Energy-Efficient Timely Transportation of Long-Haul Heavy-Duty Trucks

We consider a timely transportation problem where a heavy-duty truck travels between two locations across the national highway system, subject to a hard deadline constraint. Our objective is to minimize the total fuel consumption of the truck, by optimizing both route planning and speed planning. The problem is important for cost-effective and environment-friendly truck operation, and it is uniquely challenging due to its combinatorial nature as well as the need of considering hard deadline constraint. We first show that the problem is NP-complete; thus exact solution is computational prohibited unless P = NP. We then design a fully polynomial time approximation scheme (FPTAS) to solve it. While achieving highly-preferred theoretical performance guarantee, the proposed FPTAS still suffers from long running time when applying to national-wide highway systems with tens of thousands of nodes and edges. Leveraging elegant insights from studying the dual of the original problem, we design a heuristic with much lower complexity. The proposed heuristic allows us to tackle the energy-efficient timely transportation problem on large-scale national highway systems. We further characterize a condition under which our heuristic generates an optimal solution. We observe that the condition holds in most of practical instances in numerical experiments, justifying the superior empirical performance of our heuristic. We carry out extensive numerical experiments using real-world truck data over the actual U.S. highway network. The results show that our proposed solutions achieve 17% (resp. 14%) fuel consumption reduction, as compared with a fastest path (resp. shortest path) algorithm adapted from common practice.

[1]  Wilco van den Heuvel,et al.  Analysis of FPTASes for the multi-objective shortest path problem , 2016, Comput. Oper. Res..

[2]  Tsuyoshi Murata,et al.  {m , 1934, ACML.

[3]  Yoshinori Suzuki,et al.  A new truck-routing approach for reducing fuel consumption and pollutants emission , 2011 .

[4]  Josie Garthwaite Smarter trucking saves fuel over the long haul , 2012 .

[5]  Refael Hassin,et al.  Approximation Schemes for the Restricted Shortest Path Problem , 1992, Math. Oper. Res..

[6]  Christos D. Zaroliagis,et al.  Multiobjective Optimization: Improved FPTAS for Shortest Paths and Non-Linear Objectives with Applications , 2006, Theory of Computing Systems.

[7]  Erik Hellström,et al.  Look-ahead Control for Heavy Trucks to minimize Trip Time and Fuel Consumption , 2007 .

[8]  Rok Sosic,et al.  SNAP , 2016, ACM Trans. Intell. Syst. Technol..

[9]  Antonio Filippone,et al.  Fuel savings on a heavy vehicle via aerodynamic drag reduction , 2010 .

[10]  Anant D Vyas,et al.  Analysis of Technology Options to Reduce the Fuel Consumption of Idling Trucks , 2000 .

[11]  François Vanderbeck,et al.  Computational study of a column generation algorithm for bin packing and cutting stock problems , 1999, Math. Program..

[12]  Erik Hellström,et al.  Design of an efficient algorithm for fuel-optimal look-ahead control , 2010 .

[13]  H. Schwefel,et al.  \genetic Local Search Algorithms for the Traveling Salesman Problem," in Parallel Problem Solving from Nature Edited , 2022 .

[14]  Marc Ross,et al.  MODEL OF FUEL ECONOMY WITH APPLICATIONS TO DRIVING CYCLES AND TRAFFIC MANAGEMENT , 1993 .

[15]  Michael Tunnell Estimating Truck-Related Fuel Consumption and Emissions in Maine: A Comparative Analysis for Six-Axle, 100,000 Pound Vehicle Configuration , 2011 .

[16]  Stacy Cagle Davis,et al.  Transportation energy data book , 2008 .

[17]  Dimitri P. Bertsekas,et al.  Nonlinear Programming , 1997 .

[18]  Gilbert Laporte,et al.  A unified tabu search heuristic for vehicle routing problems with time windows , 2001, J. Oper. Res. Soc..

[19]  Katherine J Fender,et al.  An Analysis of the Operational Costs of Trucking: A 2013 Update , 2013 .

