B.Tech in Mechanical Engineering with specialisation in Smart Manufacturing and Automation (L&T EduTech)

Smart Manufacturing is the digitization of the manufacturing sector through the use of technologies such as IoT, cyber-physical systems, big data, AI, and cloud computing. It’s a crucial part of the mechanical engineering course syllabus aligned with Industry 4.0 standards.

Students will gain hands-on experience in manufacturing processes, automation systems, and real-time problem-solving. They will also earn certifications from industry leaders like Trans Neuron and Hitachi Vantara, making them highly employable in the mechanical engineering course domain.

In the rapidly evolving changing industry times of today, Smart Manufacturing is no longer an option—it is necessary. As more and more organizations are migrating to automated, data-driven, and smart-based systems, having appropriate experts with relevant expertise in b tech mechanical engineering as well as smart factory technologies has become essential. The new systems make it possible for companies to experience higher operating efficiency, better product quality, as well as creative production. Smart manufacturing enables companies to compete on the global market by synchronizing the production lines, reducing wastage, and providing timely decisions through the integration of AI, IoT, and cyber-physical systems.

Smart Manufacturing is made possible through a well-balanced combination of theoretical education and practical exposure. The course covers extensive classroom training in automation systems, robotics, control engineering, and data analytics, as per the current mechanical engineering course syllabus. These are augmented through simulation-based lab work, live projects, and experiential learning exposure in state-of-the-art facilities. Students receive exposure to IoT platforms, robotics lab platforms, hydraulic and pneumatic platforms, and real-time monitoring tools. Through workshops, internships, and mentorship with industry, learners develop the ability to design and run smart, connected factories—future-proofing them for industrial innovation.

This specialisation fills the gap between traditional mechanical engineering practices and contemporary digital automation. By educating students in intelligent systems, predictive maintenance, autonomous manufacturing, and cloud-integrated solutions, the programme enables industries to transition rapidly to market needs, personalize production lines, and maximize the use of resources. It prepares future engineers with the capability to make data-driven, informed decisions, improve safety measures, and minimize lead times. With industries seeking more efficient, agile, and sustainable operations, the graduates of this programme are major contributors to innovation and productivity in sectors such as automotive, aerospace, FMCG, and industrial automation.

Smart Manufacturing and Automation graduates have a diverse and future-oriented career progression. They are ideally placed for roles as Automation Engineer, Smart Factory Consultant, Robotics Specialist, Design Engineer, Data Analyst, and Industrial Systems Integrator. They also have scope in R&D, quality inspection, digital twin development, and supply chain optimization. Along with employment, students are encouraged and empowered to pursue entrepreneurial ventures, especially in newer sectors like green manufacturing, industrial IoT, and sustainable production. The entire training, industry projects, and exposure offered over the duration of the programme equip graduates to deliver concrete value to industries of multiple industries, domestic and global.

A BTech in Smart Manufacturing is an undergraduate engineering degree which provides knowledge and skills to leverage advanced manufacturing technologies such as IoT, AI, robotics, and automation in the production processes of manufacturing to improve efficiency, quality, and productivity.

Smart Manufacturing Engineering and Automation is a combination of mechanical engineering aspects with digital technologies in manufacturing, which include the Internet of Things (IoT), and cyber-physical systems and robotics, to create smart and interconnected production systems.

The scope of Smart Manufacturing Engineering is extensive such as automation engineering courses, embedded systems automotive applications, and IoT in the manufacturing industry. Graduates in this field have the potential to get a job in smart factories, automotive production lines, aerospace manufacturing and in other areas that are driven by Industry 4.0 anywhere in the world.

B Tech in Manufacturing Technology gives students the skills they need in regards to manufacturing systems, IoT and manufacturing integration, computer-aided design, and process optimization in order to prepare students for a career working in automated and smart production spaces.

Some advantages of smart manufacturing are improved operational efficiency, reduced costs of manufacturing, improved quality of the product, the capability of monitoring your processes in and with IoT in manufacturing, and improved decision making through data analytics, or automation.

The future of smart manufacturing will look like the growing integration of embedded systems automotive technologies, AI-driven automation, and Industry 4.0, maintaining capable, adaptable, sustainable and intelligent manufacturing ecosystems around the world.

IoT in manufacturing connects machinery and sensors to gather real-time data, improving predictive maintenance, quality control, and automation engineering efficiency, revolutionizing traditional manufacturing systems.

It is the move towards digitization of the manufacturing sector which will involve comprehensive interaction/interfacing between various modern technology such as Internet of Things (IoT), cyber-physical systems, big data, advanced analytics, human-machine interfaces, cloud computing in real-time to form the fourth industrial revolution.

Students will be trained in manufacturing processes, manufacturing systems, systems engineering, Industrial Automation and basic shop floor communications. Experiential learning approach will be followed and students will be gaining hands-on experience in many spheres of technology related to smart manufacturing. The department has collaborated with Trans Neuron Technologies for Industrial Automation certification Program for smart manufacturing students. Total 120 hrs teaching modules including classroom session and programming lab session have been delivered by their Subject Matter Experts (SMEs). Hitachi Vantara will provide Industry Connect module certification course to final yr students.

The emergence of this new era of embedded technology means that information on how these things are integrated together is available at your fingertips. In the backdrop of huge operation in manufacturing sector, this philosophy of smart manufacturing is going to help immensely in taking quick and accurate decisions so as to save time as well as money because it involves interactive approach of different disciplines like data analytics, artificial intelligence, machine learning, cloud computing etc.

Smart manufacturing is more focused on manufacturing processes and integrating IoT technologies to help create smart, connected factories.

In the present time, with the ever-increasing consumption of consumer goods, the demand for customized goods is increasing exponentially and to meet this situation, manufacturers have to respond quickly to these changing market conditions in the most efficient way. Having a setup of smart manufacturing in the factory will be an enabler to achieve this aim.

Internships and industry training are integral parts of the course, in line with the curriculum framework.

Yes, the department is offering an ITR (Introduction to Research Course) course in the initial years of the program and the department also has area specific research groups.