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B-TECH-PROGRAMS in Manufacturing Engineering at Delhi Skill and Entrepreneurship University
Delhi, Delhi
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About the Specialization
What is Manufacturing Engineering at Delhi Skill and Entrepreneurship University Delhi?
This Manufacturing Engineering program at Champs Delhi Skill and Entrepreneurship University Okhla II Campus focuses on equipping students with advanced knowledge and practical skills for modern industrial production. It emphasizes smart manufacturing, automation, quality control, and sustainable practices relevant to India''''s burgeoning manufacturing sector, which is driven by initiatives like ''''Make in India'''' and ''''Atmanirbhar Bharat''''. The curriculum integrates traditional mechanical engineering with contemporary digital technologies.
Who Should Apply?
This program is ideal for fresh 10+2 graduates with a strong aptitude for Physics, Chemistry, and Mathematics, who aspire to build careers in product development, production, and industrial automation. It also caters to diploma holders seeking lateral entry into advanced engineering roles. Individuals interested in optimizing production processes, designing innovative manufacturing systems, and contributing to India''''s industrial growth will find this program highly rewarding and career-accelerating.
Why Choose This Course?
Graduates of this program can expect diverse career paths in Indian manufacturing, including roles as Production Engineers, Quality Control Managers, Automation Specialists, CAD/CAM Engineers, and Supply Chain Analysts. Entry-level salaries typically range from INR 3-6 LPA, growing significantly with experience. The program''''s focus on Industry 4.0 prepares students for certifications in Robotics, PLC programming, and Lean Manufacturing, enhancing their employability in top Indian companies and MNCs operating in India.
Student Success Practices
Foundation Stage
Strengthen Core Engineering Fundamentals- (Semester 1-2)
Dedicate extra time to mastering Engineering Mathematics, Physics, and Mechanics. Utilize online platforms like NPTEL (for IIT lectures), Khan Academy, and local coaching institutes for conceptual clarity. Form study groups to solve complex problems and discuss theoretical concepts, building a strong base for advanced subjects.
Tools & Resources
NPTEL (Engineering Mathematics, Physics, Mechanics courses), Khan Academy, Local study groups
Career Connection
A solid grasp of fundamentals is crucial for understanding all subsequent manufacturing engineering topics, leading to better academic performance and foundational problem-solving skills valued in all engineering roles.
Develop Hands-on Workshop Skills Early- (Semester 1-2)
Actively engage in all workshop practices (Carpentry, Fitting, Welding, Sheet Metal, Machining). Go beyond prescribed exercises; try to understand the ''''why'''' behind each process and material. Seek opportunities for extra practice or small personal projects in the college workshops if permitted. This practical exposure is invaluable.
Tools & Resources
College workshop facilities, YouTube tutorials for practical demonstrations, Workshop manuals
Career Connection
Direct practical skills are highly sought after by Indian manufacturing companies. Proficiency in basic workshop tools and processes enhances readiness for industrial training and entry-level production roles, making you a more desirable candidate.
Initiate Basic CAD/CAM Familiarity- (Semester 1-2)
While formal CAD/CAM labs might be later, start exploring basic CAD software (e.g., AutoCAD, SketchUp Free, Fusion 360 Education Version) on your own. Watch tutorials and try simple 2D/3D modeling exercises. Understanding digital design tools early aids in grasping engineering graphics and manufacturing processes better.
Tools & Resources
AutoCAD/Fusion 360 (student license), YouTube tutorials, Online CAD courses
Career Connection
Early exposure to CAD/CAM tools builds a competitive edge. It prepares students for advanced design and manufacturing roles, making them more adaptable to industry demands and technological shifts.
Intermediate Stage
Engage in Interdisciplinary Project-Based Learning- (Semester 3-5)
Collaborate with peers from Mechanical, Electronics, and Computer Science streams on small projects that combine design, automation, and basic programming. Participate in college technical fests or local competitions to apply theoretical knowledge to practical challenges, especially focusing on smart manufacturing concepts.
Tools & Resources
Arduino/Raspberry Pi kits, Basic sensor modules, Open-source CAD/CAM software, College technical clubs
Career Connection
Indian industries increasingly require engineers with interdisciplinary skills. Project experience showcases problem-solving, teamwork, and practical application, crucial for roles in automation and product development.
