. "5 Vehicle Technologies for Reducing Load-Specific Fuel Consumption." Technologies and Approaches to Reducing the Fuel Consumption of Medium- and Heavy-Duty Vehicles. Washington, DC: The National Academies Press, 2010.
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Technologies and Approaches to Reducing the Fuel Consumption of Medium- and Heavy-Duty Vehicles
Kim, T., C. Manzie, and H. Watson. 2008. Fuel economy benefits of look-ahead capability in a mild hybrid configuration. Proceedings of the 17th World Congress of IFAC, Seoul, Korea, July.
Knee, B., O. Franzese, N. Wood, M. Arant, D. Hall, S. Nelson, R. Hathaway, M. Keil, P. Pollock, D. Pape, S. Yeakel, and J. Petrolino. 2008. Heavy Truck Rollover Characterization (Phase A) Final Report. National Transportation Research Center, Inc., Knoxville, Tenn.
Kohut, N., K. Hedrick, and F. Borrelli. 2009. Integrating Traffic Data and Model Predictive Control to Improve Fuel Economy. Presented at the 12th 2009 IFAC Symposium on Transportation Systems, Redondo Beach, Calif., September.
Kreeb, R., and S. Brady. 2006. Tractor-Trailer Dynamic Alignment and Research. Report No. FMCSA-PSV-06-002. February.
LaClair, T. 2005. Rolling Resistance. Pp. 475-532 in The Pneumatic Tire (J.D. Walter and A.N. Gent, eds.). Washington, D.C.: U.S. Department of Transportation, National Highway Traffic Safety Administration.
Lattermann, F., K. Neiss, S. Terwen, and T. Connolly. 2004. The predictive cruise control: A system to reduce fuel consumption of heavy duty trucks. SAE Paper 2004-01-2616. Warrendale, Pa.: SAE International.
Lu, X., S. Shladover, and J. Hedrick. 2004. Heavy-duty truck control: Short inter-vehicle distance following. Proceedings of the 2004 American Control Conference, Boston, Mass., June.
Melson, J. 2007. Progress in Tires. Presentation by Michelin at the International Workshop on the Use of Wide-Base Tires, Federal Highway Administration, Turner-Fairbank Highway Research Center, McLean, Virginia, October 25-26.
MNA (Michelin Tires North America). 2007. International Workshop on the Use of Wide-Base Tires, Federal Highway Administration, Turner-Fairbank Highway Research Center, McLean, Virginia. October.
Murphy, S. 2004. How to choose a GPS fleet management system: What features are right for you? Management Quarterly, Vol. 45.
NESCCAF/ICCT, Southwest Research Institute, and TIAX. 2009. Reducing Heavy-Duty Long Haul Combination Truck Fuel Consumption and CO2 Emissions. Washington, D.C.: International Council on Clean Transportation (ICCT). October.
NHTSA (U.S. Department of Transportation, National Highway Traffic Safety Administration). 2009a. The Effects of Varying the Levels of Nitrogen in the Inflation Gas of Tires on Laboratory Test Performance. Report No. DOT HS 811 094. Washington, D.C.: U.S. Department of Transportation. March.
NHTSA. 2009b. Notice of Proposed Rulemaking, Tire Fuel Efficiency Consumer Information Program, 49 CFR Part 575 [Docket No. NHTSA-2008-0121]. RIN 2127-AK45. June.
Rajagopalan, A., and G. Washington. 2002. Intelligent control of hybrid electric vehicles using GPS information. SAE Paper 2002-01-1936. Warrendale, Pa.: SAE International.
Rini, N. 2005. Carbon Fiber SMC for Class 8 Vehicle Hoods, FY 2005 Progress Report for High-Strength Weight Reduction Materials. Prepared by Volvo for the U.S. Department of Energy, Washington, D.C.
SAE (Society of Automotive Engineers). 2000. Recommended Practice J1343, Information Relating to Duty Cycles and Average Power Requirements of Truck and Bus Engine Accessories. Warrendale, Pa.: SAE International. August.
SAE Recommended practices SAE J1252, SAE J1263, and SAE J1321.
Schuring, D. 1977. A new look at the definition of tire rolling loss. Presentation at the Tire Rolling Losses and Fuel Economy—An R&D Planning Workshop, SAE Conf. Proc. P-74, 31-37. Warrendale, Pa.: SAE International.
Smith, M., and C. Eberle. 2003. Heavy Vehicle Mass Reduction Goals and Manufacturing Challenges. Presentation at the U.S. Department of Energy Workshop on Tooling Technology for Low Volume Vehicle Production, October 28, 2003, Seattle, Wash.
Strimer C., D. Carder, M. Gautam, and G. Thompson. 2005. Impact of vehicle weight on truck behavior and emissions, using on-board measurement. SAE Paper 2005-01-3788. Warrendale, Pa.: SAE International.
TIAX. 2009. Assessment of Fuel Economy Technologies for Medium- and Heavy-Duty Vehicles. Report prepared for the National Academy of Sciences by TIAX LLC, Cupertino, Calif., July 31.
TMA (Truck Manufacturers Association). 2007. Test, Evaluation, and Demonstration of Practical Devices/Systems to Reduce Aerodynamic Drag of Tractor/Semitrailer Combination Unit Trucks. Prepared for the National Energy Technology Laboratory (NTEL) under contract number DE-FC26-04NT42117. Morgantown, W. Va.: NTEL. April.
TMC (Technology and Maintenance Council). No date. A guide to improving commercial fleet fuel efficiency. TMC Fuel Economy Digest. Available at http://tmc.truckline.com.
Wood, R. 2009. Aerodynamic Yaw, Drag and Fuel Economy. SOLUS-Solutions and Technologies LLC and Old Dominion University. August.
Woodrooffe, J., O. Page, D. Blower, and P. Green. 2008. Commercial Medium Tire Debris Study. Report prepared by Virginia Polytechnic Institute and State University for the U.S. Department of Transportation, National Highway Traffic Safety Administration (NHTSA). Report number DOT HS 811 060. Washington, D.C.: NHTSA.