References

1. References GENERAL REFERENCES ON TRANSMISSIONS • “Automotive Handbook”, Bosch, IV ed., 1996. • U. Kiencke, L. Nielsen, “Automotive Control Systems”, Springer, 2000. • B. Jacobson, “Automotive Power transfer & Management Lecture Notes”, Chalmers University in Sweden, 2000, available at http://www.mvd.chalmers.se/~beja/ • M. Link, B. Vob, E. Eggert, R. Nasdal, “The Automated Shift Transmission - Possibilities and Limits in Production-Type Vehicles”, SAE 2001-01-0881 • G.Wagner, “Application of Transmission Systems for Different Driveline Configurations in Passenger Cars”, SAE 2001-01-0882

2. References AUTOMATED MANUAL TRANSMISSION - Control (1) • L. Glielmo, F. Vasca, “Optimal Control of Dry Clutch Engagement”, SAE 2000-01-0837. • L. Glielmo, F. Vasca, “Engagement Control for Automotive Dry Clutch”, American Control Conference, 2000. • F. Garofalo, L. Glielmo, F. Vasca, "Smooth Engagement for Automotive Dry Clutch'', IEEE Conference on Decisions and Control, USA, 2001 (submitted to). • A. Bemporad, F. Borrelli, L. Glielmo, F. Vasca, "Hybrid Control of Dry Clutch Engagement'', European Control Conference, Spain, 2001. • A. Bemporad, F. Borrelli, L. Glielmo, F. Vasca, "Optimal Piecewise-Linear Control of Dry Clutch Engagement'', IFAC Workshop Advances in Automotive Control, Karlsruhe, Germany, 2001 • J. Fredriksson, B. Egardt, “Nonlinear Control applied to Gearshifting in Automated Manual Transmission”, IEEE CDC01, Sidney, Australia, 444-449 • B. K. Powell, K. E. Bailey, S. R. Cikanek, “Dynamic Modeling and Control of Hybrid Electric Vehicle Powertrain Systems”, IEEE Control Systems Magazine, Oct. 98, 17-33 • A. Szadkowski, R. B. Monford, “Clutch Enagement Simulation: Engagement Without Throttle”, SAE 920766, 103-117

3. References AUTOMATED MANUAL TRANSMISSION - Control (2) • G. Ercole, G. Mattiazzo, S. Mauro, M. Velardocchia, F. Amisano, R. Flora, “Co-operating Clutch and Engine Control for Servoactuated Shifting through Fuzzy Supervisor”, SAE 1999-01-0746, 101-109 • J. M. Slicker, R. N. K. Loh, “Design of Robust Vehicle Launch Control System”, IEEE Trans. On Control System Technology, vol. 4 no. 4, 1996, 326-335 • K. Pfeiffer, R. Isermann, “Automatic Control of Vehicle Startup for Emission Tests on Engine Dynamometers”, Americn Control Conference, Washington, 1995, 2596-2600 • H. D. Lee, S. K. Sul, H. S. Cho, J. M. Lee, “Advanced Gear Shifting Clutching Strategy for Parallel Hybrid Vehicle with Automated Manual Transmission”, IEEE IAS, 1998, 1709-1714 • F. Amisano, G. Serra, M. Velardocchia, “Engine Control Strategy to Optimize a Shift Transient During Clutch Engagement”, SAE 2001-01-0877 • C. Bader, “Powertrain Electronics - Progress on the Use and Development of the Computer Aided Gearshift Systems”, SAE 901160

4. References AUTOMATIC TRANSMISSION • B. Moir, “An investigation into objective measures of gear-shift quality”, Proc. Instn Mech Engrs, vol 209, part D Journal of Automobile Engineer, 1995, 245-258 • A. Haj-Fraj, F. Pfeiffer, “Optimization of Gear Shift Operations in Automatic Transmissions”, IEEE AMC2000, Nagoya, 469-473 • K. Hayashi, Y. Shimizu, Y. Dote, A. Takayama, A. Hirako, “Neuro Fuzzy Transmission Control for Automobile with Variable Loads”, IEEE Trans. On Control Systems Technology, vol. 3 no. 1, 1995, 49-53 • T. Minowa, T. Ochi, H. Kuroiwa, K. Z. Liu, “Smooth Gear Shift Control Technology for Clutch-to-Clutch Shifting”, SAE 1999-01-1054 • F. Jauch, “Model-Based Application of a Slip-Controlled Converter Lock-Up Clutch in Automatic Car Transmissions, SAE 1999-01-1057 • L. Mianzo, “A Transmission Model for Hardware-in-the-loop Powertrain Control System Software Development”, IEEE CCA 00, Anchorage, Alaska, 2000

5. References TRANSMISSIONS - Actuators • Y. Esenovsky-Lashkov, D. Polyak, “New concept of automatic control for a passenger car clutch”, Proc. Instn Mech Engrs, vol 210, part D Journal of Automobile Engineer, 1996, 227-233 • Q. Zheng, K. Srinivasan, “Transmission Clutch Pressure Control System: Modeling, Controller Development and Implementation”, SAE 2000-01-1149 • P. A. Christensen, “Using CAE Simulation Tools to Study the Performance of a 2-Stage Variable Force Solenoid Acting on a Clutch”, SAE 2000-01-0116 AUTOMATED MANUAL TRANSMISSION - Clutch characteristics • D. Centea, H. Rahnejat, M. T. Menday, “The influence of the interface coefficient of friction upon the propensity to judder in automotive clutches”, Proc. Instn Mech Engrs, vol 213, part D Journal of Automobile Engineer, 1999, 245-258 • H. Drexl, U. Teichert, M. Dettmar, “Clutch Wear Analyzing Technology: a Tool for Longer Clutch Life”, SAE 982848 • M. Velardocchia, F. Amisano, R. Flora, “A Linear Thermal Model for an Automotive Clutch”, SAE 2000-01-0834

6. References CONTINUOUSLY VARIABLE TRANSMISSION • E. Spijker, “Steering and Control of a CVT Based Hybrid Transmission for a Passenger Car”, Ph.D. Thesis, Technical University of Eindhoven, 1994 • B. Zhang, H. Wang, J. Li, “Study on Cruise Fuzzy Control for CVT Vehicle”, Intern. Symposium on Advanced Vehicle Control, Ann Arbor, Michigan, 2000 • B.G. Vroemen, A.F. Serrarens, F.E. Veldpaus, “CVT Control: a Hierarchical Approach”, Intern. Symposium on Advanced Vehicle Control, Ann Arbor, Michigan, 2000 • W. Hongyan, Z. Yunshan, Z. Boying, Q. Xiding, “Research on Integrated Control Strategy of CVT for Passenger Cars”, IEEE International Vehicle Electronic Conference, 1999 • S. Liu B. Paden, “A Survey of Today’s CVT Controls”, Conference on Decision & Control, San Diego, California, 1997 • B. Powell, X. Zhang, R. Baraszu, “Computer Model for a Parallel Hybrid Electric Vehicle (PHEV) with CVT”, American Control Conference, Chicago, Illinois, 2000 • B. Jacobson, “Automotive Power transfer & Management Lecture Notes”, Chalmers University in Sweden, 2000, available at http://www.mvd.chalmers.se/~beja/