Hi Elouan,
I understand you're encountering significant variations in IV method coefficient estimates within your MATLAB code for RLC system identification. Here are some areas to investigate to improve stability:
- While your code snippet doesn't show the data length (t), consider increasing it. A longer data sequence can provide the IV method with more information for reliable coefficient estimation.
- The code uses a PRBS signal with 7 transitions ([0, 1/7]). Explore different PRBS orders (number of transitions) to see if it affects stability. A higher order PRBS might provide richer excitation across the frequency range.
- The code calculates noise based on the signal and desired SNR. Ensure your noise level (b) accurately reflects the actual noise characteristics in your system. Consider alternative noise generation methods if needed.
- The code uses "iv4([2 2 1])" for order selection. Experiment with different numerator (na), denominator (nb), and instrument (nk) orders to find a combination that best captures the system dynamics.
By addressing these factors and potentially refining your code based on points stated, you should be able to achieve more stable and consistent IV coefficient estimates.