Seek Early Industrial Exposure and Mentorship- (Semester 3-5)
Actively pursue winter/summer internships, even short-term ones, in manufacturing companies. Attend industry seminars, workshops, and guest lectures. Network with alumni and industry professionals through LinkedIn or college events to gain insights into current manufacturing trends and career paths in India.
Tools & Resources
LinkedIn, Company career pages, College placement cell, Industry associations (e.g., CII, FICCI manufacturing forums)
Career Connection
Early exposure helps align academic learning with industry expectations, often leading to pre-placement offers or valuable professional contacts. Understanding real-world challenges improves interview performance.
Specialize in a Niche Skill (e.g., Lean, Quality, Robotics)- (Semester 3-5)
Based on electives and interest, start building expertise in a specific area like Lean Manufacturing, Quality Control (Six Sigma), or Basic Robotics/PLC programming. Pursue online certifications from platforms like Coursera or edX, or even government-backed skill development programs, to validate your skills.
Tools & Resources
Coursera/edX (for relevant courses), NPTEL (advanced courses), Local training institutes for PLC/Robotics, Relevant software trials
Career Connection
Specialized skills differentiate candidates in the job market, opening doors to specific roles like Process Improvement Engineer, Quality Assurance Engineer, or Junior Robotics Engineer in Indian manufacturing setups.
Advanced Stage
Undertake a Comprehensive Capstone Project with Industry Relevance- (Semester 6-8)
Choose a final year project that addresses a real-world manufacturing problem, ideally in collaboration with an industry partner. Focus on tangible outcomes, whether it''''s optimizing a production line, designing a novel component, or developing an automation solution. Document meticulously and present findings professionally.
Tools & Resources
Advanced simulation software (ANSYS, SolidWorks Simulation), IoT development kits, PLC/SCADA systems, Research papers, industry reports
Career Connection
A strong capstone project is a significant asset for placements in India, demonstrating your ability to apply complex engineering principles to solve practical challenges, directly relevant to R&D or advanced production roles.
Intensify Placement Preparation and Soft Skills Development- (Semester 7-8)
Actively participate in campus placement drives. Refine your resume, practice group discussions, and hone interview skills. Focus on technical aptitude, logical reasoning, and communication. Utilize DSEU''''s career services for mock interviews and resume reviews. Understand company expectations for various manufacturing roles.
Tools & Resources
DSEU Placement Cell, Online aptitude test platforms, Mock interview sessions, Professional communication workshops
Career Connection
Effective placement preparation is critical for securing desirable job offers from top manufacturing firms in India. Strong soft skills are often the deciding factor in competitive interviews.
Stay Updated with Industry 4.0 and Emerging Technologies- (Semester 6-8)
Regularly follow manufacturing news, technology blogs, and industry publications (e.g., Manufacturing Today, Machine Tools India). Explore areas like AI in manufacturing, digital twins, additive manufacturing, and sustainable production. Attend webinars and virtual conferences to understand future trends in the Indian industrial landscape.
Tools & Resources
Industry journals, Manufacturing-focused news portals, Online forums (e.g., LinkedIn groups), Technology conferences
Career Connection
Being knowledgeable about cutting-edge technologies makes you adaptable and valuable to companies embracing Industry 4.0. It positions you for roles in innovation, R&D, and strategic technology implementation, which are high-growth areas in India.
Program Structure and Curriculum
Eligibility:
- 10+2 with Physics, Chemistry, Mathematics with 50% marks in aggregate. For lateral entry: Diploma in Engineering (Manufacturing/Mechanical/Industrial/Production) with 60% marks or B.Sc. degree with Mathematics as a subject with 60% marks.
