VISVESVARAYA TECHNOLOGICAL UNIVERSITY, BELGAUMSCHEME OF TEACHING AND EXAMINATION 2010 - 2011 M.TECH - PRODUCT DESIGN & MANUFACTURING (MPD) SCHEME OF TEACHING AND EXAMINATION 2010 -2011 M.TECH - PRODUCT DESIGN & MANUFACTURING (MPD) I Semester (18 weeks) Sub. Code 10 MPD 11 10 MPD 12 10 MPD 13 10 MPD 14 10 MPD 15 10 MPD 16 Name of the Subject Product Design & Development Product Life Cycle Management Advanced Materials Technology Finite Element Methods Elective – I Seminar Total No. of hours / week Practical/ Field Lectures work/ Assignment 4 4 4 4 4 20 2 2 2 * Practical 2 *Practical 2 3 13 Duration of Exam in hours 3 3 3 3 3 15 Marks for IA 50 50 50 50 50 50 300 Exam 100 100 100 100 100 500 Total Marks 150 150 150 150 150 50 800 10 MPD 151 10 MPD 152 10 MPD 153 10 MPD 154 Elective – I Applied Probability and Statistics Simulation and modeling of manufacturing systems Computer Applications in Design Quality By Design * Thirty marks for Internal assessment test – (Theory) and Twenty marks for Laboratory SCHEME OF TEACHING AND EXAMINATION 2010 -2011 M.TECH - PRODUCT DESIGN & MANUFACTURING (MPD) II Semester (18 weeks) No. of hours / week Practical/ Field Lectures work/ Assignment 4 4 4 4 4 20 2 2 **Practical 2 2 **Practical 2 3 13 Duration of Exam in hours 3 3 3 3 3 15 Marks for IA 50 50 50 50 50 50 300 Exam 100 100 100 100 100 500 Total Marks 150 150 150 150 150 50 800 Sub. Code 10 MPD 21 10 MPD 22 10 MPD 23 10 MPD 24 10 MPD 25 10 MPD 26 10 MPD 27 Name of the Subject Industrial Design & Ergonomics Product Data Management Lean Manufacturing System Design for Manufacture Elective – II *Project Phase – I (6 weeks duration) Seminar Total Elective – II 10 MPD 251 10 MPD 252 10 MPD 253 Quality and Reliability Engineering Virtual Design and Manufacturing Rapid Proto Typing * Between the II Semester and III semester. After availing a vacation of Two Weeks ** Thirty marks for Internal assessment test – (Theory) and Twenty marks for Laboratory ( minimum ten exercises / experiments to be conducted for the subjects for which Practicals is mentioned) Code 10 MPD 321 10 MPD 322 10 MPD 323 Elective – III Name of the Subject Optimization Technique for Decision Making Product Planning and Marketing Agile Manufacturing Sub.SCHEME OF TEACHING AND EXAMINATION 2010 -2011 M.PRODUCT DESIGN & MANUFACTURING (MPD) III Semester (22 weeks) Sub.TECH . Code 10 MPD 331 10 MPD 332 10 MPD 333 Elective – IV Name of the Subject Product Analysis and Cost Optimization Advanced Manufacturing Practices Artificial Intelligence and Expert Systems SCHEME OF TEACHING AND EXAMINATION 2010 -2011 . Code Name of the Subject Robust Design Elective – III Elective – IV Project Phase-I ( 5 week duration) Seminar on project phase -I Total Teaching hours / week Lecture Practical / s Field work / Assignment 4 2 4 4 12 2 2 * 3 09 Duration of Exam in hours 3 3 3 09 Marks for IA Exam 50 50 50 50 200 100 100 100 300 Total Marks 150 150 150 50 500 10 MPD 31 10 MPD 32 10 MPD 33 10 MPD 34 10 MPD 35 Sub. The seminar Marks are to be awarded by the department committee constitute for the purpose. The hours / week shown in the column of Field work / Assignment are the contract hours for students.TECH . • • • Head of the Department ( Chairman) Guide Internal and External Examiners Appointed by the VTU . The teachers should provide guidance. Code Name of the Subject Seminar on Project Phase-II Seminar on Project Phase – III Project work Evaluation & Viva Voce Total Teaching hours / week Lectures Practical / Field work / Assignment 3 3 Duration of Exam in hours Marks for IA Exam 50 50 - Total Marks 50 50 10 MPD 41 10 MPD 42 - 6 3 3 100 10 MPD 43 100 + 100 200 200 300 Grand Total from ( Ist to IVth semester): 2400 Note: 1. 2. 3. The project evaluation and Viva-Voce will be conducted by a committee consisting of the following.PRODUCT DESIGN & MANUFACTURING (MPD) IV Semester (22 weeks) Sub. no load to be shown to the teachers.M. Development Processes and Organizations: A generic development process. reflect on the results and the process. reflect on the results and the process. reflect all the results and the process.Draft Syllabus for MPD I SEMESTER PRODUCT DESIGN AND DEVELOPMENT Subject Code No. product development organizations. Product Planning: The product planning process. establishing target specifications. choose a survey population. Product Specifications: What are specifications. Concept Generation: The activity of concept generation clarify the problem. interpret the result. explore systematically. platform planning. Concept Testing: Define the purpose of concept test. search externally. variety and supply chain considerations. setting the final specifications. the AMF organization. allocate resources and plan timing. organize the needs into a hierarchy. concept screening. establishing the architecture. Concept Selection: Overview of methodology. when are specifications established. managing the industrial design process. duration and cost of product development. choose a survey format. assessing the quality of industrial design. of Lecture Hours/Week Total No. establish the relative importance of the needs and reflect on the results and the process. complete pre project planning. industrial design process. Evaluate and prioritize