Integration Project Systems and Control 2013 Group 2: Difference between revisions

From Control Systems Technology Group
Jump to navigation Jump to search
Line 38: Line 38:
|Obtain robot specifications such as motor saturation (Frank - 4 hours).||
|Obtain robot specifications such as motor saturation (Frank - 4 hours).||
|-
|-
|Rens / Jeroen Design FRF measurement white noise injection and conduct the measurement 6 hours 2x.||
|Design FRF measurement white noise injection and conduct the measurement (Rens / Jeroen - 6 hours).||
|-
|-
|Jazz Make a selection of useful literature for the other group members 5 hours.||
|Make a selection of useful literature for the other group members (Jazz - 5 hours).||
|-
|-
|Feb 25 - Mar 3 ||
|Feb 25 - Mar 3 ||
|-
|-
|Frank Design of kinematic model (not sure yet if needed) 8 hours||
|Design of kinematic model (not sure yet if needed) (Frank - 8 hours)||
|-
|-
|Rens / Jazz Analyze FRF data 8 hours 2x||
|Analyze FRF data (Rens / Jazz - 8 hours)||
|-
|-
|Jeroen Determine optimal algorithm: PID, LQG, H1, MPC or ILC 4 hours||
|Determine optimal algorithm: PID, LQG, H1, MPC or ILC (Jeroen - 4 hours)||
|-
|-
|Mar 4  - Mar 10||
|Mar 4  - Mar 10||
|-
|-
|All Design controllers based on chosen algorithm for four axises separately (loop shaping) feedback and feedforward 8 hours 4x||
|Design controllers based on chosen algorithm for four axises separately (loop shaping) feedback and feedforward (All - 8 hours)||
|-
|-
|Mar 11 - Mar 17||
|Mar 11 - Mar 17||
|-
|-
|Jazz / Rens Test/tune designed controllers on the machine 5 hours 2x||
|Test/tune designed controllers on the machine (Jazz / Rens - 5 hours)||
|-
|-
|
|Design optimal trajectory (Jeroen / Frank - 8 hours)||
Jeroen / Frank Design optimal trajectory 8 hours 2x||
|-
|-
|Mar 18 - Mar 24||
|Mar 18 - Mar 24||
|-
|-
|Frank / Jeroen Test optimal trajectory on the machine 3 hours 2x||
|Test optimal trajectory on the machine (Frank / Jeroen - 3 hours)||
|-
|-
|Rens / Jazz Make presentation + solving unexpected problems 3 hours 2x||
|Make presentation + solving unexpected problems (Rens / Jazz - 3 hours)||
|-
|-
|Apr 1  - Apr 7 ||
|Apr 1  - Apr 7 ||

Revision as of 17:23, 18 February 2013

Group Members

Name: Student id: Email:
Rens Samplonius please fill in r.j.samplonius@student.tue.nl
Frank Evers please fill in f.evers@student.tue.nl
Juan Guo please fill in j.guo@student.tue.nl
Jeroen Lamers please fill in j.w.lamers@student.tue.nl

Planning

Week: Activities:
Feb 18 - Feb 24
Obtain robot specifications such as motor saturation (Frank - 4 hours).
Design FRF measurement white noise injection and conduct the measurement (Rens / Jeroen - 6 hours).
Make a selection of useful literature for the other group members (Jazz - 5 hours).
Feb 25 - Mar 3
Design of kinematic model (not sure yet if needed) (Frank - 8 hours)
Analyze FRF data (Rens / Jazz - 8 hours)
Determine optimal algorithm: PID, LQG, H1, MPC or ILC (Jeroen - 4 hours)
Mar 4 - Mar 10
Design controllers based on chosen algorithm for four axises separately (loop shaping) feedback and feedforward (All - 8 hours)
Mar 11 - Mar 17
Test/tune designed controllers on the machine (Jazz / Rens - 5 hours)
Design optimal trajectory (Jeroen / Frank - 8 hours)
Mar 18 - Mar 24
Test optimal trajectory on the machine (Frank / Jeroen - 3 hours)
Make presentation + solving unexpected problems (Rens / Jazz - 3 hours)
Apr 1 - Apr 7

Progress

Week 1

  • List of what you have done and learned
  • ...

Week 2

  • ...
Retrieved from "https://cstwiki.wtb.tue.nl/index.php?title=Integration_Project_Systems_and_Control_2013_Group_2&oldid=3870"