A Method to Obtain a Generalized Model of the Pressure Evolution within the Braking System of a Vehicle

Marin Marinescu; Radu Vilau; Marian Truta; Octavian Fieraru

doi:10.4028/www.scientific.net/AMR.837.434

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A Method to Obtain a Generalized Model of the Pressure Evolution within the Braking System of a Vehicle
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 837A Method to Obtain a Generalized Model of the...

A Method to Obtain a Generalized Model of the Pressure Evolution within the Braking System of a Vehicle

Abstract:

Military vehicles have to travel, at least from time to time, on the national road network. Whenever that happens, the legal requirements have to be met with respect to the systems that contribute to the traffic safety. One of these systems is the braking system. On the other hand, most of the military vehicles arent that up-to-date that the rest of the traffic partners are. Therefore, a military automotive engineer should have at hand a fast method to diagnose the technical status of the braking system even the checked vehicle is rather old. It would be also even better if the faulty party were accurately identified. The paper aims at providing a method helps the diagnosing teams to quickly compare the behaviour of an actual vehicle braking system status with a general model that had been acquired by tests. Since nobody provided that kind of information during 70s, our model derived from a large number of tests that have been performed on good technical condition vehicles. Key words: vehicle braking system, parametric models, data-based models.

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Periodical:

Advanced Materials Research (Volume 837)

Pages:

434-439

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.837.434

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Online since:

November 2013

Authors:

Marin Marinescu*, Radu Vilau, Marian Truta, Octavian Fieraru

Keywords:

Data Based Model, Parametric Models, Vehicle Braking System

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* - Corresponding Author

References

[1] Bitmead, R. and Sala, A. (2000), Modelling and Identification for Control, Lecture Notes on Iterative Identification and Control Design, European Science Foundation, Strasbourg France, pp.41-64.

Google Scholar

[2] Cho, K. (2001), Prediction interval estimation in transformed linear models, Statistics Probability Letters, 51(4), pp.345-350.

DOI: 10.1016/s0167-7152(00)00169-3

Google Scholar

[3] Ljung, L., (2007), Perspectives on System Identification, www. control. isy. liu. se/~ljung/.. / plenary2. pdf.

Google Scholar

[4] Marinescu, M.; Vilău, R.; Lespezeanu, I., (2010), Modelling the pressure evolution within the braking system of a vehicle, The VIth International Symposium on Defense Technology, Budapest, Hungary, pp.139-146.

Google Scholar

[5] * * * (1999), Basic Steps of System Identification, http: /mathworks. com.

Google Scholar