Sage Journals: Discover world-class research

Abstract

The use of a continuously variable transmission (CVT) with an integrated engine controller allows great freedom of choice of the engine operating point to deliver the power demanded by the driver. This flexibility places even greater emphasis on the requirement to locate an appropriate engine operating point. A technique has been developed that locates the ideal instantaneous engine operating point by minimizing a simple weighted sum of exhaust emissions and fuel consumption predicted by an artificial neural network. This process may be configured automatically to take account of varying operating or environmental conditions, allowing the optimum performance to be returned by the powertrain controller at all times. The structure has been implemented for a turbocharged and intercooled direct injection diesel engine used as the prime mover in an integrated powertrain. Results are presented that demonstrate the use of the optimizer to derive widely varying operating schedules for the engine, each with associated emissions and economy implications. The optimizer code is sufficiently compact to be incorporated into a practical powertrain control strategy. Experimental work presented in a companion paper has confirmed that this ‘systems’ approach to powertrain control allows the emissions and economy performance of the vehicle to be tailored to suit the particular requirements of the installation.

Keywords

continuously variable transmissions emissions fuel economy diesel engines neural networks integrated powertrain control powertrain calibration

Get full access to this article

View all access options for this article.

References

Stubbs

P. W. R.

The development of a Perbury traction transmission for motor car applications. Trans. ASME, J. Mech. Des., January 1981, 103, paper 80-C2:DET-59, 29–40.

Vaughan

N. D.

Banisoleiman

A comparative assessment of truck transmissions by computer simulation of vehicle performance for typical road routes. In Proceedings of IMechE Conference on Integrated Engine Transmission Systems, July 1986.

Hendriks

Second generation technology repositions CVT. VDI Report 1175, 1995.

Deacon

Brace

C. J.

Vaughan

N. D.

Burrows

C. R.

Horrocks

R.W.

Impact of alternative controller strategies on exhaust emissions from an integrated diesel: Continuously variable transmission powertrain. Proc. Instn Mech. Engrs, Part D, Journal of Automobile Engineering, 1999, 213(D2), 95–107.

MEPs back tough measures to tackle air pollution. EP News, April 1997, AX-AD 96-004-EN-C ISSN-0250 5754.

Jones

Kerbyson

Optimisation of powertrain performance using dynamic scheduling of engine torque and transmission ratio. In Proceedings of IMechE International Seminar S540 on Advanced Vehicle Transmissions and Powertrain Management, 25-26 September 1997 (Mechanical Engineering Publications, London).

Hendriks

ter Heegde

van Prooijen

Aspects of a metal pushing V-belt for automotive car application. SAE paper 881734, 1988.

Brace

C. J.

Deacon

Vaughan

N. D.

Charlton

S. J.

Burrows

C. R.

Prediction of emissions from a turbocharged passenger car diesel engine using a neural network. In Proceedings of IMechE International Conference on Turbocharging and Turbochargers, 7-9 June 1994 (Mechanical Engineering Publications, London).

Horrocks

R. W.

Developments in high speed direct injection diesel engines. In Proceedings of 6th Aachen Colloquium on Automobile and Engine Technology, 20-22 October 1997.

10.

Charbonnier

Andres

M. A.

Comparative study of gasoline and diesel passenger car emissions under similar conditions of use. SAE paper 930779, 1993.

An operating point optimizer for the design and calibration of an integrated diesel/continuously variable transmission powertrain

Abstract

Abstract

Keywords

Get full access to this article

References