Duration: 8 semesters / 4 years
Credits: 173 Credits
Assessment: Internal: undefined, External: undefined
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| BTMG 101 | Engineering Mathematics-I | Core Theory | 4 | Calculus of one variable, Multivariable Calculus, Matrices and Linear Algebra, Differential Equations, Numerical Methods, Probability and Statistics |
| BTPH 101 | Engineering Physics | Core Theory | 4 | Optics, Quantum Mechanics, Semiconductor Physics, Laser and Fiber Optics, Electromagnetism, Solid State Physics |
| BTEG 101 | Engineering Graphics | Core Theory | 3 | Introduction to Engineering Graphics, Orthographic Projections, Isometric Projections, Sectional Views, Development of Surfaces, AutoCAD Basics |
| BTCE 101 | Fundamentals of Electrical and Electronics Engineering | Core Theory | 3 | DC and AC Circuits, Magnetic Circuits and Transformers, DC Machines, AC Machines, Basic Electronics Components, Semiconductor Devices |
| BTME 101 | Manufacturing Processes-I | Core Theory | 3 | Introduction to Manufacturing, Metal Casting Processes, Forming Processes, Welding and Joining Processes, Sheet Metal Operations, Machining Fundamentals |
| BTCS 101 | Programming for Problem Solving | Core Theory | 3 | Introduction to Programming, Control Structures, Functions and Arrays, Pointers and Strings, Structures and Unions, File Handling |
| BTPH 151 | Engineering Physics Lab | Lab | 1 | Optical experiments, Semiconductor device characteristics, Electrical measurements, Magnetic field studies, Laser beam properties |
| BTCE 151 | FEEE Lab | Lab | 1 | Basic circuit analysis, Transformer characteristics, Diode and Transistor characteristics, Logic gate verification, Motor control basics |
| BTCS 151 | Programming for Problem Solving Lab | Lab | 1 | C programming basics, Conditional statements and loops, Functions and arrays implementation, String manipulation, File I/O operations |
| BTME 151 | Workshop Practice-I | Lab | 2 | Carpentry shop, Fitting shop, Welding shop, Sheet metal shop, Foundry shop, Machine shop introduction |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| BTMG 102 | Engineering Mathematics-II | Core Theory | 4 | Complex Analysis, Laplace Transforms, Fourier Series and Transforms, Partial Differential Equations, Vector Calculus, Series Solutions of ODEs |
| BTCH 101 | Engineering Chemistry | Core Theory | 4 | Water Technology, Corrosion and its control, Fuels and Combustion, Polymers and Composites, Electrochemistry, Spectroscopic Techniques |
| BTME 102 | Engineering Mechanics | Core Theory | 3 | Statics of Particles and Rigid Bodies, Equilibrium of forces, Friction, Work, Energy and Power, Kinematics of Rigid Bodies, Dynamics of Particles and Rigid Bodies |
| BTEC 101 | Basic Electronic Engineering | Core Theory | 3 | PN Junction Diode, Bipolar Junction Transistor, Field Effect Transistors, Operational Amplifiers, Digital Logic Gates, Sequential Circuits |
| BTCS 102 | Data Structures and Algorithms | Core Theory | 3 | Introduction to Data Structures, Arrays and Linked Lists, Stacks and Queues, Trees and Graphs, Sorting Algorithms, Searching Algorithms |
| BTEC 151 | Basic Electronic Engineering Lab | Lab | 1 | Diode characteristics, Transistor biasing, Op-Amp applications, Logic gate implementation, Flip-Flop circuits |
| BTME 152 | Engineering Mechanics Lab | Lab | 1 | Force measurement, Friction experiments, Moment of inertia determination, Efficiency of simple machines, Laws of motion verification |
| BTCH 151 | Engineering Chemistry Lab | Lab | 1 | Water analysis, Fuel analysis, Viscosity measurements, Acid-base titrations, Corrosion rate determination |
| BTME 153 | Workshop Practice-II | Lab | 2 | Machine shop practices, CNC machining basics, Advanced welding techniques, Precision measurement, Assembly operations |
| BTCE 102 | Environmental Studies | Humanities/Mandatory | 1 | Natural Resources, Ecosystems, Environmental Pollution, Social Issues and Environment, Environmental Protection Acts, Sustainable Development |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| BTMG 201 | Engineering Mathematics-III | Core Theory | 4 | Probability Distributions, Statistical Inference, Testing of Hypotheses, Regression and Correlation, Numerical Integration, Finite Differences |
