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Novel Straight Type Aortic Cannula with Spiral Flow Inducing Design
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The Study on Whole Body Vibration Exposure Induces Low Back Pain among UTHM Bus Drivers
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Analysis of Vibration Effects on Floor of Office Building due to Ground Vibrations from Passing Vehicles
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Steel Ball System Control Using T-S Type Fuzzy Logic
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A Comparative Study of Reassigned Conventional Wavelet Transform for Machinery Faults Detection
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Time Frequency Analysis for Blade Rub Detection in Multi Stage Rotor System
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Integrating and Utilizing AHP and GIS for Landfill Site Selection
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Bolts Gauge Effect on the Face Bending Behaviour of Concrete-Filled Hollow Section for Hollo-Bolted Connections
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Steel Ball System Control Using T-S Type Fuzzy Logic
Abstract:
In this paper the Takagi-Sugeno type fuzzy logic was utilized for the purpose of control of electromagnetically levitated steel ball system. The system is the basis for important systems such as, the modern train which floats along the rails, aerospace shuttles, magnetic bearings and high precision systems. Such systems apart from being nonlinear they are also not stable. Results were obtained using the SIMULINK/MATLAB software and the control system developed for the electromagnetically levitated steel ball system was able to stabilize it with good response.
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Periodical:
Applied Mechanics and Materials (Volumes 773-774)
Pages:
85-89
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Online since:
July 2015
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