Help
Cart
Skip main navigation

Available Issues

April 10, 2013 - May 13, 2026

Available Issues

April 10, 2013 - May 13, 2026

No Longer in the Dark: Utilizing Imperfect Advance Load Information for Single-Truck Operators

Published Online:25 Mar 2022https://doi.org/10.1287/trsc.2022.1137

References

  • Al-Habib A, Gonzalez NF (2018) Predicting carrier load cancellation. Unpublished master’s thesis, Massachusetts Institute of Technology, Cambridge.Google Scholar
  • American Trucking Associations (2018) Trucking industry revenues top $796 billion in 2018. https://www.trucking.org/news-insights/trucking-industry-revenues-top-796-billion-2018.Google Scholar
  • Angulo A, Nachtmann H, Waller MA (2004) Supply chain information sharing in a vendor managed inventory partnership. J. Bus. Logist. 25 (1):101–120.CrossrefGoogle Scholar
  • Axsäter S, Viswanathan S (2012) On the value of customer information for an independent supplier in a continuous review inventory system. Eur. J. Oper. Res. 221(2):340–347.CrossrefGoogle Scholar
  • Beck Z (2014) 6 Factors and figures of the Canadian trucking industry. Accessed May 2019, https://www.freightera.com/blog/facts-and-figures-of-the-canadian-trucking-industry/.Google Scholar
  • Bendre AB, Nielsen LR (2013) Inventory control in a lost-sales setting with information about supply lead times. Internat. J. Production Econom. 142(2):324–331.CrossrefGoogle Scholar
  • Bian W, Shang J, Zhang J (2016) Two-way information sharing under supply chain competition. Internat. J. Production Econom. 178:82–94.CrossrefGoogle Scholar
  • Boada-Collado P, Chopra S, Smilowitz K (2018) Partial demand information and commitment in dynamic transportation procurement. Preprint, submitted November 26, http://dx.doi.org/10.2139/ssrn.3271689.Google Scholar
  • Byrne PJ, Heavey C (2006) The impact of information sharing and forecasting in capacitated industrial supply chains: A case study. Internat. J. Production Econom. 103(1):420–437.CrossrefGoogle Scholar
  • Cachon GP, Fisher M (2000) Supply chain inventory management and value of shared information. Management Sci. 46(8):1032–1048.LinkGoogle Scholar
  • Chen F (1999) Decentralized supply chains subject to information delays. Management Sci. 45(8):1076–1090.LinkGoogle Scholar
  • Chen L, Lee HL (2009) Information sharing and order variability control under a generalized demand model. Management Sci. 55(5):781–797.LinkGoogle Scholar
  • Chen F, Yu B (2005) Quantifying the value of lead-time information in a single-location inventory system. Manufacturing Service Oper. Management 7(2):144–151.LinkGoogle Scholar
  • Chen MC, Yang T, Yen CT (2007) Investigating the value of information sharing in multi-echelon supply chains. Quality Quantity 41(3):497–511.CrossrefGoogle Scholar
  • Chiang WK, Feng Y (2007) The value of information sharing in the presence of supply uncertainty and demand volatility. Internat. J. Production Res. 45(6):1429–1447.CrossrefGoogle Scholar
  • Choudhury B, Agarwal YK, Singh KN, Bandyopadhyay DK (2008) Value of information in a capacitated supply chain. INFOR Inform. Systems Oper. Res. 46(2):117–127.CrossrefGoogle Scholar
  • D’Amours S, Montreuil B (1999) Networked manufacturing: The impact of information sharing. Internat. J. Production Econom. 58:63–79.CrossrefGoogle Scholar
  • DMDatabase (2019) Truck driver leads—Owner operator leads. Retrieved May 2019, https://dmdatabases.com/databases/specialty-lists/.Google Scholar
  • Dobson G, Pinker EJ (2006) The value of sharing lead time information. IIE Trans. 38(3):171–183.CrossrefGoogle Scholar
  • Express Freight Finance (2019) ELDs, the spot market, and trucker privacy concerns. Accessed April 2019, https://expressfreightfinance.com/elds-the-spot-market-and-trucker-privacy-concerns/.Google Scholar
  • Figliozzi MA, Mahmassani HS, Jaillet P (2004) Competitive performance assessment of dynamic vehicle routing technologies using sequential auctions. Transportation Res. Record 1882(1):10–18.CrossrefGoogle Scholar
  • Flamini M, Nigro M, Pacciarelli D (2011) Assessing the value of information for retail distribution of perishable goods. Eur. Transport Res. Rev. 3(2):103–112.CrossrefGoogle Scholar
  • Flapper SDP, Gayon JP, Vercraene S (2012) Control of a production-inventory system with returns under imperfect advance return information. Eur. J. Oper. Res. 218(2):392–400.CrossrefGoogle Scholar
  • Frantzeskakis L, Powell WB (1990) A successive linear approximation procedure for stochastic, dynamic vehicle allocation problems. Transportation Sci. 24(1):40–57.LinkGoogle Scholar
