Learning Outcomes:
Upon completion of the module, students should be able to:
- LO1: Reflect on fundamental concepts and principles of precision agriculture technologies.
- LO2: Compare and contrast the functionality of a toolbox of sensor and sensing technologies used in agricultural machinery.
- LO3: Analyse and interpret soil and crop variability data.
- LO4: Advise on how to introduce precision agriculture strategies to a farm.
- LO5: Design, implement and evaluate precision agriculture concepts using the Farming Simulator software.
Indicative Module Content:
The module content is as follows:
1. Introduction to Precision Agriculture (PA)
- Challenges, technologies, requirements and expectations
2. Spatial variability of soils and crop plants
- Understanding variability, measuring principles and visualization
3. On-the-go soil sensors
- Description, assessment and use
4. Absolute and relative Positioning
- GNSS, sensing and sensor fusion
5. PC-Tractor-Implement Communication
- International Standardization, ISOBUS interoperability, with display and terminal demonstrations
6. Variable Rate Technology
- Tillage, sowing, spraying and fertilization
7. Plant Protection
- Basic principles of PA in plant protection (weed control)
8. Harvesting
- Data logging and yield mapping
9. Adoption of PA technologies
- Current status, availability, advantages, limitations and barriers
10. Future Technology
- Precision - Smart - Digital Farming