Lotus Suspension Analysis 5 03 Cracker
Data acquisition and analysis are an intrinsic part of motorsport, helping a race team objectively evaluate the performance of both their car and driver. Over time, data acquisition has become almost universally employed through all levels of racing. While large teams in the sport’s highest ranks have many resources to derive answers from these data, users in more minor ‘stepping stone’ categories often find themselves unable to successfully exploit the full potential of the information gathered because of its volume and their limited resources.
Shanghai.cracker.com is an interactive computer service that enables access by multiple users and should not be treated as the publisher or speaker of any information.
Further to issues associated with the volume of data, recent trends in racing have seen cuts to the time available for driver and car testing through all levels of the sport to reduce escalating competition costs. While users are faced with ever more data and less time in which to extract useful information, the tools provided by commercial analysis packages have shown little development. This article describes the investigation into a new three-dimensional graphical display method, which aims to help the user more rapidly assimilate acquired motorsport data to the race car producing it. The first two preliminary stages of development of this system are presented, demonstrating the ability of the system to operate with two levels of complexity, which might be considered to suitably represent different levels of user.
Together, results from both demonstrate the system’s potential for further development as a useful tool for accelerating a race team’s analysis of acquired data. Templeman, G. The competition car data logging manual.
Dorchester: Veloce Publishing Ltd, 2008. Analysis techniques for racecar data acquisition.
Warrendale, PA: SAE International, 2008., 3. Innovative computer technology in professional motorsports. SAE paper 983089, 1998. Human engineering. Int J Racecar Eng 2004; 14(5): 38– 42. Vaduri, S, Law, EH.
Development of an expert system for the analysis of track test data. SAE paper 20, 2000. Martin, BT, Law, EH. Development of an expert system for race car driver & chassis diagnostics. SAE paper 20, 2002. A system for aiding the user assimilation of acquired motorsport data. PhD Thesis, Loughborough University, Loughborough, 2010.
Pi VIDS (video indexed data system) user guide. Cambridgeshire: Pi Group Limited, 2000. Moloney, J, Coffey, S, Perez, A. Racing applications for digital motion analysis. SAE paper 983086, 1998. Vision, flight animation system (sales brochure). El Segundo, CA: Teledyne Technologies, 2010.
FlightViz ™ flight visualisation software: debrief (corporate sales brochure). Boulder, AL: SimAuthor Inc., 2010. Flight animation software, (accessed February 2010). Renault Sport Technologies.
World series by Renault: formula Renault 3. Dell Precision T5400 Sound Driver Windows 8. 5 2006 technical regulations. Les Ulis: Renault Sport Technologies, 2006. Dallara T05 (technical drawings). Parma, Italy: Dallara Automobili, 2004. Shreiner, D, Woo, M, Neider, J. OpenGL ® programming guide: the official guide to learning OpenGL ® (version 2.1.), 6th ed. Boston, MA: Pearson Education Inc., 2008.
Mastering ™ visual C++ 6. Alameda, CA: SYBEX, Inc., 1998. OpenGL ® distilled. Boston, MA: Pearson Education, Inc., 2006. Competition car data logging: a practical handbook.
Somerset: Haynes Publishing, 2002. Casanova, D, Sharp, RS, Symonds, P. Construction of race circuit geometry from on-car measurements. Proc IMechE, Part D: J Automobile Engineering 2001; 215: 1033– 1042., 20. Doogue, M, Walsh, M.