| BTME 201 | Thermodynamics | Core Theory | 3 | Basic Concepts and Laws of Thermodynamics, Properties of Pure Substances, First Law of Thermodynamics, Second Law of Thermodynamics, Entropy, Vapor Power Cycles |
| BTME 202 | Engineering Materials | Core Theory | 3 | Structure of Materials, Mechanical Properties of Materials, Phase Diagrams and Transformations, Heat Treatment of Steels, Non-Ferrous Metals and Alloys, Ceramics, Polymers and Composites |
| BTME 203 | Machine Drawing | Core Theory | 3 | Fundamentals of Machine Drawing, Sectional Views, Dimensioning and Tolerances, Assembly Drawing, Detail Drawing, Limits, Fits and Geometric Tolerancing |
| BTEE 201 | Analog Electronics | Core Theory | 3 | BJT Amplifiers, MOSFET Amplifiers, Feedback Amplifiers, Oscillators, Power Amplifiers, Operational Amplifier Applications |
| BTPD 201 | Professional Development | Humanities/Mandatory | 1 | Communication Skills, Teamwork and Leadership, Problem-Solving, Professional Ethics, Career Planning, Time Management |
| BTME 251 | Engineering Materials Lab | Lab | 1 | Tensile testing, Hardness testing, Impact testing, Microstructure analysis, Heat treatment experiments |
| BTME 252 | Machine Drawing Lab | Lab | 1 | Manual drafting of machine parts, CAD software for 2D drafting, Sectional views practice, Dimensioning and tolerancing exercises, Assembly drawing creation |
| BTCS 251 | Object Oriented Programming Lab | Lab | 2 | Classes and Objects, Inheritance, Polymorphism, Abstraction, Encapsulation, Exception Handling |
| BTEE 251 | Analog Electronics Lab | Lab | 1 | BJT amplifier design, MOSFET amplifier characteristics, Op-Amp based circuits, Oscillator circuit implementation, Power amplifier testing |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| BTME 204 | Solid Mechanics | Core Theory | 3 | Stress and Strain, Axial Loading, Torsion, Bending of Beams, Shear Stress, Compound Stresses and Strain Energy |
| BTME 205 | Kinematics of Machines | Core Theory | 3 | Mechanisms and Machines, Kinematic Chains and Inversions, Velocity and Acceleration Analysis, Cams and Followers, Gears and Gear Trains, Belts, Ropes and Chains |
| BTME 206 | Manufacturing Processes-II | Core Theory | 3 | Advanced Machining Processes, Abrasive Machining, Non-Traditional Machining Processes, Additive Manufacturing Introduction, Joining of Advanced Materials, Surface Finishing Processes |
| BTCS 202 | Database Management System | Core Theory | 3 | Database System Concepts, Entity-Relationship Model, Relational Model, SQL Query Language, Normalization, Transaction Processing and Concurrency Control |
| BTHU 201 | Universal Human Values | Humanities/Mandatory | 3 | Introduction to Value Education, Understanding Harmony in Self, Harmony in Family and Society, Harmony in Nature, Human Values and Professional Ethics, Role of Education in Human Values |
| BTME 253 | Solid Mechanics Lab | Lab | 1 | Tension and compression tests, Torsion test, Bending test on beams, Hardness tests, Impact tests |
| BTME 254 | Manufacturing Processes-II Lab | Lab | 2 | CNC turning and milling, EDM and ECM demonstrations, Jig and fixture design, Grinding operations, Inspection using metrology tools |
| BTCS 252 | Database Management System Lab | Lab | 1 | SQL DDL and DML commands, Data retrieval queries, Database design and implementation, PL/SQL programming, Data integrity constraints |
| BTME 255 | Computer Aided Manufacturing Lab | Lab | 2 | CAD software for product design, CAM software for tool path generation, CNC machine programming, Simulation of machining operations, Geometric modeling |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| BTME 301 | Machine Design-I | Core Theory | 3 | Introduction to Machine Design, Stress Concentration, Design for Static and Dynamic Loads, Design of Shafts and Couplings, Design of Keys and Riveted Joints, Design of Welded Joints |
| BTME 302 | Metrology and Quality Control | Core Theory | 3 | Introduction to Metrology, Linear and Angular Measurements, Measurement of Surface Finish, Statistical Quality Control, Control Charts, Sampling Inspection |