projects. of Lecture Hours : 10MPD11 : 04 : 52 IA Marks Exam Hours : 50 : 03 Exam Marks : 100 Introduction: Characteristics of successful product development. related system level design issues. the challenges of product development. the AMF development process. the impact of industrial design. measure customer response. interpret raw data in terms of customer needs. Design and development of products. INDUSTRIAL DESIGN: Assessing the need for industrial design. search internally. implications of the architecture. and concept scoring. . adopting the generic product development process. communicate the concept. Identifying Customer Needs: Gather raw data from customers. concept development: the front-end process. identify opportunities. Product Architecture: What is product architecture. technologies. impact of DFM on other factors. PH1. Geoffery Boothroyd. postmortem project evaluation. supporting production. Managing Projects: Understanding and representing task. Timjones. base case financial mode.Design for Manufacturing: Definition. “Product Design for Manufacture and Assembly”. influence of qualitative factors on project success. REFERENCE BOOKS: a. qualitative analysis. A C Chitale and R C Gupta. Steven D Eppinger. 1997 c. “New Product Development” Oxford. assembly. Butterworth Heinmann.Ulrich. Prototyping: Prototyping basics.. principles of prototyping. Product Development Economics: Elements of economic analysis. planning for prototypes. reducing the cost of components. accelerating projects. project trade-offs. b. TEXT BOOK: 1.T. 3red Edition. project execution. “Product Design and Development” Irwin McGrawHill-2000. 2003. baseline project planning. Sensitive analysis. Peter Dewhurst and Winston Knight. UCI. 2002 . estimation of manufacturing cost. Karl. “Product Design and Manufacturing”. 4. “CAD/CAM Theory and Practice”. and modifying features.. Springer-Verlag. Communicating the Strategy Change Management for PLM. Configuration management. REFERENCE BOOKS: 1. finite modeling and analysis.. free ovulation. rapid prototyping and tooling. Strategy Analysis. 2. A Five-step Process Strategy Identification and Selection. cost of design changes. Developing a PLM Strategy. 3rd printing (2006). robust design. use of datum's construction features. thermal analysis. part design. of Lecture Hours/Week Total No. Zeid. “Computer Integrated Design and Manufacturing”. sketching. of Lecture Hours : 10MPD12 : 04 : 52 IA Marks Exam Hours : 50 : 03 Exam Marks : 100 Product life cycle management – Need for PLM. pattering. Mc Graw Hill. Static analysis. Design for manufacturing and assembly. The PLM Strategy. I998 . Policies. schemes for concurrent engineering. 1991. 441 pp. Components of PLM. John Stark. Strategy Elements. Drivers for Change. London. analysis techniques. dynamic analysis. Current concepts. failure mode and effect-analysis Modeling. 1991 3. Engineer. ”Product Lifecycle Management Paradigm for 21st century Product Realization”. Finite element modeling..PRODUCT LIFE CYCLE MANAGEMENT Subject Code No. Product Data and Product workflow. Applicability of FEM. ISBN: 185233-810-5. Mark Henderson & Philip Wolfe. general procedure. Bedworth Mc Graw hill inc. “Part modeling Users Guide”. Implications of Strategy Elements. reference standards for datum specification. copying. Standards for Engineering data exchange Tolerance mass property calculations. Cutting. Macro mechanics of a lamina: Hooke’s law for different types of materials. prepregs. of Lecture Hours : 10MPD13 : 04 : 52 IA Marks Exam Hours : 50 : 03 Exam Marks : 100 Introduction to composite materials Definition. number of elastic constants. 2. Micro mechanical analysis of a lamina Introduction. Classification. sandwich construction. Hooke’s law for two dimensional angle lamina. Types of matrices & reinforcements. Pultrusion. 1 edition (June 30. electrical and electronics. laminated composites. Thermoforming. Quality assurance – Introduction. Kaw “Mechanics of composite materials” CRC Press New York. characteristics &selection. applications. Autar K. B. Injection moulding. automobile. Manufacturing: Layup and curing – open and closed mould processing – Hand lay –up techniques – Bag moulding and filament winding. . recreational and sports equipment-future potential of composites.aircrafts. of Lecture Hours/Week Total No. ultimate strengths of unidirectional lamina. Special cases of laminates. Characteristics & selection. material qualification. A. Reference Books: 1. tooling. 1997). Metal matrix composites: Reinforcement materials. Mein Schwartz “Composite Materials handbook” Mc Graw Hill Book Company. Macro Mechanical analysis of laminate: Introduction. marine. Kirchoff hypothesis – CLT. 1984. Application developments . particulate composites. Evaluation of the four elastic moduli – Rule of mixture. base metalsselection. & D matrices. Failure criterion. Theories of failure. Invariants. missiles. space hardware. NDT methods. Two – dimensional relationship of compliance & stiffness matrix. Machining and joining.VANCED MATERIALS TECHNOLOGY Subject Code No. types. code. Fiber composites. engineering constants – angle lamina. pulforming. Engineering constants. types of defects. . P. Rober M. Michael W. Krishan K. 1999. Mallik “Fibre reinforced composites” Marcel Decker. (2nd ed). New York (1993).2008 2. 