Overview
The course emphasizes the integration of knowledge and application of technologies for agricultural development. It enables the participants to gain understanding, awareness and exposure to modern and innovative technologies in agriculture and allied sectors.Science and technology in agriculture hold immense importance in boosting agricultural production and sustainability.
Our Trainers
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Dr. Shashi Rawat -Principal Scientist, CIAE, Bhopal
1.Prof Shriparna Saxena
HOD (SoAg)
Sage University Bhopal M.P.
2. Dr. Satya Prakash
Scientist, Agriculture Engineering
CIAE, Bhipal, M.P. (Mob.9418669929)
3. Dr. Atul Kumar Pachauri
Assistant Professor-Genetics & Plant Breeding School of Agriculture, SAGE University, Bhopal
4. Dr. Shashi Rawat
Principal Scientist- Agriculture Engineering
CIAE, Bhopal - (M.P.) (mob.9418669929)
5. Dr. Abhinav Jain
Assistant Professor
Plant Breeding and Genetics
School of Agriculture, SAGE University, Bhopal
6. Dr. Yogendra Singh
Assistant Professor, Horticulture
School of Agriculture, SAGE University, Bhopal
7. Dr. Abhinandan Yadav
Assistant Professor, Agricultural Entomology
School of Agriculture, SAGE University, Bhopal
8. Dr. Anurag Patel
Assistant Professor, Agricultural Engineering
School of Agriculture, SAGE University, Bhopal
9. Dr. Anil Dhakad
Assistant Professor, Agronomy
School of Agriculture, SAGE University, Bhopal
10. Dr. L.K. Sharma
Asso. Prof. , Livestock and Poultry Management
School of Agriculture, SAGE University, Bhopal
Dr. Satya Prakash
about
Dr Shashi Rawat
Principal Scientist
CIAE
Dr Yogendra Singh
Assistant Professor
SOAG
Dr Atul Pachauri
AP
SOAG
Dr Anurag Patel
AP
SOAG
Dr Ratnakar Mishra
AP
SOAG
Dr Abhinav Jain
AP
SOAG
Modules
This short-term course provide learners to abreast themselves of developments in potential techniques and methods that improve productivity and sustainability, including advance agronomic and breeding techniques utilized for crop production and improvement, precision farming techniques, modern agricultural implements, protected cultivation techniques, hydroponics, natural farming techniques and digital technology. Participants learn about cutting-edge strategies that address existing and emerging issues and bottlenecks affecting agriculture. It will help in understanding and utilization of climate-resilient advance agricultural production systems in real world situations through knowledge sharing, expert lectures and interactive sessions.This short-term course provide learners to abreast themselves of developments in potential techniques and methods that improve productivity and sustainability, including advance agronomic and breeding techniques utilized for crop production and improvement, precision farming techniques, modern agricultural implements, protected cultivation techniques, hydroponics, natural farming techniques, digital and AI technology. Participants learn about cutting-edge strategies that address existing and emerging issues and bottlenecks affecting agriculture. It will help in understanding and utilization of climate-resilient advance agricultural production systems in real world situations through knowledge sharing, expert lectures and interactive sessions.This short-term course provide learners to abreast themselves of developments in potential techniques and methods that improve productivity and sustainability, including advance agronomic and breeding techniques utilized for crop production and improvement, precision farming techniques, modern agricultural implements, protected cultivation techniques, hydroponics, natural farming techniques, digital and AI technology. Participants learn about cutting-edge strategies that address existing and emerging issues and bottlenecks affecting agriculture. It will help in understanding and utilization of climate-resilient advance agricultural production systems in real world situations through knowledge sharing, expert lectures and interactive sessions.This short-term course provide learners to abreast themselves of developments in potential techniques and methods that improve productivity and sustainability, including advance agronomic and breeding techniques utilized for crop production and improvement, precision farming techniques, modern agricultural implements, protected cultivation techniques, hydroponics, natural farming techniques, digital and AI technology. Participants learn about cutting-edge strategies that address existing and emerging issues and bottlenecks affecting agriculture. It will help in understanding and utilization of climate-resilient advance agricultural production systems in real world situations through knowledge sharing, expert lectures and interactive sessions.
Outcomes
After completion of this course, the learner will be able to:
CO1: Explain the use of technologies in agriculture through enhanced understanding of potential techniques influencing agriculture production system.
CO2: Apply techniques and tools to enhance agricultural and environmental sustainability.
CO3: Analyze the impact of technology on crop production and management.
CO4: Evaluate technical and professional skills involved in utilization of advance technologies.
CO5: Demonstrate the ability to implement innovative strategies and tools to enhance quantity and quality of crop production and agricultural methods and practices.
CO6: Promote technological awareness, inter-professional collaboration and digital competence by applying innovative technological platforms to improve work efficiency and communication.
CO7: Critically reflect on challenges, limitations, and future trends of advance technologies in agriculture and allied sectors.
