PBJacquemin .com. Non-Linear System Optimal Feedback Controllers and Dynamic PID Controls Design with Fast Settling Time.
Systems Engineer
Peter B. Jacquemin
Email Peter B. Jacquemin

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 |

Feedback Controls and High Rate Stabilization
  • 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