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Analysis and Modeling of Servo Motor Control in Military Vehicle Control Systems
Technical Paper
2006-01-1170
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
This paper covers the analysis of various concepts that are used to implement Servo Motor Control in military vehicular control systems. A survey of existing “hard real-time” servo controls and applicable design patterns is presented. These design patterns along with their critical parameters are identified and described. Potential solutions are created from combinations of design patterns and parameter choices. The solutions are modeled with plausible parameters to identify parameter sensitivities. As the modeling progresses, the solutions’ frequency responses, sensitivities and functional performance are also evaluated. This paper concludes with a summary of architectural guidelines.
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Citation
Torre, A. and Mushenski, C., "Analysis and Modeling of Servo Motor Control in Military Vehicle Control Systems," SAE Technical Paper 2006-01-1170, 2006, https://doi.org/10.4271/2006-01-1170.Also In
References
- Führer Thomas Müller Bernd Dieterle Werner Hartwich Florian Hugel Robert Walthe Michael Robert Bosch GmbH “Time Triggered Communication on CAN”
- TTA Group “TTP – Frequently Asked Questions” 2004
- Wijnberg Jurriaan H. “Prototyping the real-time ‘HOTnet’ network protocol on Ethernet” University of Twente April 2002
- Redell Ola “Response Time Analysis for Implementation of Distributed control Systems” Royal Institute of Technology Stockholm Sweden 2003
- Kraut Hubert “Signalverarbeitung mittels eines Neuronalen Netzwerkes für einen Smart Sensor” Vienna University of Technology February 2003
- “CAN in Automation” organization “CANopen Product Guide 2003”
- Decotignie. J.-D. “Real-Time System II Real-Time Networking Ethernet” CSEM Centre Suisse d’Electronique et de Microtechnique SA 2005
- Janssen Dirk Dr. “Als Antriebsbus geeignet, weil…” Beckoff March 2005
- Nilsson Johan “Real-Time Control Systems with Delays” Lund Institute of Technology Sweden 1998
- Industrial Automation Open Networking Alliance “IAONA Handbook Industrial Ethernet in third addition”
- Johnson Dale “US Army on Rotorcraft Technical Architecture” AATD
- Lincoln Bo Jitter Compensation in Digital Control System Department of Automation Control, LTH Lund Sweden March 2003