1999. 4. 3. Chawla “Composite material science and Engineering” Springer. Hyer “Stress analysis of fiber Reinforced composite materials” Mc-Graw Hill International.Reference Books: 1. Joness “Mechanics of composite materials” Mc-Graw Hill Kogakusha Ltd.C. "Concepts and Applications of finite Element Analysis”. 1995. stiffness matrix. load vectors for CST Elements and application problems FEM for Axisymmetric Problems: Axisymmetric formulation.S & Plesha M. 2. Galerkin Approach. Application problems – 1-D bar element. . 1. 1989. 1984. Trusses and beams FEM for 2-D Problems: Shape functions. Pergomon Press.. Von Misses Stresses FEM for 1-D Problems: General procedure for FEA. prentice Hall. Shames III & Dym C L "Energy and Finite Element Methods in Structural mechanics". Potential Introduction: Equations of equilibrium.J "Applied Finite Element Analysis" John Wiley & Sons Edition. temperature effects. Chandrupatla. load vectors. 5. Boundary conditions. Oxford. PE approach. Bathe K . 1984. torsion. triangular elements. 1982. Edition. Tirupathi R. “Introduction to Finite Elements in Engineering” (Third Edition). 4. Cook R. John Wiley & Sons.J "Finite Element Procedures in Engineering Analysis". application problems FEM for Scalar Field Problems: 1-D Steady state heat transfer. REFERENCE BOOKS: 1. 2nd 3. Wiley eastern ltd. stiffness matrix. of Lecture Hours : 10MPD14 : 04 : 52 IA Marks Exam Hours : 50 : 03 Exam Marks : 100 3-D. Segerlind L .FINITE ELEMENT METHODS Subject Code No. of Lecture Hours/Week Total No. Malkus D. Body force term. Raleigh Ritz method. New Delhi – 2003 2. strain matrix. potential flow and fluid flow in ducts and application problems Dynamic Analysis: Equations of motion for dynamic problems --consistent and lumped mass matrices --formulation of element mass matrices free vibration and forced vibration problems formulation. shape functions. Prentice Hall India Pvt. penalty and multi-constraint approaches.D. Rao SS "The Finite Element Method in Engineering". NewJersey. Applications of boundary conditions using elimination.E. Ltd. Ashok D Belegundu. stress-strain relations for 2-D and energy and equilibrium. Inference on two population proportions. 2nd Edn. Inference for a difference in means of two normal distributions. John Wiley and Sons. Daniel. Probability distributions and probability density functions. Multiple linear regressions model. Tabular and Graphical display. Mean and Variance of a discrete random variable. Discrete Random Variables and Probability distribution: Discrete Random variables. Importance of Data summary and Display. Richard I Levin. Applications. 2nd Edn. Inference on a population proportion. Douglas C Montgomery. Continuous Random Variables and Probability Distributions: Continuous random variables. Introduction to DOE: Completely Randomised Block Design (CBD) and Randomised Block Design(RBD) REFERENCE BOOKS: 1 Applied statistics and Probability for Engineers – Douglas C Montgomery. 6th Edn. Terrell. uniform distribution. David S Rubin. ISBN-81-203-0893-X. Testing for Goodness of Fit. Probability distributions and Probability mass functions. Cumulative distribution functions.I APPLIED PROBABILITY AND STATISTICS Subject Code No. . Houghton Mifflin Company. Transformations to a straight line. Collecting data. ISBN-0-395-62835-0. Poisson distribution. Prentice Hall India. Simple Linear Regressions and Correlation: Simple Linear Regression. Inference for a difference in Means.ELECTIVE . least square estimation of parameters. Exponential distribution. cumulative distribution functions. Normal distribution. Variances unknown. Hypothesis testing. Inference on the Variances of two normal populations. ISBN: 0471240877 4 Business Statistics for Management and Economics. Testing of Hypothesis: Estimation theory. Binominal distribution. of Lecture Hours/Week Total No. of Lecture Hours : 10MPD151 : 04 : 52 IA Marks Exam Hours : 50 : 03 Exam Marks : 100 Introduction to statistics: Statistical Thinking. Mean and Variance of a continuous random variable. John Wiley and Sons. Inference on the mean of a population (variance known and unknown). Inference on the variance of a normal population. 6th Edn. Normal approximation to Binominal and Poisson distribution. Statistical Modeling Frame work. Hyper Geometric distribution. discrete uniform distribution. Matrix approach to multiple linear regression. Correlation. measure of central tendency and variance. properties of least square estimators and estimation of variance. ISBN-0-471-17027-5. 3 Probability and Statistics in Engineering. Properties of Least square Estimators and Estimation of variances. William W Hines. Variances known. 2 Statistics for Management. George C Runger. 1989. Prentice Hall of India . Nusing Deo. simulation packages.modeling and simulation. 2. SIMULATION AND MODELING OF MANUFACTURING SYSTEMS Subject Code No. areas of applications. 1979. G. continuous distribution. . System and Environment: Components of a system -discrete and continuous systems. uniform distribution. Prentice Hall India Ltd. single channel queue. Nature of computer. Statistical Models in Simulation: Discrete distributions.. Jerry Banks & . "Systems Simulation". Random Variable Generation: Inversion transforms technique-exponential distribution. of Lecture Hours/Week Total No.John S Carson II. Random Number Generation: Techniques for generating random numbers. 