40m QIL Cryo_Lab CTN SUS_Lab TCS_Lab OMC_Lab CRIME_Lab FEA ENG_Labs OptContFac Mariner WBEEShop
  40m Log  Not logged in ELOG logo
Entry  Tue Nov 9 13:40:02 2021, Ian MacMillan, Summary, Computer Scripts / Programs, SUS Plant Plan for New Optics 
    Reply  Tue Nov 9 16:55:52 2021, Ian MacMillan, Summary, Computer Scripts / Programs, SUS Plant Plan for New Optics IMG_8107.JPG
       Reply  Tue Nov 9 18:05:03 2021, Ian MacMillan, Summary, Computer Scripts / Programs, SUS Plant Plan for New Optics 
          Reply  Mon Nov 15 15:12:28 2021, Ian MacMillan, Summary, Computer Scripts / Programs, SUS Plant Plan for New Optics 
             Reply  Tue Nov 16 17:29:49 2021, Ian MacMillan, Summary, Computer Scripts / Programs, SUS Plant Plan for New Optics x_x_TF1.pdf
                Reply  Thu Nov 18 20:00:43 2021, Ian MacMillan, Summary, Computer Scripts / Programs, SUS Plant Plan for New Optics Final_Plant_Testing.zip
                   Reply  Mon Nov 22 16:38:26 2021, Tega, Summary, Computer Scripts / Programs, SUS Plant Plan for New Optics 
Message ID: 16478     Entry time: Mon Nov 22 16:38:26 2021     In reply to: 16477
Author: Tega 
Type: Summary 
Category: Computer Scripts / Programs 
Subject: SUS Plant Plan for New Optics 

[Tega, Ian]

TODO

1. Investigate cross-coupling btw the various degrees of freedom (dof) - turn on noise for each dof in the plant model and measure the transfer function of the other dofs.

2. Get a closed-loop transfer function using noise injection and give a detailed outline of the procedure in elog - IN1/IN2 for each TM_RESP filter while the others are turned off.

3. Derive analytic model of the closed-loop transfer functions for comparison.

4. Adapt control filters to fit optimized analytical solutions.

ELOG V3.1.3-