| BTME 303 | Heat and Mass Transfer | Core Theory | 3 | Conduction Heat Transfer, Convection Heat Transfer, Radiation Heat Transfer, Heat Exchangers, Mass Transfer Principles, Diffusion and Convective Mass Transfer |
| BTPE 3XX | Program Elective-I | Elective Theory | 3 | Numerical Methods (BTMG 301): Solutions of Equations, Interpolation, Numerical Differentiation and Integration, ODEs, Fluid Mechanics and Hydraulic Machines (BTME 304): Fluid Properties, Fluid Statics, Fluid Dynamics, Turbines, Pumps, Power Plant Engineering (BTME 305): Steam Power Plants, Hydro Power Plants, Nuclear Power Plants, Diesel Power Plants, Renewable Energy Systems (BTME 306): Solar Energy, Wind Energy, Geothermal Energy, Biomass Energy, Ocean Energy |
| BTPE 3YY | Program Elective-II | Elective Theory | 3 | Artificial Intelligence and Machine Learning (BTCS 301): AI Fundamentals, Machine Learning Algorithms, Supervised Learning, Unsupervised Learning, Internet of Things (BTCE 301): IoT Architecture, Sensors and Actuators, Communication Protocols, IoT Platforms, Security, Robotics (BTEE 301): Robot Kinematics, Robot Dynamics, Sensors and Actuators, Robot Programming, Robot Control, Mechatronics (BTME 307): Mechatronic Systems, Sensors, Actuators, Microcontrollers, PLC, System Integration |
| BTPD 301 | Professional Development | Humanities/Mandatory | 1 | Advanced Communication, Presentation Skills, Group Discussion Techniques, Interview Preparation, Conflict Resolution, Negotiation Skills |
| BTME 351 | Metrology and Quality Control Lab | Lab | 1 | Measurement using precision instruments, Gauge design principles, Statistical process control charts, Sampling plans implementation, Surface roughness measurement |
| BTME 352 | Heat and Mass Transfer Lab | Lab | 1 | Thermal conductivity measurement, Convective heat transfer experiments, Radiation heat transfer experiments, Heat exchanger performance analysis, Mass diffusion studies |
| BTME 353 | CAD/CAM Lab | Lab | 2 | Advanced 3D modeling, Assembly modeling, Finite element analysis basics, CNC part programming, Rapid prototyping basics |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| BTME 308 | Dynamics of Machines | Core Theory | 3 | Static and Dynamic Force Analysis, Balancing of Rotating and Reciprocating Masses, Vibrations (Free and Forced), Damping and Isolation, Gyroscopic Action, Governors and Flywheels |
| BTME 309 | Automation and Robotics in Manufacturing | Core Theory | 3 | Fundamentals of Automation, Industrial Robotics, Robot Kinematics and Dynamics, Sensors and Actuators in Automation, Programmable Logic Controllers (PLCs), Flexible Manufacturing Systems (FMS) |
| BTME 310 | Computer Aided Design and Analysis | Core Theory | 3 | Geometric Modeling, Feature-Based Modeling, Finite Element Method (FEM) Fundamentals, Stress and Deformation Analysis, Thermal Analysis, Optimization in Design |
| BTPE 3ZZ | Program Elective-III | Elective Theory | 3 | Product Design and Development (BTME 311): Product Life Cycle, Design Thinking, Concept Generation, Prototyping, Design for X, Refrigeration and Air Conditioning (BTME 312): Vapor Compression Cycle, Refrigerants, Psychrometrics, HVAC Systems, Cooling Load Calculation, Additive Manufacturing (BTME 313): AM Principles, Powder Bed Fusion, Extrusion-Based AM, Vat Polymerization, Material Considerations, Entrepreneurship and Startup Ecosystem (BTME 314): Entrepreneurial Mindset, Business Plan, Startup Funding, Marketing, Legal Aspects |
| BTME 354 | Automation and Robotics Lab | Lab | 1 | Robot programming, PLC interfacing with sensors, Industrial robot operations, Automated material handling systems, Vision systems in automation |
| BTME 355 | Manufacturing Automation Lab | Lab | 2 | CNC machine operation and programming, Fixture design and fabrication, Hydraulic and pneumatic circuits, Industrial sensor applications, Automation system integration |
| BTME 356 | Minor Project | Project | 3 | Project planning and execution, Problem identification, Design and analysis, Prototyping/simulation, Report writing and presentation |
