About
Robotics and automation are transforming agricultural biotechnology, offering solutions for efficient and sustainable food production. This program introduces participants to the latest advancements in robotics, automation systems, and AI-driven tools designed for precision farming, crop monitoring, harvesting, and soil management. Participants will explore how these technologies optimize farming operations, improve resource management, and address labor shortages in agriculture.
The program also covers key topics such as robotic systems for plant phenotyping, automated irrigation systems, drone technologies for field analysis, and the integration of AI and machine learning in agriculture. Through hands-on learning and case studies, participants will gain practical insights into the future of agriculture, where robotics and automation play a central role in achieving food security and sustainable farming practices.
Aim
This program aims to provide participants with comprehensive knowledge of robotics and automation technologies applied in agricultural biotechnology. It focuses on improving agricultural productivity, enhancing precision farming, and reducing human labor through innovative robotic and automated systems.
Program Objectives
- Understand the role of robotics and automation in agricultural biotechnology.
- Explore advanced robotic systems for crop monitoring, phenotyping, and harvesting.
- Learn about automated irrigation, fertilization, and pest control systems.
- Examine the integration of AI and machine learning in precision farming.
- Develop skills in applying robotics to solve real-world agricultural challenges.
Program Structure
- Introduction to Robotics and Automation in Agriculture
- Overview of robotic systems and automation technologies
- Key applications in modern agriculture
- Robotic Crop Monitoring and Phenotyping
- Robotic systems for plant health monitoring and data collection
- Automated systems for precision farming and phenotyping
- Automated Irrigation and Fertilization Systems
- Advanced irrigation technologies
- Automation in fertilization and resource management
- Drone Technologies and Field Analysis
- Drones in agricultural field monitoring and analysis
- Integrating drones with AI for crop health and yield optimization
- AI and Machine Learning in Agriculture
- AI-driven automation systems for precision farming
- Case studies on AI applications in real-world farming
Participant’s Eligibility
- Undergraduate degree in Agricultural Engineering, Biotechnology, Mechanical Engineering, or related fields.
- Professionals in the agricultural technology or automation sectors.
- Individuals with a keen interest in robotics and sustainable agricultural solutions.
Program Outcomes
- Mastery of robotic systems used in agriculture.
- Understanding of automation technologies for farming efficiency.
- Skill development in integrating AI and robotics for crop management.
- Knowledge of drone applications in precision farming.
- Practical insights into sustainable agricultural automation.
Program Deliverables
- Access to e-LMS
- Real-Time Project for Dissertation
- Project Guidance
- Paper Publication Opportunity
- Self Assessment
- Final Examination
- e-Certification
- e-Marksheet