| 陈韬,董奥,谢辉,等.基于模型的直喷汽油机轨压无标定控制[J].内燃机工程,2020,41(5):83-92. |
| Model Based Non-calibration Control Algorithm for GDI Engine |
| DOI:10.13949/j.cnki.nrjgc.2020.05.012 |
| Key Words:common rail system accurate modeling model parameters self-learning active disturbance rejection control non-calibration control |
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| 摘要点击次数: 2813 |
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| Abstract:In order to precisely control the GDI engine fuel injection system during it"s whole life and complex working conditions, a model-based non-calibrated control algorithm (NC-MBC) is proposed. Established a precise mechanism model for high pressure common rail system (HPCRS), then used 2600 experimental conditions to fit and validate the model. The self-learning algorithm is designed to optimize the unknown physical and structural parameters in the model online. The controller is designed by combining the precise feedforward model and the active disturbance rejection control algorithm, this realized the non-calibration control of the HPCRS and has disturbance rejection capacity. The NC-MBC is verified by Simulink simulation platform. The results show that the model parameters can converge quickly by using self-learning algorithm. During steady condition, the parameter converged NC-MBC is declined over 40% than PID in integrated absolute error, and is reduced by more than 45% in response time and overshoot during transient condition. NC-MBC has a low computational complexity and greatly improves the control precision and robustness, which is suitable for embedded control. |
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