| BTIP 301 | Industrial Training | Practical/Internship | 4 | Industry exposure, Practical skill development, Real-world problem solving, Professional networking, Industry standards and practices |
Semester 7
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| BTME 401 | Industrial Engineering | Core Theory | 3 | Work Study and Method Study, Time Study and Work Measurement, Layout Planning, Material Handling Systems, Production Planning and Control, Inventory Management |
| BTME 402 | Production and Operation Management | Core Theory | 3 | Operations Strategy, Forecasting, Capacity Planning, Aggregate Planning, Scheduling, Project Management |
| BTME 403 | Digital Manufacturing | Core Theory | 3 | Introduction to Digital Manufacturing, Virtual Manufacturing, Cyber-Physical Systems, Digital Twin, Big Data Analytics in Manufacturing, Cloud Manufacturing |
| BTPE 4XX | Program Elective-IV | Elective Theory | 3 | Advanced Materials (BTME 404): Smart Materials, Nanomaterials, Composites, Ceramics, Superalloys, Finite Element Analysis (BTME 405): FEM Fundamentals, Discretization, Shape Functions, Element Formulations, FEA Software, Micro and Nano Manufacturing (BTME 406): Micromachining, Nanofabrication, MEMS, NEMS, Surface Micro/Nano Finishing, Lean Manufacturing (BTME 407): Lean Principles, Value Stream Mapping, 5S, Kanban, JIT, Kaizen |
| BTPE 4YY | Program Elective-V | Elective Theory | 3 | Smart Manufacturing and Industry 4.0 (BTME 408): Industry 4.0 Pillars, Smart Factories, IIoT, Artificial Intelligence in Manufacturing, Supply Chain Management (BTME 409): SCM Fundamentals, Logistics, Inventory Management, Supply Chain Optimization, Global Supply Chains, Reliability and Maintenance Engineering (BTME 410): Reliability Concepts, Failure Analysis, Maintenance Strategies (TPM, RCM), Condition Monitoring, Quality Management and Control (BTME 411): Quality Management Systems (ISO 9001), Six Sigma, TQM, Quality Tools, Process Capability |
| BTHU 401 | Constitution of India | Humanities/Mandatory | 1 | Preamble and Basic Structure, Fundamental Rights and Duties, Directive Principles of State Policy, Union and State Legislature, Judiciary, Emergency Provisions |
| BTME 451 | Digital Manufacturing Lab | Lab | 1 | Simulation of manufacturing processes, Virtual factory design, Data acquisition and analysis in manufacturing, IoT device integration for production monitoring, Digital twin modeling |
| BTME 452 | Capstone Project-I | Project | 5 | Problem definition and literature review, Methodology development, Data collection and preliminary analysis, Initial design and simulation, Project report and presentation |
Semester 8
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| BTME 412 | Operations Research | Core Theory | 3 | Linear Programming, Simplex Method, Transportation and Assignment Problems, Queuing Theory, Inventory Control Models, Network Analysis (CPM/PERT) |
| BTME 413 | Value Engineering | Core Theory | 3 | Value Analysis and Value Engineering, Function Analysis System Technique (FAST), Cost Analysis, Creativity Techniques, Implementation of VE, Case Studies |
| BTPE 4ZZ | Program Elective-VI | Elective Theory | 3 | Non-Conventional Machining (BTME 414): EDM, ECM, LBM, AJM, USM, WJM principles and applications, Ergonomics and Human Factors Engineering (BTME 415): Workstation Design, Anthropometry, Human-Machine Interface, Safety, Cognitive Ergonomics, Artificial Intelligence in Manufacturing (BTME 416): AI in Production Planning, Predictive Maintenance, Quality Control, Robotics, Supply Chain, Industrial Safety and Health Management (BTME 417): Occupational Hazards, Safety Audits, Risk Assessment, First Aid, Legal Aspects |
| BTME 453 | Project Report and Viva-Voce (Capstone Project-II) | Project | 4 | Advanced design and development, Experimental validation/simulations, Comprehensive data analysis, Final report writing, Oral presentation and defense |
| BTME 454 | Comprehensive Viva-Voce | Assessment | 1 | Overall subject knowledge assessment, Application of engineering principles, Problem-solving abilities, Communication and presentation skills, Readiness for industry |
