Multi-Konzeptionelle Verwendung von Low-Cost Hardware in der Lehre Dr.-Ing. Daniel Weida, MathWorks 2015 The MathWorks, Inc. 1
Agenda Project-Based Learning in Engineering Education Multipurpose Hardware Setup Example Project Summary and Outlook 2
Beispiel Image Processing Motor Control 3
Beispiel 4
Key Take Aways Ease of use of Low-Cost Hardware with ML/SL Many maintained Support Packages Hands-On Experience 5
Agenda Project-Based Learning in Engineering Education Multipurpose Hardware Setup Example Project Summary and Outlook 6
How did we learn as children? 7
How about school? When they went to school, the first thing they [children] had to learn was to stop learning and to begin being taught. Dr. Seymour Papert MIT Keynote National School Boards Association Technology and Learning Conference 1994 8
Project-Based Learning * Motivating Project-Based Learning: Sustaining the Doing, Supporting the Learning, Educational Psychologist Volume 26, Issue 3-4, 1991. 9
Hands-On Example V+ V- 10
Agenda Project-Based Learning in Engineering Education Multipurpose Hardware Setup Example Project Summary and Outlook 11
Multipurpose Motor Control Image Processing Ball Tracking 12
Employing Industry Tools 13
Support Packages Ease of use Automated board setup Runs model automatically after build Hardware support Functionality Maintenance External mode View signals Tune parameters 14
Support Packages 15
Agenda Project-Based Learning in Engineering Education Multipurpose Hardware Setup Example Project Summary and Outlook 16
Example Workflow Create Model Video Capture Ball Detection Algorithm Stateflow Logic External Mode System Identification Automated PID Tuning Debugging External Mode Disconnect PC Stand-Alone Function Image Acquisition Image Processing Supervisory Control Embedded Control Test Deploy 17
Beispiel 18
Workflow Create Model Video Capture Ball Detection Algorithm Stateflow Logic External Mode System Identification Automated PID Tuning Debugging External Mode Disconnect PC Stand-Alone Function Image Acquisition Image Processing Supervisory Control Embedded Control Test Deploy 19
Workflow Create Model Video Capture Ball Detection Algorithm Stateflow Logic External Mode System Identification Automated PID Tuning Debugging External Mode Disconnect PC Stand-Alone Function Image Acquisition Image Processing Supervisory Control Embedded Control Test Deploy 20
Workflow Create Model Video Capture Ball Detection Algorithm Stateflow Logic External Mode System Identification Automated PID Tuning Debugging External Mode Disconnect PC Stand-Alone Function Image Acquisition Image Processing Supervisory Control Embedded Control Test Deploy 21
Workflow Create Model Video Capture Ball Detection Algorithm Stateflow Logic External Mode System Identification Automated PID Tuning Debugging External Mode Disconnect PC Stand-Alone Function Image Acquisition Image Processing Supervisory Control Embedded Control Test Deploy 22
Workflow Create Model Video Capture Ball Detection Algorithm Stateflow Logic External Mode System Identification Automated PID Tuning Debugging External Mode Disconnect PC Stand-Alone Function Image Acquisition Image Processing Supervisory Control Embedded Control Test Deploy 23
Workflow Create Model Video Capture Ball Detection Algorithm Stateflow Logic External Mode System Identification Automated PID Tuning Debugging External Mode Disconnect PC Stand-Alone Function Image Acquisition Image Processing Supervisory Control Embedded Control Test Deploy 24
Agenda Project-Based Learning in Engineering Education Multipurpose Hardware Setup Example Project Summary and Outlook 25
Key Take Aways Ease of use of Low-Cost Hardware with ML/SL Many maintained Support Packages Hands-On Experience 26
Further Example Projects http://makerzone.mathworks.com 27
Material Resources http://www.mathworks.com/academia 28