1. REFERENCE BOOKS 1. Gordan. "Discrete Event System Simulation".1984. Empirical Discrete Distribution: Discrete uniform -distribution poisson distribution -geometric distribution -acceptance -rejection technique for Poisson distribution gamma distribution. of Lecture Hours : 08MPD152 : 04 : 52 IA Marks Exam Hours : 50 : 03 Exam Marks : 100 Principles of Computer Modelling And Simulation: Monte Carlo simulation. generating approximate normal variates-Erlang distribution. Models of a system -a variety of modeling approaches. MacMillan Publishing Company. manual simulation using event scheduling. simulation of inventory problem. Simulation Software: Selection of simulation software. two server queue . weibul distribution. Limitations of simulation. variables-verification and validation of simulation models. "System Simulation With Digital Computer".5 Probability and Statistics by Walpole & Mayer. continuous distributions. Discrete Event Simulation: Concepts in discrete event simulation. Design and Evaluation Of Simulation Experiments: variance reduction techniques -antithetic variables.Mid square method -the mod product method -Constant multiplier technique -Additive congruential method -Linear congruential method -Tests for random numbers -The Kolmogorov-Smirnov test -the Chi-square test. 1991. Prentice Hall Inc. (08 hrs) 5. GEOMETRIC MODELING SYSTEMS: Wireframe Modeling Systems. Francis Neelamkovil. INTRODUCTION TO CAD/CAM/CAE SYSTEMS: Overview. Use of Assembly models. Shading. Raster Graphics Devices. Calculation of Volumetric Properties. Ray Tracing. Marker Text. Graphical User Interface.Line. Assembly Modeling Capabilities. Basic Functions of Assembly Modeling. Algorithm. Rendering. Integrating the Design and Manufacturing Processes through a Common Database-A Scenario.1989. BASIC CONCEPTS OF GRAPHICS PROGRAMMING: Graphics Libraries.Davis & Robert M O Keefe. 2. Transformation Matrix. Mapping. Hidden-Line and Hidden-Surface Removal. Polygon. Output Primitives . Definitions of CAD. Prentice Hall Inc. Back-Face Removal Algorithm. Boolean Operations. John Wilely & Sons.VectorRefresh (StrokeRefresh) Graphics Devices. Modeling Functions. Simplification of Assemblies. Display List.2. Windows-Based CAD Systems. of Lecture Hours : 10MPD153 : 04 : 52 IA Marks Exam Hours : 50 : 03 Exam Marks : 100 1. "Computer Simulation and Modeling". Rath M. Nonmanifold Modeling Systems. Web-Based Modeling. Software Components. "Simulation Modeling with Pascal”. z-Buffer Method. COMPONENTS OF CAD/CAM/CAE SYSTEMS : Hardware Components . (06 hrs) 3. Hardware Configuration. Translation. Rotation. Surface Modeling Systems. (08 hrs) 4. Browsing an Assembly. 1987.s. Other Transformation Matrices. HiddenLine Removal Algorithm. Conic . REPRESENTATION AND MANIPULATION OF CURVES: Types of Curve Equations. of Lecture Hours/Week Total No. Graphics Input. COMPUTER APPLICATIONS IN DESIGN Subject Code No. Euler Operators. CAM and CAE. Coordinate Systems. Features of Concurrent Design. Using CAD/CAM/CAE Systems for Product Development-A Practical Example. Solid Modeling Systems. Depth-Sorting. X Window System. Window and Viewport. Data Structure. or Painter. 3. McGraw hill inc. Bicubic Patch. Hermite Curves. Interpolation Curves. Differentiation of a BSpline Surface. Pro-Engineer. Hyperbola. McGraw Hill. Product Data Management (PDM) Systems. Evaluation of a Bezier Curve. Evaluation of a B-Spline Curve. Ibrahim Zeid. (06 hrs) 7. Intersection of Surfaces. B-Spline Curve. MIPLAN and MultiCAPP. Kunwoo Lee. 1999 2. Bezier Surface. (04 hrs) Tutorials. Evaluation of a NURBS Curve. MetCAPP. “Computer Integrated Design and Manufacturing”. Standard for the Exchange of Product Data. Group Technology. 1998 .. Bezier Curve. Bilinear Surface. Process Planning. Interpolation Using a B-Spline Curve. Interpolation Using a Hermite Curve. New Age International. Variant Approach. 1991. et al. Drawing Interchange Format. Generative Approach. REPRESENTATION AND MANIPULATION OF SURFACES: Types of Surface Equations. 2008 Reference Books: 1.. CAD AND CAM INTEGRATION : Overview of the Discrete Part Production Cycle. B-Spline Surface. Ellipse or Elliptic Arc. Addison Wesley. Differentiation of a Bezier Surface. Parabola. NURBS Surface. Coon's Patch. Classification and Coding. “CAD/CAM – Theory & Practice”. CAM-I CAPP. Computer-Aided Process Planning Systems. Differentiation of a NURBS Curve. Interpolation Surface. Circle or Circular Arc. ICEM-PART. Part modeling Users Guide. Composition of B-Spline Curves. Existing Coding Systems.. Computational exercises involving Geometric Modeling of components and their assemblies Text Book: 1. Nonuniform Rational B-Spline (NURBS) Curve. Differentiation of a B-Spline Curve. Initial Graphics Exchange Specification. Intersection of Curves. “Principles of CAD/CAM/CAE systems”. Evaluation of a Bezier Surface.Sections. (06 hrs) 8. Differentiation of a Bezier Curve Equation. Mark Henderson & Philip Wolfe. Evaluation of a-B-Spline Surface. STANDARDS FOR COMMUNICATING BETWEEN SYSTEMS: Exchange Methods of Product Definition Data. Radhakrishnan P. “CAD/CAM/CIM”. 