India has the potential to become the next manufacturing hub.

The concept of the Industry 4.0 revolution is set to enter India’s manufacturing society through the advancement of IoT, Cyber-physical systems, Big data analytics, and other related key technologies. On the other side, Industry 4.0 requires a strong base of enterprise asset management for its successful implementation. The traditional knowledge and conventional skill sets do not fit into the scope of Industry 4.0. Altogether, the modern manufacturing system is experiencing a paradigm shift, and academia has to cope with this dynamically changing industrial environment.

mtech-advanced-manufacturing

Advanced Manufacturing Systems (AMS) – a PG program offered by the School of Mechanical Engineering has the ingredients to equip students to meet the demanding expectations of the emerging industry 4.0 scenario. The school witnesses that new recruits who can apply theoretical knowledge to real industrial problems fare better in their careers in the upcoming industrial scenario. Accordingly, in consultation with experts from industry and institutes of higher learning, has developed an extensive practice-based curriculum with courses interwoven around two niche areas: Product Lifecycle Management (PLM) and Enterprise Resource Planning (ERP). All courses have immersive learning experience components for students to get ‘industry-like exposure’. The lead organizations: Dassault Systemes Foundation, 3D PLM, EDS Technologies, Intelizign, VedhaSoft Technology – a development partner to SAP India and other leading industries and organizations are actively and continuously associated with the University for upgrading the curriculum, training the students and faculty as per today’s industrial requirements. Industry partners are also part of the course delivery and assessment process.

Course Curriculum
Sl. No. Course L-T-P Credits Contact Hours ISA ESA Total Exam Duration
1 PLM Fundamentals 2-0-0 2 02 50 50 100 3 hours
2 Engineering Data Management 3-0-0 3 03 50 50 100 3 hours
3 Product Design and Development 3-0-0 3 03 50 50 100 3 hours
4 Enterprise Resource Planning – I 3-0-0 3 03 50 50 100 3 hours
5 Elective-I 3-0-0 3 03 50 50 100 3 hours
6 Design for Additive Manufacturing 3-0-0 3 03 50 50 100 3 hours
7 Industrial Robotics 3-0-0 3 03 50 50 100 3 hours
8 Plant Layout and Work Flow Management 3-0-0 3 03 50 50 100 3 hours
9 Supply Chain Management 3-0-0 3 03 50 50 100 3 hours
10 Collaborative Design-Modeling Lab 0-0-5 5 10 80 20 100 2 hours
11 PLM Functional Lab 0-0-3 3 06 80 20 100 2 hours
12 ERP Functional Lab 0-0-3 3 06 80 20 100 2 hours
TOTAL   14-0-11 25 36        

Note: L: Lecture T: Tutorials, P: Practical, ISA: In Semester Assessment, ESA: End Semester Assessment, PJ-Project, PC-Programme Core, PE-Programme Elective

No Course L-T-P Credits Contact Hours ISA ESA Total Exam Duration
1 PLM Advanced 2-0-0 2 02 50 50 100 3 hours
2 Enterprise Resource Planning – II 3-0-0 3 03 50 50 100 3 hours
3 Project Feasibility and Analysis 3-0-0 4 05 50 50 100 3 hours
4 Research Methodology 2-1-0 3 04 100 100
5 Elective-II 3-0-0 3 03 50 50 100 3 hours
6 Additive Manufacturing 3-0-0 3 03 50 50 100 3 hours
6 Manufacturing Systems and Automation 3-0-0 3 03 50 50 100 3 hours
7 Manufacturing Execution System 3-0-0 3 03 50 50 100 3 hours
8 Robust Design Optimization 3-0-0 3 03 50 50 100 3 hours
9 PLM Technical Lab 0-0-2 2 04 80 20 100 2 hours
10 ERP Technical Lab 0-0-2 2 04 80 20 100 2 hours
11 Product Automation Lab 0-0-3 3 06 80 20 100 2 hours
12 Mini Project 0-0-3 3 06 50 50 100 2 hours
TOTAL   14-0-11 25 36        

Note: L: Lecture T: Tutorials, P: Practical, ISA: In Semester Assessment, ESA: End Semester Assessment, PJ-Project, PC-Programme Core, PE-Programme Elective

No Course L-T-P Credits Contact Hours ISA ESA Total Exam Duration
1 Industrial Training/Mini Project 0-0-10 10 10 50 50 100 2 hours
2 Project Work Phase I 0-0-8 08 08 50 50 100 2 hours
TOTAL   0-0-18 18 54        

Note: L: Lecture T: Tutorials, P: Practical, ISA: In Semester Assessment, ESA: End Semester Assessment,PJ-Project, PC – Programme Core, PE – Programme Elective

Industrial Training: The student shall undergo industrial training for a period of 08 weeks

Preliminary Report Submission and Evaluation after 8th week of Industrial training to be carried out by the Joint evaluation by Internal Guide of the University and Industry mentor for 50 marks.

Final Report Submission and Evaluation after 9th week of Industrial training to be carried out by the Internal Guide of the university and a senior faculty of School/ External examiner.

Project Phase I: Problem formulation and submission of Synopsis within 10 weeks from the commencement of 3rd semester in consultation with Guide of Industry or internal guide from University, which shall be evaluated for 50 marks by the committee constituted by the Head of the School/Department comprising the guide, senior faculty of the department with Head as Chairman. Design methodology and Solution model need to be completed by 12 weeks and shall be evaluated by guide and external examiner with senior faculty / Head as chairman for 50 marks.

Project Phase I and Phase II must be a Research Project Mini Project is independent of Project. Evaluation of ISA is based on Rubrics.

No Course L-T-P Credits Contact Hours ISA ESA Total Exam Duration
1 Project Work Phase II 0-0-20 20 40 50 50 100 2 hours
TOTAL   0-0-20 20 40        

Note: L: Lecture T: Tutorials, P: Practical, ISA: In Semester Assessment, ESA: End Semester Assessment, PJ-Project, PC-Programme Core, PE-Programme Elective

Project Work Phase I and Phase II must be a Research Project

Evaluation of ISA is based on Rubrics.

 
Programme Educational Objectives (PEOs)

Graduates will demonstrate technical competence in design of products, processes and systems to address identified problems through focused research directed by guiding principles of technical documentation and evaluation with due consideration to sustainability principles incorporating modern computing tools.

Graduates will be competent as leaders committed to strive towards attainment of professional and organizational goals with due adherence to professional ethics team expectations and sensitivities of cultural diversity.

Graduates will practice of engineering profession in corporate and governmental settings to meet prevailing stake holder needs, thereby contributing to societal development.

Graduates will get updated to actively adopt new professional development through suitable application of domain knowledge and compete for new career openings evolving in the ever-changing global enterprises.

Programme Outcomes (POs)
  • Research Skills

    An ability to independently carry out research /investigation and development work to solve practical problems.

  • Communication

    An ability to write and present a substantial technical report/document.

  • Scholarship of Knowledge

    Students should be able to demonstrate a degree of mastery over the area as per the specialization of the program. The mastery should be at a level higher than the requirements in the appropriate bachelor program

  • Project Management and Finance

    Ability to plan and execute projects considering economical and financial factors

  • Modern Tool Usage

    Ability to use and develop modern tools in modelling, simulation and analysis of manufacturing/ management related problems

  • Eligibility Criteria

    • BE ( Mechanical Engineering, Industrial and Production Engineering, Automobile Engineering)
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