M.Tech in Agricultural Engineering

Vision

To develop future-ready agricultural engineers who leverage advanced technologies, data-driven insights, and sustainable practices to enhance agricultural productivity, ensure climate resilience, and implement energy-efficient, innovative farming systems.

Mission

  • Deliver advanced interdisciplinary knowledge across farm machinery, irrigation, soil & water conservation, food processing, and renewable energy.
  • Integrate emerging technologies including precision agriculture, IoT & smart systems, automation, drones/UAVs, Remote Sensing & GIS, AI/ML, Big Data Analytics, climate-smart practices, and sustainable energy solutions.
  • Foster research, innovation, and industry collaboration to address real-world agricultural challenges and promote food security, resource efficiency, and climate-smart practices.
  • Provide hands-on learning through projects, field experiments, internships, and partnerships with agri-tech leaders.
  • Prepare graduates with professional ethics, leadership, and lifelong learning skills for careers in research, industry, government, and entrepreneurship.

M.Tech in Agricultural Engineering

M.Tech in Agricultural Engineering
Educational Objectives, Specific Outcomes, and Programme Outcomes

Programme Educational Objectives (PEOs)

The program equips graduates to

  • Advanced Engineering Expertise:

    Apply engineering knowledge to design, optimize, and manage complex agricultural systems and technologies efficiently and sustainably.

  • Technology-Driven Innovation

    Lead research and development using smart systems, data analytics, geospatial tools, and automation to solve agricultural challenges.

  • Professional Leadership & Collaboration

    Demonstrate professional competence, ethical conduct, and teamwork in research, industry, public sector, and entrepreneurial ventures.

  • Sustainable Impact & Lifelong Learning:

    Contribute to sustainable agriculture and rural development while continuously upgrading skills in emerging technologies.

After completing the program, students will be able to:

  • Holistic Agricultural Solutions:

    Design, analyze, and implement efficient agricultural systems, machinery, irrigation, soil & water management, processing, and renewable energy solutions.

  • Smart & Data-Driven Agriculture

    Utilize precision agriculture, IoT-enabled smart systems, automation, drones/UAVs, Remote Sensing & GIS, AI/ML, and Big Data Analytics for optimized decision-making and operations.

  • Research & Innovation for Sustainability

    Conduct innovative research to enhance productivity, reduce environmental impact, and drive sustainable agricultural development.

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