1998 2. Bedworth. Manual Approach. (08 hrs) 6. 3. “Through design”. Prototype building and testing. Marcel Dekker Inc. 2. Six Phases: Accept reduction phase. applied 1989. “Velocity Function Deployment”. wokingham. McGraw -Hill Inc. “Design for excellence” New York. First Indian Edition 2005 2. product specifications. Conclusions and recommendations. New York (1990). Techniques for value analysis and Engineering. Design. Matar. . 4. of Lecture Hours : 10MPD154 : 04 : 52 IA Marks Exam Hours : 50 : 03 Exam Marks : 100 Define customer needs . productivity press. chapman & hall. New York. McGraw. 1972. Concept generation as System Technique (FAST). Taguchi method. New York. TEXT BOOKS: 1.Quality Function Deployment. Review functional requirements. Select candidate. Failure-analysis (FMEA). addition -Wesley. “Designing For Quality”. Indolence through quality and reliability. Critical parameter management. 7. Pre-production model and testing. 1991. 8. ISBN 0-82478246-1 REFERENCE BOOKS: 1. Pugh method. output. Management for quality improvement. of Lecture Hours/Week Total No.QUALITY BY DESIGN Subject Code No. Use brain storming and selection processes. Value engineering. 5. “Engineering Quality by Design”. 6. 3. Reliability design. product development cycle. Marcel Dekker Inc. Concept evaluation phase. and technical risks. Function development -productivity process. 1996. concepts. Statistical process control.hill 1993. 1988. Aesthetic Concepts: Concept of unity. REFERENCE BOOKS: 1.II SEMESTER INDUSTRIAL DESIGN AND ERGONOMICS Subject Code No. Anthropometric data and its applications in ergonomic. "Industrial Design for Engineers". Industrial Design in Practice: General design -specifying design equipments.H.expert systems for ergonomic design.limitations of anthropometric data.psychology of seeing general influences of line and form. Brain Shakel (Edited). London Hiffee books Ltd. Case study. London 1988. . Style-components of style.colour and the eye -colour consistency.workstation design-working position.use of computerized database. observation style in capital goods.concept of order with variety -concept of purpose style and environment-Aesthetic expressions. of Lecture Hours : 10MPD21 : 04 : 52 IA Marks Exam Hours : 50 : 03 Exam Marks : 100 Introduction: An approach to industrial design -elements of design structure for industrial design in engineering application in modern manufacturing systems. displays and control situations -design of major controls in automobiles. case study.house style. machine tools etc.machine relationship.. Control and Displays: Shapes and sizes of various controls and displays-multiple. Ergonomics and Industrial Design: Introduction -general approach to the man. Ergonomics and Production: ergonomics and product design -ergonomics in automated systems. of Lecture Hours/Week Total No. design. 2. "Applied Ergonomics Hand Book".rating the importance of industrial design -industrial design in the design process.reactions to colour and colour continuation -colour on engineering equipments. Butterworth scientific. Mayall W. Colour: Colour and light -colour and objects.colour terms. design of furniture -redesign of instruments. Visual Effects of Line and Form: The mechanics of seeing. PRODUCT DATA MANAGEMENT Subject Code No. Annita Persson Dahlqvist. Distributed Database. Security and Integrity. Content Management. Trends in PDM Document Management Systems. Ericsson Radio Systems AB. ABB Automation Technology Products.3. Ericsson Mobile Communications AB. General Description of PDM Basic functionality of PDM. PDM resources on the Internet PDM Implementation Case Studies: Sun Microsystems. Version Management. Inc.McGraw Hill Publications. 4. Product life cycle. “Human Factor Engineering” . Windchill. Mentor Graphics Corporation. Third Edition . Engineering Change Management. C. Document management and related technologies. PDM System architecture. SaabTech Electronics AB Reference Books: Implementing and Integrating Product Data Management and Software Configuration Management by Ivica Cmkovic Ulf Asklund. Configuration Management Creating Product Structures. ISBN-10: 0970035225. of Lecture Hours/Week Total No. TeamCenter. Standardization views Product Data Management. of Lecture Hours : 10MPD22 : 04 : 52 IA Marks Exam Hours : 50 : 03 Exam Marks : 100 Centralized systems: Client Server Systems. “Introduction to Ergonomics”. Document management and PDM. ISBN-13: 978-0970035226 Windchill User Manual The AutoCAD Database Book – Accessing and Managing CAD Drawing Information”: Galgotia Publications. Archtech House Publishers Product Data Management. Document management resources on the Internet Workflow Management in PDM: Structure Management. Product Structure configuration. Bridger. Document life cycle. R. Part centric approach. Sanders & McCormick. CAD centric approach. Distributed Systems. Applications used in PDM systems. Network Types.Enovia. Parallel Systems. Rodger Burden. Complexity in Product Development. Publisher: Resource Publishing. McGraw Hill Publications. Parallel Database. Release Management. Information architecture.. Managing Product Structures PDM Tools: Matrix