Abstract:
This brief presents a X-Y pedestal using the feedback error learning (FEL) controller with adaptive neural network for low earth orbit (LEO) satellite tracking applicatio...Show MoreMetadata
Abstract:
This brief presents a X-Y pedestal using the feedback error learning (FEL) controller with adaptive neural network for low earth orbit (LEO) satellite tracking applications. The aim of the FEL is to derive the inverse dynamic model of the X-Y pedestal. In this brief, the kinematics of X-Y pedestal is obtained. To minimize or eliminate the backlash between gears, an antibacklash gearing system with dual-drive technique is used. The X-Y pedestal is implemented and the experimental results are obtained. They verify the obtained kinematics of the X-Y pedestal, its ability to minimize backlash, and the reduction of the tracking error for LEO satellite tracking in the typical NOAA19 weather satellite. Finally, the experimental results are plotted.
Published in: IEEE Transactions on Control Systems Technology ( Volume: 22, Issue: 4, July 2014)
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- IEEE Keywords
- Index Terms
- Low Earth Orbit ,
- Satellite Tracking ,
- Feedback Error Learning ,
- Neural Network ,
- Tracking Error ,
- Inverse Model ,
- Inverse Dynamics ,
- Earth Orbit Satellites ,
- Stability Of System ,
- Graphical User Interface ,
- Rotation Axis ,
- Error Signal ,
- Proportional-integral-derivative ,
- Neural Control ,
- Feedforward Control ,
- Neural Network Output ,
- Inverse Kinematics ,
- Modification Of Algorithm ,
- End Of The Track ,
- Neural Network Control ,
- General Frame ,
- Industrial Computer ,
- Changes In Torque ,
- Joint Variables ,
- Description Of The Experimental Setup ,
- Torque Curve ,
- Weight Matrix Of Layer ,
- Visual Studio ,
- Translation Vector
- Author Keywords
- Author Free Keywords
Contents Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Low Earth Orbit ,
- Satellite Tracking ,
- Feedback Error Learning ,
- Neural Network ,
- Tracking Error ,
- Inverse Model ,
- Inverse Dynamics ,
- Earth Orbit Satellites ,
- Stability Of System ,
- Graphical User Interface ,
- Rotation Axis ,
- Error Signal ,
- Proportional-integral-derivative ,
- Neural Control ,
- Feedforward Control ,
- Neural Network Output ,
- Inverse Kinematics ,
- Modification Of Algorithm ,
- End Of The Track ,
- Neural Network Control ,
- General Frame ,
- Industrial Computer ,
- Changes In Torque ,
- Joint Variables ,
- Description Of The Experimental Setup ,
- Torque Curve ,
- Weight Matrix Of Layer ,
- Visual Studio ,
- Translation Vector
- Author Keywords
- Author Free Keywords
