This content is not included in your SAE MOBILUS subscription, or you are not logged in.

Frequency Domain Power Distribution Strategy for Series Hybrid Electric Vehicles

Journal Article
2012-01-1003
ISSN: 2167-4191, e-ISSN: 2167-4205
Published April 16, 2012 by SAE International in United States
Frequency Domain Power Distribution Strategy for Series Hybrid Electric Vehicles
Sector:
Citation: Kim, Y., Lee, T., and Filipi, Z., "Frequency Domain Power Distribution Strategy for Series Hybrid Electric Vehicles," SAE Int. J. Alt. Power. 1(1):208-218, 2012, https://doi.org/10.4271/2012-01-1003.
Language: English

References

  1. Erwin, S. I. Army's Next Battle: Fuel, Transportation Costs April 2002 National Defense, Magazine http://www.nationaldefensemagazine.org/archive/2002/April/Pages/Armys_Next4086.aspx 2002
  2. Carns, M. P. C. Schlesinger, J. “Final Report of the Defense Science Board Task Force on DoD Energy Strategy,” memorandum for the Chairman Defense Science Board Washington, DC January 14 3 5 2008
  3. Wu, B. Lin, C.-C. Filipi, Z. Peng, H. Assanis, D. “Optimal Power Management for a Hydraulic Hybrid Delivery Truck,” J. Vehicle System Dynamics 42 1-2 23 40 2004
  4. Filipi, Z. Louca, L. Daran, B. Lin, C.-C. Yildir, U. Wu, B. Kokkolaras, M. Assanis, D. Peng, H. Papalambros, P. Stein, J. “Combined optimization of design and power management of the hydraulic hybrid propulsion system for the 6 × 6 medium truck,” Int. J. Heavy Veh. Syst. 11 3 371 401 2004
  5. Hui, S. “Multi-objective optimization for hydraulic hybrid vehicle based on adaptive simulated annealing genetic algorithm,” Engineering Applications of Artificial Intelligence 23 1 27 33 2010
  6. Kim, Y. Filipi, Z. “Simulation Study of a Series Hydraulic Hybrid Propulsion System for a Light Truck,” SAE Technical Paper 2007-01-4151 2007 10.4271/2007-01-4151
  7. Ducusin, M. Gargies, S. Mi, C. “Modeling of a series hybrid electric high-mobility multipurpose wheeled vehicle,” IEEE Trans. Veh. Technol. 56 2 557 565 2007
  8. Velardocchia, M. Rondinelli, E. “Design and Development of an In-Hub Motors Hybrid Vehicle for Military Applications,” SAE Technical Paper 2010-01-0659 2010 10.4271/2010-01-0659
  9. Rosenkranz, C. “Deep cycle Batteries for Plug-in Hybrid Application,” presented at EVS-20 plug-in Hybrid Workshop Nov 15 2003 Monaco
  10. Maleki, H. Shamsuri, A. K. “Thermal analysis and modeling of a notebook computer battery,” Journal of Power Sources 115 131 136 2003
  11. Sciarretta, A. Guzzella, L. “Control of Hybrid Electric Vehicles - A Survey of Optimal Energy-Management Strategies,” in IEEE Control Systems Magazine 27 2 60 70 2007
  12. Hochgraf, C. Ryan, M. Wiegman, H. “Engine Control Strategy for a Series Hybrid Electric Vehicle Incorporating Load-Leveling and Computer Controlled Energy Management,” SAE Technical Paper 960230 1996 10.4271/960230
  13. Jalil, N. Kheir, N. A. Salman, M. “A rule-based energy management strategy for a series hybrid vehicle,” Proceedings of the American Control Conference 689 693 1997
  14. Johri, R. Filipi, Z. “Low-Cost Pathway to Ultra Efficient City Car: Series Hydraulic Hybrid System with Optimized Supervisory Control,” SAE Int. J. Engines 2 2 505 520 2010 10.4271/2009-24-0065
  15. Pisu, P. Rizzoni, G. “A supervisory control strategy for series hybrid electric vehicles with two energy storage systems,” in Proc. IEEE Conf. Vehicle Power Propulsion Chicago, IL 2005 65 72
  16. Konev, A. Lezhnev, L. Kolmanovsky, I. “Control Strategy Optimization for a Series Hybrid Vehicle,” SAE Technical Paper 2006-01-0663 2006 10.4271/2006-01-0663
  17. Di Cairano, S. Liang, W. Kolmanovsky, I.V. Kuang, M.L. Phillips, A.M. “Engine Power Smoothing Energy Management Strategy for a Series Hybrid Electric Vehicle,” in American Control Conference San Francisco, CA 2011 2101 2106
  18. Caratozzolo, P. Serra, M. Riera, J. “Energy management strategies for hybrid electric vehicles,” IEMDC'03, IEEE International Electric Machines and Drives Conference Madison, WI, USA 1 241 248 2003
  19. Meissner, E. Richter, G. “The challenge to the automotive battery industry: the battery has to become an increasingly integrated component within the vehicle electric power system,” J. Power Sources 144 2 438 460 June 2005
  20. Sauer, D. U. Wenzl, H. “Comparison of different approaches for lifetime prediction of electrochemical systems-Using lead acid batteries as example,” J. Power Sources 176 2 477 483 Feb 2008
  21. Schaltz, E. Khaligh, A. Rasmussen, P.O. “Influence of battery/ultracapacitor energy-storage sizing on battery lifetime in a fuel cell hybrid electric vehicle,” IEEE Transactions on Vehicular Technology 58 8 3882 3891 2009
  22. Argonne National Laboratory, Argonne, IL “Powertrain systems analysis toolkit,” 2007
  23. Filipi, Z. Hagena, J. Fathy, H. “Investigating the Impact of In-Vehicle Transients on Diesel Soot Emissions” Thermal Science 12 2008 1 53 72
  24. Hagena, J.R. Assanis, D.N. Filipi, Z.S. “Cycle-resolved measurements of in-cylinder constituents during diesel engine transients and insight into their impact on emissions,” Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering 225 1103 1117 2011
  25. Lee, T. -K. Kim, Y. Stefanopoulou, A. Filipi, Z. S. “Hybrid electric vehicle supervisory control design reflecting estimated Lithium-ion battery electrochemical dynamics,” 2011 American Control Conference San Francisco, CA, USA 2011
  26. Miner, M. A. “Cumulative Damage in Fatigue,” ASME Journal of Applied Mechanics 12 159 164 1945
  27. Nieslony, A. “Determination of fragments of multiaxial service loading strongly influencing the fatigue of machine components,” Mechanical Systems and Signal Processing 23 8 2712 2721 2009

Cited By