One. Managing lean enterprise:.Creating an organization to channel your streams. work force. Career ladders.The inevitable results of 5 year commitment. Case study:Rouge Production Plant. Machine layout. The rise & fall of Mass Production Mass production. organization. The rise of lean production: . product –logical limits of mass production. of Lecture Hours : 10MPD23 : 04 : 52 IA Marks Exam Hours : 50 : 03 Exam Marks : 100 Just in time production system. Elements o( lean production viz G M Framingharn -Toyota Takaoka Mass Production V /s lean production. An action plan : Getting started . Simplicity in the natural state -institutional factors -life time employment -educational commodities -quality & productivity in full circle. Monthly information & daily information. . JIT Logic -Pull system Japanese approach to production elimination of waste . geographic spread and advantages of global enterprise. multi function workers and job rotation. concrete example. Changing customer demand.JIT implementation requirements JIT application for job shops. tools. Shortening of production lead times -reduction of setup times.Install business system to encourage lean thinking. of Lecture Hours/Week Total No. company as community.Birth place. Standardization of operations.Finance.Kanban rules supplier Kanban and sequence schedule used by supplier. Final assembly plant. Case studies Kanban system:. Prospects for catching up.LEAN MANUFACTURING SYSTEMS Subject Code No. product development and engineering. dealing with the customer. practical procedures for reducing setup time. Sloan as a necessary compliment to Ford. Improvement activities to reduce work force and increase worker morale -foundation for improvements. diffusing lean production. Later replenish system by Kanban sequenced withdrawal P system by sequence schedule table -problems & counter measures in applying Kanban system to subcontractors -Supplier Kanban circulation in the paternal manufacturer -structure of supplier Kanban sorting office. future of lean production. “The Machine that changed the World. Chasel Aquilino. Daniel T Jones. James Womack. The Nine Hidden Lessons by simplicity”. 7. Yasuhiro Monden. James Bossert. -Harper Perennial edition published 1991. Richard Schourberger. “Lean Thinking”. 6.Engineering aild Management Press -Institute of Industrial Engineers Norcross Georgia. “Toyoto Production System -An integrated approach to Just in Time”. The Story of Lean Production”. . Launshy and Weese. . and Daniel Roos.REFERENCE BOOKS: 1. ASQC Press 1991. “Japanese Manufacturing Techniques. 4. 5. James P Womack. “Straight talk on design of experiments”. “Productions and Operations Management” 2. 3. “Quality Function Development”. DESIGN FOR MANUFACTURE Subject Code No. Component design – Machining Considerations – Drills. Selection of Manufacturing processes. machine size. Body of revolution. identifying parting line. Sintering. Ground surfaces. Examples. Insert molding. Advantages of applying DFMA. cycle. of Lecture Hours : 10MPD24 : 04 : 52 IA Marks Exam Hours Exam Marks : 50 : 03 : 100 1. compaction characteristics. Tapers. achieving larger machining tolerances. Cost estimation. Primary process/ materials selection. Profile dimensioning. dies. Engineering Design features. Machining sequence. Milling cutters. General Tolerance. 6 Hours 7. Drilling. machined holes. General requirements of early materials and process selection. Location Tolerance. work piece holding. – Dimensioning. Dowels. surface grinding. Tooling. 6 Hours 8. Assembly techniques. of Lecture Hours/Week Total No. Keyways. Press selections. Systems. manufacturing datum. 6 Hours 2. Examples 7 Hours 6. Tolerances. designing to obviate sand cores. Dedicated Dies and Press working. Screws. molds. 7 Hours stages. Shaft of two diameters. Examples the datum. finishing. Run-out. Reduction in marhining areas. Systematic selection of processes and materials. Selection of materials. holes. special sand cores. Datum features – Functional datum. Design guidelines. Assembly limits. Roundness. parting line. Design Rules. Process capabilities. Design principles. Screw threads. changing 4. Design guidelines. . Straightness. Introduction to sheet metalworking. Geometric Tolerance – Symbols. cycle time. Design for Die casting and Powder metal processing – Die casting alloys. Three datum concept of dimensioning. Component design – Casting Considerations – Pattern. Powder metallurgy processing. Examples 7 Hours 5. Design for Injection molding and Sheet metal working – Injection molding materials. machines. concentricity. Examples 7 Hours 6 Hours 3. Material and process selection – Introduction. Geometric Tolerances. Control of feature location by true position. cast holes. Assembly of parts having concentric cylinders. Simplication by separation and amalgamation. Mould. Molding cycle. Englewood Cliffs. Product Design for Manufacture and Assembly – Geoffrey Boothroyd. New Jersey . Winston Knight – Marcel Dekker.TEXT BOOKS: 1. Inc. – Newyork . Pitman Publications 3. Dimensioning and Tolerancing for Quantity Production – Merhyle F Spotts – Prentice Hall. Peter Dewhurst. Inc. Second Revison. Designing for Manufacturing – Harry Peck. ISBN 0-8247-0584-X 2. outof-n structure solving