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About Us

Welcome to a legacy, a vision, and the future

Step into India’s pioneering realm where tradition meets technology – welcome to the First Center of Excellence in Digital Manufacturing and Robotic Automation. In this convergence of heritage and innovation, we blend the artistry of our ancestors with cutting-edge advancements. Embracing digital manufacturing, we propel into a future where craftsmanship marries precision.

Our sanctuary of progress, spanning a total built-up area of 4000 sq. ft., finds its dedicated space within Vidya Pratishthan’s premises. Within these walls, we champion the fusion of heritage and modernity. Robotic automation, the heartbeat of modernity, resonates with the soul of India’s rich legacy. Join us in this symphony of progress, where past and future coexist harmoniously, defining a new era in manufacturing excellence.

Join us in Shaping the Future of Manufacturing.

Aims and Objectives:

  • Skill Development:
    • Provide comprehensive training programs to enhance the practical skills of students and industry professionals in digital manufacturing and robotic automation.
    • Foster hands-on learning experiences to bridge the gap between theoretical knowledge and real-world applications.
  • Research and Innovation:
    • Conduct impactful research projects in collaboration with industry partners to contribute to advancements in digital manufacturing technologies.
    • Encourage innovation by creating a conducive environment for students and professionals to explore and develop novel solutions.
  • Industry-Academia Collaboration:
    • Establish strong collaborations with industries to facilitate knowledge exchange, industry exposure, and mutual learning.
    • Engage in joint projects, internships, and initiatives that align with the evolving needs of the manufacturing sector.
  • Knowledge Dissemination:
    • Disseminate knowledge through various channels, including workshops, seminars, and publications, to keep stakeholders informed about the latest developments in the field.
    • Share research findings and best practices to contribute to the overall knowledge pool in digital manufacturing and robotic automation.
  • Societal Impact:
    • Leverage research and technological advancements for positive societal impact, addressing challenges in healthcare, sustainability, and other relevant areas.
    • Encourage students and professionals to use their skills for the betterment of society through innovative projects and applications.
  • Hands-On Experience:
    • Provide hands-on experience through state-of-the-art laboratories equipped with robotics, smart factory technologies, hydraulic/pneumatic systems, PLC HMI, simulation tools, 3D printing, and CNC/VMC machining centers.
    • Enable students to apply theoretical knowledge in practical scenarios, preparing them for real-world challenges.

Infrastructure:

  • Dedicated space of 4000 sq. ft. within Vidya Pratishthan’s premises, housed in the new building of Vidya Pratishthan’s College of Engineering and Technology, Baramati.
  • These aims and objectives reflect the center’s commitment to fostering a holistic learning environment, promoting collaboration between academia and industry, and contributing to the advancements in digital manufacturing and robotic automation.

Team

Our dedicated team, comprising experienced educators, industry professionals, and visionaries, forms the backbone of our center. With a passion for excellence and a commitment to nurturing talent, our team strives to provide a dynamic and enriching learning environment.

Trainers

Our trainers bring a wealth of industry experience and technical knowledge to the table. With a focus on practical applications, our trainers ensure that students receive hands-on experience and are well-prepared to meet the demands of the industry.

Training

We offer a range of training programs designed to bridge the gap between academia and industry needs. Our training modules cover key areas such as digital manufacturing, robotic automation, artificial intelligence, and more. Through hands-on sessions and real-world projects, we prepare students for the challenges and opportunities in the manufacturing landscape.

Types of Training
  • Digital Manufacturing: Explore advanced technologies like 3D modeling, simulation, and data analytics to optimize manufacturing processes.
  • Robotic Automation: Learn the integration of automated machines and robots to enhance precision, speed, and consistency in manufacturing.
  • Artificial Intelligence: Understand how AI technologies contribute to the evolution of manufacturing processes and decision-making.
  • Industry 4.0 Relevant Knowledge: Gain insights into the latest industry trends, technologies, and best practices shaping the fourth industrial revolution.

Join us at the Center of Excellence as we strive to empower the next generation of professionals with the skills and knowledge necessary to thrive in the digital era of manufacturing.

Benefits to Students:

  • Hands-On Learning: Students get hands-on experience with cutting-edge technology, preparing them for practical challenges in the industry.
  • Industry Connections: Industry collaborations and projects help students build professional networks and gain exposure to potential employers.
  • Enhanced Employability: Graduates from a CoE have a competitive edge in the job market, as they possess industry-relevant skills and knowledge.
  • Research Opportunities: Students interested in research can explore innovative ideas and contribute to the advancement of the field.
  • Problem-Solving Skills: Exposure to real-world scenarios fosters critical thinking and problem-solving abilities.
  • Holistic Development: The CoE nurtures both technical and soft skills, making students well-rounded professionals.
  • Career Advancement: Skill development programs allow working professionals to upskill and advance in their careers.

Skill Enhancements for Students:

To excel in Digital Manufacturing, Digital Twins, Robotics, and Manufacturing Automation, students should consider the following skill enhancements:

  • Programming and Coding: Knowledge of programming languages such as Python, C++, or Java is crucial for controlling automated systems and robots.
  • Data Analytics: Understanding data analysis and interpretation helps in optimizing manufacturing processes based on the insights gained from digital systems.
  • Simulation and Modeling: Proficiency in using simulation tools and 3D modeling software enables students to create and test virtual prototypes efficiently.
  • IoT and Connectivity: Familiarity with the Internet of Things (IoT) and connectivity concepts is essential for implementing Digital Twins and smart manufacturing solutions.
  • Communication and Collaboration: Strong interpersonal skills are vital for working in multidisciplinary teams and collaborating with engineers, designers, and data scientists.