= Agenda/Minutes on 2020/10/2 =
[[https://zoom.us/j/203743987|Zoom Meeting]]

= CRY+VIS Interface Meeting =
13:30-14:10

Participants: Takahashi, Hirata, Aso, Sato, Akutsu, Miyo, Ikeda, Ushiba, Kimura, Shoda

 * [[http://gwwiki.icrr.u-tokyo.ac.jp/JGWwiki/KAGRA/Upgrades/PostO3Upgrades|Post O3 Upgrade portal]]
 * [[https://www.dropbox.com/s/x3k3psagtpm6j77/Microsoft%20Project%20-%20bKAGRA%20O4%20200929.pdf?dl=0|Schedule]]
 * Cable bandling bellow BF.[[attachment:Cable bandling BF-CRYO.pdf]]

= VIS Meeting =
14:10-15:10

Participants: Takahashi, Hirata, Aso, Sato, Miyo, Ikeda, Shoda, Sugiyama, Terrence, Iguchi, Fabian, Tanaka, Ishizaki, Uchiyama, Miyoki, Washimi

== Progress report ==
=== General ===
 * Sugiyama-san(ICRR, Uchiyama Lab.) will join VIS group, mainly for reinstallation of Type-A tower in Y-end.
 * [Takahashi, Miyo, Ikeda] We plan to test the heater control at the cross tube in IX or IY on Oct. 20-21.
 * Limit switches will be reviewed by SEO on Oct. 9th.

=== Type-A ===
=== Type-B ===
Report of the week of the 28th of September

 * Measured the resonant frequency of BS IP ([[http://klog.icrr.u-tokyo.ac.jp/osl/?r=15136|15136]]). it's not too different to what I had measured with a higher  temperature. I haven't measured the other ones.
 * I calculated we require to put '''132 grams on''' top of BS Bottom Filter in order to bring F1 to nominal position at zero with the fishing rod in midrange. See [[https://onedrive.live.com/?authkey=!AOLVVVKJ_Zpn-2c&cid=1447B05D5B571A84&id=1447B05D5B571A84!26691&parId=1447B05D5B571A84!26683&o=OneUp|Type-B remedying work]] document.
  * Taking  into account the weight of the F0 yaw stepper motor (330 grams) that we  need to install, and the amount of ballast on F0 keystone (413 grams),  we can see the F0 load is overweight by 50 grams.
  * To fix this, Hirata-san designed a new F0 keystone top plate far ligher than the current one ([[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=12090|JGW-T2012090]]). It should work well.
  * Next week I will go to the mine and put aside the 132 grams of ballast divided into two equal parts.
 * In  the context of calculating the amount of ballast required in SR3 I  realized that when moving the BF keystone to -1.47mm the system touches  something and free oscillations stop ([[http://klog.icrr.u-tokyo.ac.jp/osl/?r=15122|15122]]). This is not a problem currently but it should not happen. More investigation is required. '''It touches before the fishng rod reaches midrange.'''
 * Despite this problem it was able to roughly estimate we require to '''remove 76 grams''' from the IM and '''add 43 grams''' on top of the BF. See [[https://onedrive.live.com/?authkey=!AOLVVVKJ_Zpn-2c&cid=1447B05D5B571A84&id=1447B05D5B571A84!26691&parId=1447B05D5B571A84!26683&o=OneUp|Type-B remedying work]] document.
  * I  calibrated (roughly) the keystone displacement in terms of stepper  motor steps, and then calculated the total displacement all the way to  midrange position, which is beyond the position where it currently  touches. Using the spring constant I calculated we need to remove 76  grams.
  * F1  fishing rod is completely jammed -429 um.To bring it to nominal we need  to remove 33 grams from its load. However, we will remove about 76  grams from the IM, which implies we'll need to '''add''' 43 grams on top of BF.
  * We have a record of the mass we put on top of SR3 IM ([[https://onedrive.live.com/?authkey=!AOLVVVKJ_Zpn-2c&cid=1447B05D5B571A84&id=1447B05D5B571A84!26691&parId=1447B05D5B571A84!26683&o=OneUp|Type-B remedying work]])  and it seems hard to remove 76 grams in a symmetrical way. I'll need to  design some masses that should allow us flexibility. Work in progress.
 * I opened a [[http://gwwiki.icrr.u-tokyo.ac.jp/JGWwiki/GitHub|GitHub]] issue for concrete weekly TO DO lists ([[https://github.com/gw-vis/kagra-vis/issues/85|Type-B work TO DO list              #85]]). I assigned Hirata-san, Washimi-san and myself.