problems using mathematical models. Graphical Tools for data representation and analysis. Concepts in Probability and Statistics : Events. . Seigmund Halpern (1978) “ The Assurances Sciences”. Prediction and Analysis. R chart. σ chart. Methods for improving reliability during design. of Lecture Hours/Week Total No. Acceptance Sampling: Fundamentals of acceptance sampling. Bathtub Curve. Reliability-Cost trade off. Probability rules. Tata McGraw Hill publishing Coimpany Ltd. C chart. Techniques available to improve maintainability and availability trade-off among reliability. Problems Statistical Aspects and Probability Distributions : Statistical Tools in Quality Control. of Lecture Hours : 10MPD251 : 04 : 52 IA Marks Exam Hours : 50 : 03 Exam Marks : 100 Basic Concepts: Definitions of quality and Reliability. NP chart. Sample Space. J. Conditional probability. Block diagram concept. Failure Data. U. Quantitative measures.M. AOQL. Maintainability and Availability: Introduction. Mean Life. New Jersey. MTBF. System Reliability: Series. Poisson. parallel and mixed configuration. Life Testing. Attribute charts. maintainability and availability.A 2. LTPD. Reliability Improvement and Allocation : Difficulty in achieving reliability. types of acceptance sampling. New Delhi. AQL. Different techniques available to improve reliability.QUALITY AND RELIABILITY ENGINEERING Subject Code No. Formulas. Application of Probability concepts in Quality Control. Control charts. Introduction to Failure Mode and Effect Analysis. Parameters and Characteristics. Optimization. r. statistical Quality Control. Variable charts X chart.C Curve. F. Quality control. Discrete and Continuous Distributions.S. India. Problems.. Reliability concepts. Juran. Dependent and Independent Events. Binomial. – P chart.M and Gryna. Failure Data Analysis : Introduction. Problems. Normal. Prentice Hall International. Problems. (1982) “Quality Planning and Analysis”. Simple problems REFERENCE BOOKS: 1. MTTF. The concept of Variation. O. Weibull Distribution. McGraw Hill Book Company Inc. (1985) “Concepts in Reliability Engineering”.3. U. Reliability Engineering . Srinath L S.Affiliated East-West Press Private Limited.Editors – Ireson.S. An Introduction to Reliability and Maintainability Engineering. Kraus.G. Handbook of Reliability Engineering and Management”. John W (1988) “Maintainability and Reliability”. C. A K Govil. India. TMH 6. and Cooms. 5. New Delhi. W. Charles Ebeling. 4.A.F. 2D primitives and transformations. rasterization. output devices graph terminal. 3D graphics. shading and ray tracing. vision dome. projections and viewing. Virtual Modeling language: History.Addision -Wesley 1997. auto Vue. cosmo World.Foley et al. Applications: Virtual prototyping. . algorithms for hidden line removals. 3. "Computer Graphics-Principles and practice" Second edition.VRML Script and JAVA Script. coordinate.0 hand book Addision” -Wesley 1997. TEXT BOOKS: 1.0 Hand book" Addision-Wesley 1997. 2D graphics. of Lecture Hours/Week Total No. in C. SGI's open inventor. micro electro mechanical systems and nanotechnology. cylinder sensor and proximity sensor. basic nodes-group. behavior simulation. sensor nodes-time sensor touch sensor. 3D primitives and transformations. indexed line set. of Lecture Hours : 10MPD252 : 04 : 52 IA Marks Exam Hours : 50 : 03 Exam Marks : 100 Review of Computer Graphics: Review of computer graphics. sphere sensor. LOD etc. VRML Pad (editor) VRML Viewing tools-cosmo player. Concepts. walk through/flythrough. stereo glasses. Practical Lab: V Collab. Virtual training/simulation. data gloves. caves. lighting.2. coordindwx. Janes D. R Carey and G Bell "The Annocated VRML 2.VIRTUAL DESIGN AND MANUFACTURING Subject Code No. head mounting devices. transform switch. 3D Mouse. virtual collaborative tools-V collab. Jed Hartman and Josie wernecke. geometry nodes-indexed face set. Virtual hand and trackers. syntax. digital mockup. scriping. Tutorials and samples: VRML authoring tools-3D studio MAX. textures etc. "The VRML. VR Devices: Input devices-track balls. 2. Algorithm to digitize the graphic entities.. Selective Laser Sintering and Fusion Deposition Modeling: Type of machine. 3-D printer. Error in finishing. Process parameter. Rapid Tool. Rapid Tooling: Indirect Rapid tooling -Silicone rubber tooling –Aluminum filled epoxy tooling Spray metal tooling. Data preparation errors. LOM materials.RAPID PROTO TYPING Subject Code No. Process details. Laminated Object Manufacturing: Principle of operation. Applications Solid Ground Curing: Principle of operation. Sander's model market. Applications. Copper polyamide. Applications. Process details. Cast kirksite. Principle of operation. Flham D. Data preparation for SLS. Growth of RP industry. NY 1996. process parameters. Machine details. Stereo Lithography Systems: Principle. Process parameter. AIM. object Quadra systems. ` TEXT BOOKS: 1. Genisys Xs printer HP system 5. influence of build orientation. Prometal. history of RP systems. 2. Thermal jet printer. Survey of applications. Principle of Fusion deposition modeling. 3Q keltool. SME. Path generation. Terry Wohlers "Wohler's Report 2000" Wohler's Association 2000. DMILS. 