LOVE - NIT Calicut

Exercises: Multi-start thread; Square thread; Eccentric turning; Exercise on limits
and fits; Internal thread; Spur gear and; Helical gear by simple and differential ......
membership functions - fuzzification and defuzzification methods - fuzzy
controllers - Mamdani and Sugeno types - design parameters - choice of
membership ...

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National Institute of Technology Calicut Curricula, Scheme of Examinations & Syllabi for Semesters V to VIII of
B.Tech. Degree Programme in Mechanical Engineering with effect from
Academic Year 2000-2001 FIFTH SEMESTER |Code |Subject |Hours/Week|Sessiona|University |
| | | |l Marks |Examination|
| | |L |T |P/D| |Hrs|Marks |
|ME2K 501 |Software Engineering |3 |1 |- |50 |3 |100 |
|ME2K 502 |Dynamics of Machinery |3 |1 |- |50 |3 |100 |
|ME2K 503 |Advanced Mechanics of |3 |1 |- |50 |3 |100 |
| |Fluids | | | | | | |
|ME2K 504 |Heat & Mass Transfer |3 |1 |- |50 |3 |100 |
|ME2K 505 |Linear System Analysis |3 |1 |- |50 |3 |100 |
|ME2K 506 |Elective I |3 |1 |- |50 |3 |100 |
|ME2K |Heat Transfer Lab |- |- |3 |50 |3 |100 |
|507(P) | | | | | | | |
|ME2K |Production Engineering |- |- |3 |50 |3 |100 |
|508(P) |Lab II | | | | | | |
|TOTAL |18|6 |6 |400 |- |800 | Elective I
ME2K 506A - Numerical Analysis
ME2K 506B - Composite Materials
ME2K 506C - Multiphase Flow
ME2K 506D - Finite Element methods
ME2K 506E - Object Oriented Programming
ME2K 506F - Marketing Management
ME2K 506G - English Language & Literature SIXTH SEMESTER |Code |Subject |Hours/Week|Sessiona|University |
| | | |l Marks |Examination|
| | |L |T |P/D| |Hrs|Marks |
|ME2K 601 |Machine Vibrations & |3 |1 |- |50 |3 |100 |
| |Industrial Noise Control| | | | | | |
|ME2K 602 |Operations Research |3 |1 |- |50 |3 |100 |
|ME2K 603 |Metal Casting & Joining |3 |1 |- |50 |3 |100 |
|ME2K 604 |Thermal Engineering I |3 |1 |- |50 |3 |100 |
|ME2K 605 |Machine Design I |1 |- |3 |50 |3 |100 |
|ME2K 606 |Elective II |3 |1 |- |50 |3 |100 |
|ME2K |Thermal Engineering Lab |- |- |3 |50 |3 |100 |
|607(P) | | | | | | | |
|ME2K |Mini Project |- |- |3 |50 |3 |100 |
|608(P) | | | | | | | |
|TOTAL |16|5 |9 |400 |- |800 | Elective II
ME2K 606A - Optimisation Techniques
ME2K 606B - Mechatronics
ME2K 606C - Fracture Mechanics
ME2K 606D - Instrumentation Theory & Control
ME2K 606E - Random Vibrations
ME2K 606F - Introduction to Social Sciences
ME2K 606G - Flexible Manufacturing Systems
SEVENTH SEMESTER |Code |Subject |Hours/Week|Sessiona|University |
| | | |l Marks |Examination|
| | |L |T |P/D| |Hrs|Marks |
|ME2K 701 |Economics |3 |1 |- |50 |3 |100 |
|ME2K 702 |Thermal Engineering II |3 |1 |- |50 |3 |100 |
|ME2K 703 |Industrial Management |3 |1 |- |50 |3 |100 |
|ME2K 704 |Metal Forming |3 |1 |- |50 |3 |100 |
|ME2K 705 |Elective III |3 |1 |- |50 |3 |100 |
|ME2K |Instrumentation Lab |- |- |3 |50 |3 |100 |
|706(P) | | | | | | | |
|ME2K |Seminar |- |- |3 |50 |- |- |
|707(P) | | | | | | | |
|ME2K |Project |- |- |4 |50 |- |- |
|708(P) | | | | | | | |
|TOTAL |15|5 |10 |400 |- |600 | Elective III
ME2K 705A - Computational Fluid Mechanics
ME2K 705B - Industrial Psychology
ME2K 705C - Artificial Intelligence & Expert Systems
ME2K 705D - Manufacturing Processes of Nonmetals
ME2K 705E - Inventory & Supply Chain Management
ME2K 705F - Entrepreneurship
ME2K 705G - Nonlinear Dynamics & Chaos
ME2K 705H - Nuclear Engineering EIGHTH SEMESTER |Code |Subject |Hours/Week|Sessiona|University |
| | | |l Marks |Examination|
| | |L |T |P/D| |Hrs|Marks |
|ME2K 801 |Operations Management |3 |1 |- |50 |3 |100 |
|ME2K 802 |Thermal Engineering III |3 |1 |- |50 |3 |100 |
|ME2K 803 |Manufacturing Science & |3 |1 |- |50 |3 |100 |
| |Technology | | | | | | |
|ME2K 804 |Machine Design II |1 |- |3 |50 |3 |100 |
|ME2K 805 |Elective IV |3 |1 |- |50 |3 |100 |
|ME2K |CAD/CAM Lab |- |- |3 |50 |3 |100 |
|806(P) | | | | | | | |
|ME2K |Project |- |- |7 |100 |- |- |
|807(P) | | | | | | | |
|ME2K |Viva Voce |- |- |- |- |- |100 |
