Development of a real time, industrially hardened, ski performance analysis system

Christopher A. Kilraine, James W. Shevock, Peter J. Shull

Research output: Contribution to journalConference article

Abstract

At Penn State Altoona, as a senior design project in the Electro-Mechanical Engineering Technology department, we have developed an instrumentation system to measure the dynamic response of skis under real time skiing conditions. The intent is to monitor the ski response during different styles of high performance use. Consequently, initial modeling and static testing were required to determine both sensor type and placement to capture the critical parameters during a specific ski maneuver. Apart from the determination of sensor type and optimum placement, environmentally hardening (handling of large temperature variations and large and rapid loading) of the system proved challenging. The specific measurements performed were ski displacement and acceleration. In this work, we will discuss the design and construction processes, the testing processes, and the specific results of the static and dynamic testing. This information and testing system, which is coordinated with ski manufacturers, will then be available for the future redesigning of skis for specific performance constraints such as freestyle or slalom.

Original languageEnglish (US)
Pages (from-to)9247-9261
Number of pages15
JournalASEE Annual Conference Proceedings
StatePublished - Dec 1 2003
Event2003 ASEE Annual Conference and Exposition: Staying in Tune with Engineering Education - Nashville, TN, United States
Duration: Jun 22 2003Jun 25 2003

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Testing
Engineering technology
Sensors
Mechanical engineering
Dynamic response
Hardening
Temperature

All Science Journal Classification (ASJC) codes

  • Engineering(all)

Cite this

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abstract = "At Penn State Altoona, as a senior design project in the Electro-Mechanical Engineering Technology department, we have developed an instrumentation system to measure the dynamic response of skis under real time skiing conditions. The intent is to monitor the ski response during different styles of high performance use. Consequently, initial modeling and static testing were required to determine both sensor type and placement to capture the critical parameters during a specific ski maneuver. Apart from the determination of sensor type and optimum placement, environmentally hardening (handling of large temperature variations and large and rapid loading) of the system proved challenging. The specific measurements performed were ski displacement and acceleration. In this work, we will discuss the design and construction processes, the testing processes, and the specific results of the static and dynamic testing. This information and testing system, which is coordinated with ski manufacturers, will then be available for the future redesigning of skis for specific performance constraints such as freestyle or slalom.",
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Development of a real time, industrially hardened, ski performance analysis system. / Kilraine, Christopher A.; Shevock, James W.; Shull, Peter J.

In: ASEE Annual Conference Proceedings, 01.12.2003, p. 9247-9261.

Research output: Contribution to journalConference article

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AU - Shevock, James W.

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