TY - JOUR ID - 3948 TI - Door Allocations to Origins and Destinations at Less-than-Truckload Trucking Terminals JO - Journal of Industrial and Systems Engineering JA - JISE LA - en SN - 1735-8272 AU - Yu, Vincent F. AU - Sharma, Dushyant AU - Murty, Katta G. AD - Department of Industrial management, National Taiwan University of Science and Technology, Taiwan AD - Equity Trading Lab, Morgan Stanley, 1585 Broadway Ave, New York, NY 10036 AD - Department of Industrial and Operations Engineering, University of Michigan, USA Y1 - 2008 PY - 2008 VL - 2 IS - 1 SP - 1 EP - 15 KW - cross-docking KW - Less-than-truckload freight terminal KW - Man-hours for consolidation DO - N2 - For an LTL (Less-than Truckload) carrier, the allocation of doors at a consolidation facility to outbound trailers assigned to various destinations, and to inbound trailers in the continuous stream arriving from various origins, has a significant impact on its operations, and on the nightly man-hours needed for consolidation. In the past literature door allocations to destinations of outbound trailers are determined using deterministic mathematical models based on average volumes of shipments between origin-destination pairs. The online nature of allocation of doors to inbound trailers is either ignored or simple rules like FCFS (First Come First Served) are assumed that do not take advantage of the data on the trailer's actual contents readily available at the time of its arrival. In reality the actual shipment volume between any origin-destination pair varies significantly from day to day. Due to this wide variation destination door allocations that are optimal for the average volume tend to be far from optimum for most nights. Also, very simple on-line policies for door allocation to each inbound truck at the time of its arrival based on its actual contents can significantly reduce the man-hours needed to consolidate its contents. In this paper we develop a new model that uses such an on-line policy for door allocations to inbound trailers, and determines doors to allocate to destinations to minimize the expected man-hours for consolidating freight nightly taking the random variation in freight volumes into account. Computational results on data from an actual facility indicate that the man-hour requirement can be reduced by over 20% compared to current practice. UR - https://www.jise.ir/article_3948.html L1 - https://www.jise.ir/article_3948_24fced7e8935833da864ec4e16587021.pdf ER -