[20]  Gilbert Laporte,et al.  A review of recent research on green road freight transportation , 2014, Eur. J. Oper. Res..

[21]  Winston Harrington,et al.  Improving Fuel Economy in Heavy-Duty Vehicles , 2012 .

[22]  Martin W. P. Savelsbergh,et al.  Local search in routing problems with time windows , 1984 .

[23]  Alpár Jüttner,et al.  Lagrange relaxation based method for the QoS routing problem , 2001, Proceedings IEEE INFOCOM 2001. Conference on Computer Communications. Twentieth Annual Joint Conference of the IEEE Computer and Communications Society (Cat. No.01CH37213).

[24]  Keivan Ghoseiri,et al.  An ant colony optimization algorithm for the bi-objective shortest path problem , 2010, Appl. Soft Comput..

[25]  Irene Michelle Berry,et al.  The effects of driving style and vehicle performance on the real-world fuel consumption of U.S. light-duty vehicles , 2010 .

[26]  Stacy Cagle Davis,et al.  Transportation Energy Data Book: Edition 33 , 2014 .

[27]  Tony Markel,et al.  ADVISOR: A SYSTEMS ANALYSIS TOOL FOR ADVANCED VEHICLE MODELING , 2002 .

[28]  Luca Maria Gambardella,et al.  MACS-VRPTW: a multiple ant colony system for vehicle routing problems with time windows , 1999 .

[29]  Huanyu Yue MESOSCOPIC FUEL CONSUMPTION AND EMISSION MODELING , 2008 .

[30]  B H Ashby,et al.  PROTECTING PERISHABLE FOODS DURING TRANSPORT BY TRUCK , 1987 .

[31]  Kanok Boriboonsomsin,et al.  Value of eco-friendly route choice for heavy-duty trucks , 2015 .

[32]  Paolo Serafini,et al.  Some Considerations about Computational Complexity for Multi Objective Combinatorial Problems , 1987 .

[33]  Nora Touati Moungla,et al.  Solutions diversification in a column generation algorithm , 2010, Algorithmic Oper. Res..

[34]  Inge Norstad,et al.  Tramp ship routing and scheduling with speed optimization , 2011 .

[35]  Karl Henrik Johansson,et al.  A Distributed Framework for Coordinated Heavy-Duty Vehicle Platooning , 2015, IEEE Transactions on Intelligent Transportation Systems.

[36]  Zong Tian,et al.  Truck acceleration behavior study and acceleration lane length recommendations for metered on-ramps , 2016 .

[37]  Richard W. Eglese,et al.  Fuel emissions optimization in vehicle routing problems with time-varying speeds , 2016, Eur. J. Oper. Res..

[38]  Loo Hay Lee,et al.  Heuristic methods for vehicle routing problem with time windows , 2001, Artif. Intell. Eng..

[39]  Lei Deng,et al.  Energy-Efficient Timely Transportation of Long-Haul Heavy-Duty Trucks , 2018, IEEE Trans. Intell. Transp. Syst..

[40]  Fred L. Mannering,et al.  Principles of Highway Engineering and Traffic Analysis , 1990 .

[41]  Gilbert Laporte,et al.  A comparative analysis of several vehicle emission models for road freight transportation , 2011 .

[42]  Erik Hellström,et al.  Explicit Fuel Optimal Speed Profiles for Heavy Trucks on a Set of Topographic Road Profiles , 2006 .

[43]  Edward K. Morlok,et al.  Vehicle Speed Profiles to Minimize Work and Fuel Consumption , 2005 .

[44]  Danny Raz,et al.  A simple efficient approximation scheme for the restricted shortest path problem , 2001, Oper. Res. Lett..

[45]  David S. Johnson,et al.  Computers and Intractability: A Guide to the Theory of NP-Completeness , 1978 .

[46]  Stacy Cagle Davis,et al.  Transportation Energy Data Book: Edition 34 , 2015 .

[47]  Karl Henrik Johansson,et al.  An experimental study on the fuel reduction potential of heavy duty vehicle platooning , 2010, 13th International IEEE Conference on Intelligent Transportation Systems.