Blake Siegler scite author profile

Blake Siegler

4Publications

27Citation Statements Received

21Citation Statements Given

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University of Leeds

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Lap Time Simulation: Comparison of Steady State, Quasi- Static and Transient Racing Car Cornering Strategies

Siegler

Deakin

Crolla

2000

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Lap Time Simulation for Racing Car Design

Siegler

2002

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The candidate confirms that the work submitted is his own work and that appropriate credit has been given where reference has been made to the work of authors. As LTS are computationally intensive, previous packages have simulated a full lap using a quasi-static method which splits the path of the vehicle into segments. An analysis is then made of the vehicle at each segment point using the external forces acting on the vehicle. Due to the constant acceleration (i. e. steady state) assumption across each segment, this method does not take into account the effect of roll, pitch and yaw inertia as well as damping and tyre lag effects. Another aspect that is not accounted for is the variation in the fastest effective vehicle path along the circuit (i. e. racing line) due to change in driver control inputs or vehicle parameters.The overall aim of this thesis is to develop a transient LTS methodology, which adopts a strategy to vary the racing line taken in order to address the problems found with the existing quasi-static LTS packages. In parallel an investigation of the accuracy of vehicle models in relationship to racing car performance has been developed.The thesis begins with a study of racing car modelling techniques and a review of current LTS packages. A description is then given of the collection of vehicle iii handling data from an actual racing car (along with attaining a vehicle parameter set) and the measured results displayed and discussed. Finally, the creation of two simulation packages has been detailed and case studies are presented to provide further insight into the look and feel of the packages. The first package is a quasi-static approach based LTS package, where a case study is made into the sensitivity of overall lap time to a range of vehicle parameters. The second is a transient approach based simulation package which optimises the driver controls, varying the racing line taken by the vehicle and ensuring the manoeuvre is completed in the quickest time for that vehicle parameter set. This final Manoeuvre Time Minimisation package fulfils the overall aim of the thesis and a case study is made into the effect of front damping value on manoeuvre completion time.

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Application of FEA Techniques to a Hybrid Racing Car Chassis Design

Brinkworth

Jaggard

Royds-Jones

et al. 2000

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Racing Car Simulation and the Virtual Race Track

Siegler

Crolla

2001

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A number of handling models of a small high performance formula type racing car have been produced. These have been used to optimise the performance of the vehicle whilst under going simple manoeuvres and around a complete race track. Recently the vehicle was fitted with a data acquisition system and objective data was taken of the vehicle’s handling performance. The paper details an investigation into the accuracy of two (a simple and more sophisticated) vehicle handling models in predicting the actual vehicle’s performance from the data collected by comparing measured and simulated results. The investigation studies the steady state and transient response of the vehicle up to the limit of the vehicle’s handling performance. A description is also given of the use of the more sophisticated model in a virtual race track simulation where it is used as a development tool to tune the performance of future vehicles.

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Blake Siegler

Lap Time Simulation: Comparison of Steady State, Quasi- Static and Transient Racing Car Cornering Strategies

Lap Time Simulation for Racing Car Design

Application of FEA Techniques to a Hybrid Racing Car Chassis Design

Racing Car Simulation and the Virtual Race Track

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