GENERAL INFORMATION

• Introduction
• Aim
• Objectives
• Location
• Eligibility of Students for Admission
• Admission Procedure
• Syllabus for Admission Test
• Final Selection
• Medical Checkup

The entrance test will be conducted on the basis of the syllabus of Mathematics, Physics, Chemistry and English (Comprehension and Functional) subjects of HSC examinations of all Secondary and Higher Secondary Certificate Boards. Students will be selected strictly based on the prepared merit list, which will be published on the university's website. In the event of a tie, the position will be determined based on merit based on the grades obtained in the entrance exam in mathematics, physics, chemistry or English.

If any candidate is deemed by the medical authority to be unfit to study in the University due to critical/infectious/mental illness as shown in the University's medical policy, he/she will be declared ineligible for admission.

THE DEPARTMENT OF INDUSTRIAL AND PRODUCTION

Introduction

Laboratory Facilities of the Department

RULES AND REGULATIONS FOR UNDERGRADUATE PROGRAMME

• Number of Terms in a Year (Level)
• Duration of Terms
• Course Pattern and Credit Structure
• Course Designation System
• Assignment of Credits
• Type of Courses
• The Grading System
• The Letter Grade
• Distribution of Marks
• Calculation of GPA
• Minimum Earned Credit and GPA Requirement for Obtaining Degree
• Attendance
• Teacher- Student Interactions
• Conduct and Discipline
• Introduction
• Core Courses
• List of Core Courses – IPE
• List of Core Courses – Arts and Science
• List of Core Courses -ME
• List of Core Courses – CSE
• List of Core Courses –EEE
• List of Prerequisite Courses
• Optional Courses
• List of Optional Courses-I
• List of Optional Courses-II
• Term wise Distribution of Courses
• Level-1 Term-I
• Level-1 Term-II
• Level-2 Term-I
• Level-2 Term-II
• Level-3 Term-I
• Level-3 Term-II
• Level-4 Term-I
• Level-4 Term-II
• Summary of Credit Hours Requirements

Core subjects: In each discipline, a number of subjects are identified as core subjects, which form the core of the relevant bachelor's degree program. Prerequisite courses: Some of the core courses are identified as prerequisite courses for a specific course. Assessment in laboratory subjects is done by assessing the student's performance in class work, the set test, viva-voce, report writing and the final quiz.

A student's performance is measured by the number of satisfactorily completed credit points and the weighted average of the grades achieved. The number of class tests/quizzes of the course is n+1, where n is the number of course credits. Performance evaluation in the class test/quiz will be based on the best n class tests/quiz.

Cumulative Grade Point Average (CGPA) is the weighted average of the grade point average obtained over all terms passed/completed by a student. Heads of departments, the Provost, the Adviser of Student Welfare (ASW) and the Dean may address students at several intervals. The list of courses offered to Industrial and Manufacturing Engineering (IPE) undergraduate students are categorized into core courses and optional subjects.

Some of the core courses are offered by the Department of IPE and some by other departments.

DETAIL OUTLINE OF UNDERGRADUATE COURSES

Term wise Detail Outline of Courses

• Level-1 Term-I
• Level-1 Term-II
• Level-2 Term-I
• Level-2 Term-II
• Level-3 Term-I
• Level-3 Term-II
• Level-4 Term-I
• Level-4 Term-II

Different machining processes: Various machining, Cutting tools and their analyzes in turning, Milling, Drilling, Forming, Grinding, Grinding, etc. Signal conditioning techniques through Wheatstone bridge, Operational amplifiers, Digital to analog converter, Analog to digital converter etc. .; Actuators-Hydraulic, Pneumatic, Electric etc.; Programmable Logic Controller Components, Inputs, Outputs and Programming with Ladder Diagram; General measurement systems; Modeling of systems; Dynamic characteristics of open and closed loop systems. Beams: shear force and bending moment diagrams; Various types of stresses in beams; Bend formula; Deflection of beams: Integration and area moment methods; Introduction to reinforced concrete beams and slabs.

Design of machine parts for strength, deflection, stiffness, fatigue, impact, etc.; Design of shafts, keys, power screws, couplings, couplings and brakes. Duality: Definition of the dual problem, Solution of the dual problem, Relationship between primal and dual, Objective values, Optimal dual solution, Economic interpretation of the dual problem, Revised simplex method. Solution of non-linear algebraic: erative method, Regula falsi method, Newton method, Graphical presentation and importance of above methods; Initial approximation and convergence criteria, checking for convergence.

