| Topic |
| Session 1 | Calculation of four-bar link mechanism for practical design and simulation using Adams |
| Session 2 | Calculation of four-bar link mechanism for practical design and simulation using Adams |
| Session 3 | Calculation of four-bar link mechanism for practical design and simulation using Adams |
| Session 4 | Calculation of four-bar link mechanism for practical design and simulation using Adams |
| Session 5 | Calculation of four-bar link mechanism for practical design and simulation using Adams |
| Session 6 | Calculation of four-bar link mechanism for practical design and simulation using Adams |
| Session 7 | Review of PID control system design for practical design and control experiment of pneumatic cylinder/motor |
| Session 8 | Review of PID control system design for practical design and control experiment of pneumatic cylinder/motor |
| Session 9 | Design and creation of a moving mechanism using a spring / Creation of a moving robot using a 3D printer |
| Session 10 | Design and creation of a moving mechanism using a spring / Creation of a moving robot using a 3D printer |
| Session 11 | Design and creation of a moving mechanism using a spring / Creation of a moving robot using a 3D printer |
| Session 12 | Design and creation of a moving mechanism using a spring / Creation of a moving robot using a 3D printer |
| Session 13 | Design and creation of a moving mechanism using a spring / Creation of a moving robot using a 3D printer |
| Session 14 | Design and creation of a moving mechanism using a spring / Creation of a moving robot using a 3D printer |
| Session 15 | Presentation on building a mobile robot |
**This content is based on April 1, 2025. For the latest syllabus information and details, please check the