Main.Tutorial History
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09:00-11:00 L. Dorst
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09:00-11:00 Structure Preserving Representation of Euclidean Motions through Conformal Geometric Algebra (L. Dorst)\\
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11:30 - 12:15 Programming with Gaigen
13:00 - 13:30 Robot kinematics example with CLUCalc
13:30 - 14:30 Lunch
'''Applications I'''\\
14:30-15:00Interactive 3D Space Group Visualization with CLuCalc (E. Hitzer)\\
13:30 - 14:30 Lunch
14:30-15:00
to:
11:30 - 12:15 Programming with Gaigen (D. Fontijne)\\
12:15 - 13:00 Visualizing GA with CLUCalc 5 (C. Perwass)\\
13:00 - 14:30 Lunch
'''Programming and Application I'''\\
14:30-15:00 Applications with CLuCalc (D. Hildenbrand/ E. Hitzer)\\
- Robot kinematics example\\
- Interactive 3D Space Group Visualization\\
12:15 - 13:00 Visualizing GA with CLUCalc 5 (C. Perwass)\\
13:00 - 14:30 Lunch
'''Programming and Application I'''\\
14:30-15:00 Applications with CLuCalc (D. Hildenbrand/ E. Hitzer)\\
- Robot kinematics example\\
- Interactive 3D Space Group Visualization\\
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15:30-16:15 Clifford 10, Maple Programm for Clifford Algebra Computing\\
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15:30-16:15 Clifford, A Maple Programm for Clifford Algebra Computing\\
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17:15-18:15 Clifford Fourier Transform/Flow Visualization (E.Hitzer)\\
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17:15-18:15 Fourier and Wavelet Transformations in Geometric Algebra (E.Hitzer)\\
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14:30-15:15 Interactive 3D Space Group Visualization with CLuCalc (E. Hitzer)\\
15:15-15:45 Programming the multivector product for large N (I. Bell)\\
15:45-16:15 Clifford 10, Maple Programm for Clifford Algebra Computing\\
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15:
to:
14:30-15:00 Interactive 3D Space Group Visualization with CLuCalc (E. Hitzer)\\
15:00-15:30 Programming the multivector product for large N (I. Bell)\\
15:30-16:15 Clifford 10, Maple Programm for Clifford Algebra Computing\\
15:00-15:30 Programming the multivector product for large N (I. Bell)\\
15:30-16:15 Clifford 10, Maple Programm for Clifford Algebra Computing\\
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17:15-18:15 Clifford Fourier Transform/Flow Visualization (E.Hitzer /G.Scheuermann)\\
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17:15-18:15 Clifford Fourier Transform/Flow Visualization (E.Hitzer)\\
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13:00 - 13:30 Robot kinematics examole with CLUCalc
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13:00 - 13:30 Robot kinematics example with CLUCalc
Changed lines 16-18 from:
11:30 - 12:15 Visualizing GA with CLUCalc 5
12:15 - 13:00 Programming with Gaigen
13:00 - 13:30 Gaalop (Geometric algebra algorithms optimizer)
to:
11:30 - 12:15 Programming with Gaigen
12:15 - 13:00 Visualizing GA with CLUCalc 5
13:00 - 13:30 Robot kinematics examole with CLUCalc
12:15 - 13:00 Visualizing GA with CLUCalc 5
13:00 - 13:30 Robot kinematics examole with CLUCalc
Changed lines 23-31 from:
14:30-15:15 Differential Geometry (I. Bell)\\
15:15-15:45 Motion Tracking (D. Fontijne)\\
15:45-16:15 GA statistics (C. Perwass)\\
16:15-16:45 Coffee break
'''Applications II'''
16:45-17:15 Kinematics / Point Cloud Analysis (D. Hildenbrand)\\
17:15-18:15 Clifford Fourier Transform / Flow Visualization (E. Hitzer /G. Scheuermann)\\
15:15-15:45 Motion Tracking
15:
16:15-16:45 Coffee break
'''Applications II'''
to:
14:30-15:15 Interactive 3D Space Group Visualization with CLuCalc (E. Hitzer)\\
15:15-15:45 Programming the multivector product for large N (I. Bell)\\
15:45-16:15 Clifford 10, Maple Programm for Clifford Algebra Computing\\
(R. Ablamowicz\\
16:15-16:45 Coffee break\\
'''Programming and Application II'''\\
16:45-17:15 Gaalop, Geometric algebra algorithms optimizer ( J.Pitt/ D.Hildenbrand)\\
17:15-18:15 Clifford Fourier Transform/Flow Visualization (E.Hitzer /G.Scheuermann)\\
15:15-15:45 Programming the multivector product for large N (I. Bell)\\
15:45-16:15 Clifford 10, Maple Programm for Clifford Algebra Computing\\
(R. Ablamowicz\\
16:15-16:45 Coffee break\\
'''Programming and Application II'''\\
16:45-17:15 Gaalop, Geometric algebra algorithms optimizer ( J.Pitt/ D.Hildenbrand)\\
17:15-18:15 Clifford Fourier Transform/Flow Visualization (E.Hitzer /G.Scheuermann)\\
Added lines 1-32:
'''''AGACSE 2008 Tutorial'''''
'''17 August'''
8:55-9:00 Opening (D. Hildenbrand)
'''Introduction to GA'''\\
09:00-11:00 L. Dorst
11:00 -11:30 Coffee break
'''Programming and Visualization, Exercises'''
(C. Perwass, D. Fontijne, L. Dorst, D. Hildenbrand)
Presentation and exercises with laptops of
11:30 - 12:15 Visualizing GA with CLUCalc 5
12:15 - 13:00 Programming with Gaigen
13:00 - 13:30 Gaalop (Geometric algebra algorithms optimizer)
13:30 - 14:30 Lunch
'''Applications I'''\\
14:30-15:15 Differential Geometry (I. Bell)\\
15:15-15:45 Motion Tracking (D. Fontijne)\\
15:45-16:15 GA statistics (C. Perwass)\\
16:15-16:45 Coffee break
'''Applications II'''\\
16:45-17:15 Kinematics / Point Cloud Analysis (D. Hildenbrand)\\
17:15-18:15 Clifford Fourier Transform / Flow Visualization (E. Hitzer /G. Scheuermann)\\
18:15-19:00 GA Neural Networks (K. Tachibana / E. Hitzer)
'''17 August'''
8:55-9:00 Opening (D. Hildenbrand)
'''Introduction to GA'''\\
09:00-11:00 L. Dorst
11:00 -11:30 Coffee break
'''Programming and Visualization, Exercises'''
(C. Perwass, D. Fontijne, L. Dorst, D. Hildenbrand)
Presentation and exercises with laptops of
11:30 - 12:15 Visualizing GA with CLUCalc 5
12:15 - 13:00 Programming with Gaigen
13:00 - 13:30 Gaalop (Geometric algebra algorithms optimizer)
13:30 - 14:30 Lunch
'''Applications I'''\\
14:30-15:15 Differential Geometry (I. Bell)\\
15:15-15:45 Motion Tracking (D. Fontijne)\\
15:45-16:15 GA statistics (C. Perwass)\\
16:15-16:45 Coffee break
'''Applications II'''\\
16:45-17:15 Kinematics / Point Cloud Analysis (D. Hildenbrand)\\
17:15-18:15 Clifford Fourier Transform / Flow Visualization (E. Hitzer /G. Scheuermann)\\
18:15-19:00 GA Neural Networks (K. Tachibana / E. Hitzer)