URL:
<http://gna.org/task/?6532>
Summary: Submission of PySyLiC : Analyse de Systèmes
Lineaires Continus
Project: Gna! Administration
Submitted by: cfaury
Submitted on: dimanche 15.03.2009 à 09:45
Status: None
Approval Status: None
Should Start On: dimanche 15.03.2009 à 00:00
Should be Finished on: mercredi 25.03.2009 à 00:00
Category: Project Approval
Priority: 5 - Normal
Privacy: Public
Assigned to: None
Open/Closed: Open
Discussion Lock: Any
_______________________________________________________
Details:
A new project has been registered at Gna!
This project account will remain inactive until a site admin approves or
discards the registration.
= Registration Administration =
While this item will be useful to track the registration process, *approving
or discarding the registration must be done using the specific Group
Administration <https://gna.org/siteadmin/groupedit.php?group_id=2927> page*,
accessible only to site administrators, effectively *logged as site
administrators* (superuser):
* Group Administration
<https://gna.org/siteadmin/groupedit.php?group_id=2927>
= Registration Details =
* Name: *PySyLiC : Analyse de Systèmes Lineaires Continus*
* System Name: *pysylic*
* Type: Programs
* License: GNU General Public License V3 or later
----
==== Description: ====
PySyLiC is an educational tool abble to break down various steps for the
analysis of a linear and continuous dynamical control system :
- Handling of variouses transfer functions of the system,
- Analysis of the Poles and Zeroes
- Asymptotic and real graphs of frequency responses (Bode, Nyquist, and
Nichols plots)
- Application of PID controller depending on the system performances
expected.
Sources of PySyliC :
http://www.cemanted.fr/PySyLiC/
French version :
PySyLiC est un outil éducatif permettant de décomposer les différentes
démarches d'études d'un système dynamique asservis Linéaire et Continu :
- Manipulation des différentes fonctions de transfert du système,
- Analyse des poles et des zeros
- Tracés asymptotiques et réels des réponses harmoniques dans différents
plans (plans de Bode, Niquist et Black)
- Application de correcteurs selon les performances (Stabilité, Rapidité et
Précision) attendues.
==== Other Software Required: ====
PySyliC is written in Python and needs :
- Python 2.5 (www.python.org)
- NumPy (numpy.scipy.org)
_______________________________________________________
Reply to this item at:
<http://gna.org/task/?6532>
_______________________________________________
Message posté via/par Gna!
http://gna.org/
_______________________________________________
Register mailing list
[email protected]
https://mail.gna.org/listinfo/register