  • Gamst G, Meyers LS, Guarino AJ (2008) Analysis of Variance Designs: A Conceptual and Computational Approach with SPSS and SAS (Cambridge University Press, Cambridge, UK).CrossrefGoogle Scholar
  • Gavirneni S, Kapuscinski R, Tayur S (1999) Value of information in capacitated supply chains. Management Sci. 45(1):16–24.LinkGoogle Scholar
  • Gayon JP, Benjaafar S, Vericourt FD (2009) Using imperfect advance demand information in production-inventory systems with multiple customer classes. Manufacturing Service Oper. Management 11(1):128–143.LinkGoogle Scholar
  • Ha AY (1997) Stock-rationing policy for a make-to-stock production system with two priority classes and backordering. Naval Res. Logist. 44(5):457–472.CrossrefGoogle Scholar
  • Hill K (2019) Who’s really hauling spot market freight? FreightWaves (July 16), https://www.freightwaves.com/news/whos-really-hauling-spot-market-freight.Google Scholar
  • Hooper A, Muarry D (2018) An analysis of the operational costs of trucking: 2018 update. Accessed April 2019, http://truckingresearch.org/wp-content/uploads/2018/10/ATRI-Operational-Costs-of-Trucking-2018.pdf.Google Scholar
  • Huang Z, Gangopadhyay A (2004) A simulation study of supply chain management to measure the impact of information sharing. Inform. Resources Management J. 17(3):20–32.CrossrefGoogle Scholar
  • Huang GQ, Lau JSK, Mak KL (2003) The impacts of sharing production information on supply chain dynamics: A review of the literature. Internat. J. Production Res. 41(7):1483–1517.CrossrefGoogle Scholar
  • Jakšič M, Fransoo JC, Tan T, De Kok AG, Rusjan B (2011) Inventory management with advance capacity information. Naval Res. Logist. 58(4):355–369.CrossrefGoogle Scholar
  • Jonsson P, Myrelid P (2016) Supply chain information utilization: Conceptualisation and antecedents. Internat. J. Oper. Production Management 36(12):1769–1799.CrossrefGoogle Scholar
  • Kaman C, Savasaneril S, Serin Y (2013) Production and lead time quotation under imperfect shop floor information. Internat. J. Production Econom. 144(2):422–431.CrossrefGoogle Scholar
  • Kang Y, Gershwin SB (2005) Information inaccuracy in inventory systems: Stock loss and stock-out. IIE Trans. 37(9):843–859.CrossrefGoogle Scholar
  • Keskinocak P, Tayur S (1998) Scheduling of time-shared jet aircraft. Transportation Sci. 32(3):277–294.LinkGoogle Scholar
  • Khattak AJ, Yim Y, Prokopy LS (2003) Willingness to pay for travel information. Transportation Res. Part C: Emerging Tech. 11(2):137–159.CrossrefGoogle Scholar
  • Khurana MK, Mishra PK, Singh AR (2011) Barriers to information sharing in supply chain of manufacturing industries. Internat. J. Manufacturing Systems 1:9–29.CrossrefGoogle Scholar
  • King D, Griffiths J (1986) Measuring the value of information and information systems services and products. AGARD Conf. Proc., vol. 385 (Advisory Group for Aerospace Research and Development, Neuilly-sur-Seine, France), 45.Google Scholar
  • Koch R (2011) The 80/20 Principle: The Secret to Achieving More with Less, 3rd ed. (Crown Publishing Group, New York).Google Scholar
  • Kumar RS, Pugazhendhi S (2012) Information sharing in supply chains: An overview. Procedia Engrg. 38:2147–2154.CrossrefGoogle Scholar
  • Larbi R, Alpan G, Baptiste P, Penz B (2011) Scheduling cross docking operations under full, partial and no information on inbound arrivals. Comput. Oper. Res. 38(6):889–900.CrossrefGoogle Scholar
  • Lee HL, So KC, Tang CS (2000) Value of information sharing in a two-level supply chain. Management Sci. 46(5):626–643.LinkGoogle Scholar
  • Liu C, Xiang X, Zheng L (2020) Value of information sharing in a multiple producers–distributor supply chain. Ann. Oper. Res. 285:121–148.CrossrefGoogle Scholar
  • Lumsden K, Mirzabeiki V (2008) Determining the value of information for different partners in the supply chain. Internat. J. Physical Distribution Logist. Management 38(9):659–673.CrossrefGoogle Scholar
  • Montgomery DC (2012) Design and Analysis of Experiments (Wiley, Hoboken, NJ).Google Scholar
  • Nagarajan A, Canessa E, Mitchell W, White CC (2000) E-commerce and the changing terms of competition in the trucking industry: A study of firm level responses to changing industry structure. https://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.643.2559&rep=rep1&type=pdf.Google Scholar