|808(P) | | | | | | | |
|TOTAL |13|4 |13 |400 |- |700 |
|Aggregate marks for 8 semesters = | | | |3000 | |5300 |
|8300 | | | | | | | Elective IV
ME2K 805A - Design of Jigs & Fixtures
ME2K 805B - Internet Technologies
ME2K 805C - Neural Networks & Fuzzy Logic
ME2K 805D - Quality Engineering & Management
ME2K 805E - Tool Engineering & Design
ME2K 805F - Glimpses of World Thought
ME2K 805G - System Simulation & Modelling
ME2K 805H - Financial Management
UNIVERSITY OF CALICUT
Faculty of Engineering
Syllabi for B.Tech Degree Programme with effect from Academic Year 2000-
2001
ME : Mechanical Engineering
ME2K 501 : SOFTWARE ENGINEERING (common to all programmes) 3 hours lecture and 1 hour tutorial per week Module I (13 hours)
Introduction - FAQs about software engineering - professional and ethical
responsibility - system modelling - system engineering process - the
software process - life cycle models - iteration - specification - design
and implementation - validation - evolution - automated process support -
software requirements - functional and non-functional requirements - user
requirements - system requirements - SRS - requirements engineering
processes - feasibility studies - elicitation and analysis - validation -
management - system models - context models - behaviour models - data
models - object models - CASE workbenches Module II (13 hours)
Software prototyping - prototyping in the software process - rapid
prototyping techniques - formal specification - formal specification in the
software process - interface specification - behaviour specification -
architectural design - system structuring - control models - modular
decomposition - domain-specific architectures - distributed systems
architecture - object-oriented design - objects and classes - an object
oriented design process case study - design evolution - real-time software
design - system design - real time executives - design with reuse -
component-based development - application families - design patterns - user
interface design - design principles - user interaction - information
presentation - user support - interface evaluation Module III (13 hours)
Dependability - critical systems - availability and reliability - safety -
security - critical systems specifications - critical system development -
verification and validation - planning - software inspection - automated
static analysis - clean room software development - software testing -
defect testing - integration testing - object-oriented testing - testing
workbenches - critical system validation - software evolution - legacy
systems - software change - software maintenance - architectural evolution
- software re-engineering - data re-engineering Module IV (13 hours)
Software project management - project planning - scheduling - risk
management - managing people - group working - choosing and keeping people
- the people capability maturity model - software cost estimation -
productivity estimation techniques - algorithmic cost modeling, project
duration and staffing quality management - quality assurance and standards
- quality planning - quality control - software measurement and metrics -
process improvement - process and product quality - process analysis and
modeling - process measurement - process CMM - configuration management -
planning - change management - version and release management - system
building - CASE tools for configuration management Text book
Ian Sommerville, Software Engineering, Pearson Education Asia
Reference books
1. Pressman R.S., Software Engineering, McGraw Hill
2. Mall R., Fundamentals of Software Engineering, Prentice Hall of India
3. Behferooz A. & Hudson F.J., Software Engineering Fundamentals, Oxford
University Press
4. Jalote P., An Integrated Approach to Software Engineering, Narosa Sessional work assessment
Assignments 2x10 = 20
Tests 2x15 = 30
Total marks = 50 University examination pattern
Q I - 8 short type questions of 5 marks each, 2 f