论文信息 - Emission reduction for a small gasoline engine using fuzzy control

Emission reduction for a small gasoline engine using fuzzy control

Abstract This paper describes a cost-effective fuzzy control system applied to a small spark-ignition internal-combustion engine to achieve regulation of the fuel injection system. It determines the amount of fuel required from a fuzzy algorithm using engine speed and manifold air pressure as input values. The fuzzy control parameters were a collection of comprehensible rules and fuzzy-set membership functions. This facilitated the calibration process, leading to quick and convenient tuning. Experimental results show that a considerable improvement in fuel regulation was achieved compared to the original carburettor-based engine configuration. In addition measurements of HC and CO emissions show a corresponding reduction.

Simon Walters | R. J. Howlett | S. H. Lee

[1] Rolf Isermann,et al. Representation of 3-D mappings for automotive control applications using neural networks and fuzzy logic , 1997, Proceedings of the 1997 IEEE International Conference on Control Applications.

[2] Johann Riegel,et al. Exhaust gas sensors for automotive emission control , 2002 .

[3] Madan M. Gupta. Fuzzy logic and neural networks , 1992, [Proceedings 1992] IEEE International Conference on Systems Engineering.

[4] H. A. Bridgman,et al. Emissions from in-use lawn-mowers in Australia , 2000 .

[5] Robert J. Howlett,et al. Neural Networks Techniques for Monitoring and Control of Internal Combustion Engines , 1999, IIA/SOCO.

[6] Jeff J. White,et al. Emission Control Strategies for Small Utility Engines , 1991 .

[7] Keith J. Burnham,et al. Model comparison for feedforward air/fuel ratio control , 1998 .