Solving partial differential equations (PDE): Introduction to partial differential equations, geometric interpretation, definition of elliptic, parabolic and hyperbolic PDF and their solution by finite difference technique, D'Alembert's solution, Crank-Nicholson method, Iterative method. Dimensional Analysis and Similarity; Basic relationship between compressible flow, real fluid flow; Friction loss in pipes and fittings, Introduction to boundary layer theory, Introduction to open channel flow. Basic material handling topics: Analysis of material handling problems, Classification of materials – Unit load, Bulk loads, Examination of material handling systems and their effectiveness.

Basic concepts of supply chain management; Customer service management; Order fulfillment process; Supply chain planning and assurance; Procurement section - suppliers, optimal procurement policy, etc.; Distribution strategies - centralized vs. strategic alliances - supplier relationships, third-party logistics, distributor integration, etc.; Supply chain implementation - GSCF and SCOR framework; Supply chain performance matrices; Global issues in decisions - planning under uncertainty, real-time monitoring and control, integrated planning, etc. Principles of contract law; The right for commercial companies: Law on the formation, establishment, management and closure of companies; Introduction to industrial law; Certifying inspectors and surgeons, Health and hygiene, Safety, Welfare, Working hours of adults, Youth employment, Holidays and holidays with pay, Fines and enforcement procedure, Payment of wages law, Shops and establishment law.

Types of information; Management and information requirements; Quality of information; The role, task, attribute and tools used by a systems analyst; system development life cycle; Collection of information; Requirements specification and planning; Feasibility analysis; Data flow diagrams; process specifications; Decision tables; Cost-benefit analysis; Introduction to the data model; Relational database design; Normal shapes; Queries: Basic Relational Algebra and SQL; Data entry methods; File Formatting;. Database Management Systems - Introduction, advantages, database administration, database search strategies; Designing results; Introduction to electronic business; Control, security and ethics in system design; Selection of computer hardware and software; Network and telecommunications management issues; ICT Regulations. Simulation of industrial problems using various software (eg MS excel, arena etc.) for both manufacturing and service activities.

Detail Outline ofOptional Courses

Technical graphics and differential geometry in CAD; Geometric modelling, Application of geometric design in conveyor systems, Plate design; Design of pump and impeller surfaces, Practice on CAD. Computer Aided Manufacturing (CAM): CAM Basic Concepts; Trends in the development of numerical control (NC) machines; Principles of NC; Types of NC systems, Types of NC machines, CNC, DNC; CNC part programming; CNC part programming using CAM software, interfaces, CAM software with CNC machines, CAPP (Computer Aided Process Planning). Surface Engineering and High Speed ​​Grinding: Application of Advanced Coatings in High Performance Cutting Tools and High Performance Super Abrasive Grinding Wheels.

Rapid prototyping Need for rapid prototyping, Basic principles and benefits of RP, Classifications of different RP techniques with examples, Introduction to three representative RP techniques: Fused deposition modeling. MEMS: Introduction, History, Development and need for microelectromechanical systems, IC manufacturing processes used for MEMS, MEMS sensors and actuators: Mechanical process techniques and process models for micromachining, Manufacturing processes and design of the process sequences;. Agile prototyping; Reliability and process control of microproduction processes; Introduction to nanotechnology processes.

All Technologies and Expert System: Components and Functions, Knowledge System, Knowledge Engineering, Domain Expert Knowledge Engineering Language, Artificial Neural Network and Fuzz Logic Expert Manufacturing System: CIM, Manufacturing Communication System and Intelligent Manufacturing, Flexible Manufacturing System, Case Study of EMS. Adaptive control of complex process control systems such as in automated machining and welding processes, energy-based systems and processes. Nonlinear control and related topics using neuro, fuzzy or genetic algorithms, case studies and descriptions of automated industrial process control applications including advanced topics in processes for the high-tech industry.

Product data management: Direct translation between CAD systems; CAD/CAM data exchange Manufacturing process system: Flexible production cells; Planning and setting up a flexible production system; Agile production; lean production system; Reconfigurable production system. Process planning: Process design and planning; computer-aided process planning; Group technology and cellular production; Concurrent Engineering. Marketing concepts: Market orientation, Relationship marketing, Market segmentation and measurement, Buyer behavior; Marketing planning and budgeting.

Introduction to technology; Growth of technology; Types and components of technology; Technology and the environment; Technological forecasting; Technology assessment, technology transfer;. Small Business: Nature and Meaning, Ideas Generation Methods, Creative Process, Design and Product Development; Merger, acquisition and joint venture; Business Plan; Marketing Plan; Market research; Financial plan; Organizational and personnel plan; Production plan;. definition of TQM; The beginnings and growth of TQM; Benefits of TQM; TQM philosophies; Quality circle approach, Deming's approach, Juran's approach.