  • Najafi M, Eshghi K, Leeuw SD (2014) A dynamic dispatching and routing model to plan/re-plan logistics activities in response to an earthquake. OR Spectrum 36(2):323–356.CrossrefGoogle Scholar
  • Ontario Agglomerations (2019) Cities, towns and villages. Retrieved May 2019, http://www.city-data.com/canada/Ontario-Index.html.Google Scholar
  • Overton T (2017) Step 6: Different types of trucking companies. Accessed February 2019, https://cdllife.com/2017/step-6-different-types-trucking-companies/.Google Scholar
  • Ozer O, Wei W (2004) Inventory control with limited capacity and advance demand information. Oper. Res. 52(6):988–1000.LinkGoogle Scholar
  • Pillac V, Gendreau M, Guéret C, Medaglia AL (2013) A review of dynamic vehicle routing problems. Eur. J. Oper. Res. 225(1):1–11.CrossrefGoogle Scholar
  • Powell WB (1996) A stochastic formulation of the dynamic assignment problem, with an application to truckload motor carriers. Transportation Sci. 30(3):195–219.LinkGoogle Scholar
  • Powell WB (2014) Clearing the jungle of stochastic optimization. Newman A, Leung J, eds. Bridging Data and Decisions. INFORMS Tutorials in Operations Research (INFORMS, Catonsville, MD), 109–137.LinkGoogle Scholar
  • Psaraftis H (1980) A dynamic-programming solution to the single vehicle many-to-many immediate request dial-a-ride problem. Transportation Sci. 14(2):130–154.LinkGoogle Scholar
  • Rached M, Bahroun Z, Campagne JP (2015) Assessing the value of information sharing and its impact on the performance of the various partners in supply chains. Comput. Indust. Engrg. 88:237–253.CrossrefGoogle Scholar
  • Scott A (2015) The value of information sharing for truckload shippers. Transportation Res. Part E: Logist. Transportation Rev. 81 (September):203–214.CrossrefGoogle Scholar
  • Sheffi Y (2012) Logistics Clusters: Delivering Value and Driving Growth (MIT Press, Cambridge, MA).Google Scholar
  • Simão HP, Day J, George AP, Gifford T, Nienow J, Powell WB (2009) An approximate dynamic programming algorithm for large-scale fleet management: A case application. Transportation Sci. 43(2):178–197.LinkGoogle Scholar
  • Simchi-Levi D, Zhao Y (2003) The value of information sharing in a two-stage supply chain with production capacity constraints. Naval Res. Logist. 50(8):888–916.CrossrefGoogle Scholar
  • Tamhane AC (2012) Statistical Analysis of Designed Experiments: Theory and Applications (John Wiley & Sons, Hoboken, NJ).Google Scholar
  • Tan T, Gullu R, Erkip N (2007) Modelling imperfect advance demand information and analysis of optimal inventory policies. Eur. J. Oper. Res. 177(2):897–923.CrossrefGoogle Scholar
  • Tan T, Gullu R, Erkip N (2009) Using imperfect advance demand information in ordering and rationing decisions. Internat. J. Production Econom. 121(2):665–677.CrossrefGoogle Scholar
  • Tjokroamidjojo D, Kutanoglu E, Taylor GD (2006) Quantifying the value of advance load information in truckload trucking. Transportation Res. Part E: Logist. Transportation Rev. 42(4):340–357.CrossrefGoogle Scholar
  • White W (1972) Dynamic transshipment networks: An algorithm and its application to the distribution of empty containers. Networks 3(2):211–236.CrossrefGoogle Scholar
  • Yu Z, Yan H, Cheng TCE (2001) Benefits of information sharing with supply chain partnerships. Indust. Management Data Systems. 101(3):114–121.CrossrefGoogle Scholar
  • Zolfagharinia H, Haughton M (2014) The benefit of advance load information for truckload carriers. Transportation Res. Part E: Logist. Transportation Rev. 70(1):34–54.CrossrefGoogle Scholar
  • Zolfagharinia H, Haughton M (2016) Effective truckload dispatch decision method with incomplete advance load information. Eur. J. Oper. Res. 252(1):103–121.CrossrefGoogle Scholar
  • Zolfagharinia H, Haughton M (2017) Operational flexibility in the truckload trucking industry. Transportation Res. Part B: Methodological 104(October):437–460.CrossrefGoogle Scholar
  • Zolfagharinia H, Haughton M (2018) The importance of considering non-linear layover and delay costs for local truckers. Transportation Res. Part E: Logist. Transportation Rev. 109:331–355.CrossrefGoogle Scholar
  • Zugheyr J (2011) Trucking: novel spot-market dispatching models. Unpublished doctoral dissertation, Wayne State University, Detroit.Google Scholar
Previous
Back to Top
Next
INFORMS site uses cookies to store information on your computer. Some are essential to make our site work; Others help us improve the user experience. By using this site, you consent to the placement of these cookies. Please read our Privacy Statement to learn more.
Agree