=== Type-Bp ===
=== Type-C ===
=== Controls ===
=== Electronics ===
 * Finished to make the CAD library for additional devices.
 * Designing the circuit board.

== Towards O4 ==
 * RSE Trial was extended to Oct. 12th.
 * Preparation work.
  * The preparation work will be started on Oct. 8th.
  * [[https://www.dropbox.com/s/t7dsw16qdc5pfrl/Booth%20cleaning%20rev.pdf?dl=0|Schedule and assignment of personnel]]
  * [[https://paper.dropbox.com/doc/Plan-for-cleaning-the-clean-booth--A73isqnLjN32leQb4nFiuN~BAg-KVEbnCCBASYy4ea78HBUH|Cleaning procedure]].
  * [[https://www.dropbox.com/home/Subsystems/VIS/Inventory|Inventory sheet]].
  * Cable removal.
 * Schedule.
  * [[https://www.dropbox.com/s/1s5h7lb5t4ivd55/ChamberOpen-Schedule201002-1-e.pdf?dl=0|Chamber opening]]
  * [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=11475|VIS]]
 * Procedure documents.
  * [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=5500|Type-A tower installation]]
  * [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=11598|Limit switches]]
  * [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=11520|Limit switch connecting guide]]
  * [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=11978|Replacement of TF blades]]
  * [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=11878|Wire gluing in PR3]]
  * [[https://onedrive.live.com/?authkey=!AOLVVVKJ_Zpn-2c&cid=1447B05D5B571A84&id=1447B05D5B571A84!26691&parId=1447B05D5B571A84!26683&o=OneUp|Type-B remedying work]]
 * Criteria in the acceptance test.
 * Presentation
  * PAB (10/8)
  * Chief Meeting (10/12)

== Safety ==
== Discussion ==
[Terrence] VIS health check system [[https://github.com/gw-vis/vishack|VISHack]]
 * I have finished coding the essentials of the health check system and is ready to release the first version of it. What it can do:
  * Read a config file and do health check according to the config file [[https://github.com/gw-vis/vishack/blob/master/sample_config.ini|Sample config]].
  * There's command line utilities to generate a sample config file.
  * The config file specifies the tests that we want to do and the associated diaggui XML files or directories.
  * For now, available tests are RMS, mean-square error, maximum absolute error. And, we can do tests with the data whitened by some reference data.
  * I have tested with k1ctr1, and it Will measurements.
  * After doing the tests, we can choose to output a report of the health check. [[https://github.com/gw-vis/vishack/blob/master/health_check.rst|Sample report]]
  * In the report, if there are any suspicious results, it will be in the alert section.
  * If we want to do something with the report without outputting it, we can access the report with the code, it is just an attribute of a class. The same goes to the alerts.

 * I will finalize the code for the first version and make documentation for how to actually use it. Documentation webpage is available [[https://vishack.readthedocs.io | VISHack documentation]]. It is updated automatically as I do git pushes. So you are always looking at the most updated version.
  
== Travel Plans ==
The week from 10/5

 * Takahashi: 10/7-10/9
 * Sato: 10/7-10/9
 * Hirata: 10/7-10/9

The week from 10/12

 * Takahashi: 10/12-16
 * Sato: 10/12-16
 * Hirata: 10/12-16

== Next meeting ==
 * On 2020/10/9(Fri)