Project and Research Descriptions
Feedback Controls and High Rate Stabilization
Project and Research Descriptions:
| Applied Optics |
Microscope |
Telescope |
Scanning Mechanisms |
Target Acquisition |
| Acoustics |
Luggage Scanning |
Feedback Controls |
Image Processing |
3D Virtualization |
Holographic Microscope |
- Enhanced PID controller performance utilizing position sensor and rate feedback gain
- Stable response controller design with lower settling time using step function acceleration
- Designed a unique wavelet theory based Eigen value tracking feedback controller for non-linear system time varying resonant frequency response with respect to excitation level power spectrum. The feedback controller based on wavelet theory and staggered real-time parallel Fourier transform processing rather than traditional stochastic based discrete Kalman filter estimators and predictors
- Oscillation detection to reduce wasted power and provide minimum rise time
- Controller optimization using high-order spectral lead-lag compensators and response damping compensation
- Adaptive digital notch filtering for non-linear dynamic systems