Week:
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Activities:
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Feb 18 - Feb 24 |
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- Prepare test and conduct test for coupling/decoupling(JA,NK,MK) 3.5 hours
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- Prepare test for non linearity and verify non linearity (JA,NK,MK) 3.5 hours
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- Prepare test joint identification and conduct test and create models of the joints (JA,NK,MK) 5 hours |
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- Set up DH transfer matrices (AS) 5 hours
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- Generate Matlab Simulation of the kinematic chain (ER) 7 Hours
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Feb 25 - Mar 3 |
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- Design PID feedback controller, add feedforward and test on the robot for each joint (JA,NK,MK) 11 hours |
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- Prepare testing procedure (JA,NK,MK) 1.5 hours |
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- Implement inverse kinematics (IK) code in matlab (AS) 2 hours |
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- Matlab code for trajectory generation (TG) (ER) 5 hours
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Mar 4 - Mar 11 |
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- Test controllers on the robot (JA,NK,MK) 2 hours
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- Test trajectory generation on the simulation (ER) 3 hours
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- Integrate Inverse Kinematics with Controllers (AS,ER) 2 hours
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Mar 12 - Mar 19 |
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- Consider different controller design methods (JA,NK,MK,AS,ER) 10 hours
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- Work on report (JA,NK,MK,AS,ER) 2 hours
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Mar 20 - Mar 27 |
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- Test routine generation on the robot (JA,NK,MK,AS,ER) 2 hours
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- Select optimal routine (JA,NK,MK,AS,ER) 4 hours
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- Problem solving (JA,NK,MK,AS,ER) 10 hours
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- Consider different controller design methods (JA,NK,MK,AS,ER) 10 hours
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- Test different controllers (JA,NK,MK,AS,ER) 5 hours
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- Work on report (JA,NK,MK,AS,ER) 2 hours
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Mar 28 - Apr 4 |
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- Work on report (JA,NK,MK,AS,ER) 15 hours
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- Prepare presentation (JA,NK,MK,AS,ER) 5 hours
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