulation solved by a Lagrangean approach. Transportation Sci. 41(2):265–280.Link, Google Scholar
• Roy D, de Koster R, Bekker R (2020) Modeling and design of container terminal operations. Oper. Res. 68(3):686–715.Link, Google Scholar
• Russon MA (2021) The cost of the Suez Canal blockage. BBC (March 29), https://www.bbc.com/news/business-56559073.Google Scholar
• Ruther S, Boland N, Engineer FG, Evans I (2017) Integrated aircraft routing, crew pairing, and tail assignment: Branch-and-price with many pricing problems. Transportation Sci. 51(1):177–195.Link, Google Scholar
• Sandhu R, Klabjan D (2007) Integrated airline fleeting and crew-pairing decisions. Oper. Res. 55(3):439–456.Link, Google Scholar
• Stahlbock R, Voß S (2008) Operations research at container terminals: A literature update. OR Spectrum 30(1):1–52.Crossref, Google Scholar
• Tang G, Wang W, Song X, Guo Z, Yu X, Qiao F (2016) Effect of entrance channel dimensions on berth occupancy of container terminals. Ocean Engrg. 117:174–187.Crossref, Google Scholar
• Texas Department of Transportation (2020) Texas port profiles. Technical report, Texas Department of Transportation, Austin. https://ftp.dot.state.tx.us/pub/txdot-info/mrt/port-profiles.pdf.Google Scholar
• The Marine Department of Hong Kong (2020a) Port of Hong Kong in figures. Technical report, The Marine Department of Hong Kong, https://www.mardep.gov.hk/en/fact/pdf/portstat_pamphlet20.pdf, Accessed May 1, 2021.Google Scholar
• The Marine Department of Hong Kong (2020b) Towage & salvage in Hong Kong. Accessed May 1, 2021, https://www.mardep.gov.hk/en/pub_services/sdfiles/towasalv.html.Google Scholar
• The Port of Felixstowe (2021) Home page of the Port of Felixstowe. Accessed May 1, 2021, https://www.portoffelixstowe.co.uk/.Google Scholar
• The Port of Montreal (2020) Services and fees in the Port of Montreal. Accessed May 1, 2021, https://www.port-montreal.com/en/goods/operations/services-and-fees.Google Scholar
• United Nations Conference on Trade and Development (2019) Review of maritime transportation 2019. Paper presented at the United Nations Conference on Trade and Development, UNCTAD, New York and Geneva. Accessed May 1, 2021, http://unctad.org/en/PublicationsLibrary/rmt2019_en.pdf.Google Scholar
• Wermus M, Pope JA (1994) Scheduling harbor pilots. Interfaces 24(2):44–52.Link, Google Scholar
• Wu L, Jia S, Wang S (2020) Pilotage planning in seaports. Eur. J. Oper. Res. 287(1):90–105.Crossref, Google Scholar
• Xie F, Wu T, Zhang C (2019) A branch-and-price algorithm for the integrated berth allocation and quay crane assignment problem. Transportation Sci. 53(5):1427–1454.Link, Google Scholar
• Xu Z, Lee CY (2018) New lower bound and exact method for the continuous berth allocation problem. Oper. Res. 66(3):778–798.Link, Google Scholar
• Zeighami V, Soumis F (2019) Combining Benders’ decomposition and column generation for integrated crew pairing and personalized crew assignment problems. Transportation Sci. 53(5):1479–1499.Link, Google Scholar
• Zhang X, Lin J, Guo Z, Liu T (2016) Vessel transportation scheduling optimization based on channel-berth coordination. Ocean Engrg. 112:145–152.Crossref, Google Scholar
• Zhen L, Liang Z, Zhuge D, Lee LH, Chew EP (2017) Daily berth planning in a tidal port with channel flow control. Transportation Res. Part B Methodological 106:193–217.Crossref, Google Scholar