3. and classification of RP systems. hard tooling.S "Rapid Manufacturing" Verlog London 2001. RP Process Optimization: factors influencing accuracy. application. etc >Direct Rapid Tooling Direct. Jacobs: "Stereo lithography and other RP & M Technologies". Application. Indus press New York REFERENCE BOOKS: 1. Part building errors.T & Dinjoy S. Paul F. of Lecture Hours : 10MPD253 : 04 : 52 IA Marks Exam Hours Exam Marks : 50 : 03 : 100 Introduction: Need for the compression in product development. Laminate tooling soft Tooling vs. “Rapid automated”. Lament wood. Data preparation. Concepts Modelers: Principle. . Quick cast process. . data files and machine details. of Lecture Hours/Week Total No. Sand casting tooling. reliability improvement through experiments. Linear graphs and interaction assignment. Smaller – the – better types. Branching design. Fractional factorial design. Central composite designs. Quadratic loss function and variation of quadratic loss functions. Interactions. 3-level experiment deigns for two factors and three factors. Measures of Variability : Measures of variability. Ranking method. Signal to noise ratios for dynamic problems. Mathematical models from experimental data. in factorial experiments : YATE’s algorithm for ANOVA. Treatment combination. Analysis and interpretation of experimental data: Measures of variability. Probability plots. larger – the. Saturated design. Levels. 8 Hours 6. factor effects. Noise factors causes of variation. Compound factor method. illustration through numerical examples. Statistical distributions : normal. Concept of confidence level. of Lecture Hours : 10MPD31 : 04 : 52 IA Marks Exam Hours : 50 : 03 Exam Marks : 100 Quality by Experimental Design : Quality. log normal and Weibull distributions. 7 Hours 4. factor interactions. Column merging method. western and Taguchi quality philosophy. randomization. dummy level technique. . 6 Hours 2. Nominal – the – better – type. modification of linear graphs. factors.better – type. illustration through numerical examples. Experimental Design: Classical experiments: factorial experiments. Selection of standard orthogonal arrays. Taguchi’s Orthogonal Arrays : Types orthogonal arrays. Signal to Noise ratio (S-N Ratios) : Evaluation of sensitivity to noise. Hipothesis testing. 7 Hours 3. Strategies for constructing orthogonal arrays. terminology. 2-level experimental design for two factors and three factors. 7 Hours 5. Illustrations through numerical examples. choice of sample size illustration through numerical examples. Analysis of variance (ANOVA). Illustration through numerical examples.III SEMESTER ROBUST DESIGN Subject Code No.Regression analysis. Signal to noise ratios for static problems. Robust Design : Steps in robust design : parameter design and tolerance design. Elements of cost. column effect method and ploting method. of Lecture Hours/Week Total No. V Ed. Illustrating the reliability improvement of routing process of a printed wiring boards using robust design concepts. Barker : Marcel Dekker Inc ASQC Quality Press. Parameter Design and Tolerance Design : Parameter and tolerance design concepts. 5 Hours TEXT BOOKS: 1.Madhav S. Ross: Taguchi 2nd edition. Reliability Improvement Through Robust Design : Role of S-N ratios in reliability improvement . Phadake: Prentice Hall. Ltd.. Jeff Wu. 2007. Reliability improvement by Experiments . Quality Engineering using Robust Design . Englewood Clifts. 1985 2.. Ed. 3. 3. 2002. 06 Hours 8. 1996. Taguchi’s inner and outer arrays. 1989. Condra. Marcel Dekker: Marcel Dekker Inc ASQC Quality Press.Thomas B. McGraw Hill Int. 2. Illustrations through numerical examples. REFERENCE BOOKS: 1. Michael Hamada: John Willey Ed. New Jersey 07632.Phillip J. Experiments planning. 1985 . Techniques for Quality Engineering .6 Hours 7. Tolerance deign strategy..L.C.Douglas Montgomery: Willey India Pvt.. Parameter design strategy. Case study. Design and analysis of experiments . Quality by Experimental Design .W.F. analysis and parameter design optimization . conjugate gradient.S. with equality Constraints solution by direct substitution. REFERENCE BOOKS: 1. classification of optimization problems. Design constraints.L Fox. Optimization. of Lecture Hours/Week Total No. change variables and elimination of variables. TEXT BOOKS: 1. Design Vector. Simplex method.interior and exterior penalty function. Non-linear Programming: (One Dimensional minimization method) Numerical method. R. Design”. Unrestricted search. “Optimization methods for Engg. Fibonacci and Golden section method. Exhaustive search. Indirect Methods: Transformation technique. objective function. cutting plane method. Ram. penalty function methods. Schechter. “Optimisation Theory and Practice”. Interpolation Method: Quadratic and Cubic Nonlinear programming (Unrestricted Optimization Technique) Random search methods.OPTIMISATION TECHNIQUES FOR DECISION MAKING Subject Code No. 3. GSG Beveridge and R. variable metric method. . methods of Feasible directions. Descent Methods: Steepest descent. multivariable optimization Statement of a optimization problem.S. powels method. solution by the method of constrained Variation.” Van Nostrand. Dichotomous search. “Optimisation and Probability in System Engg. Direct Methods: The complex method. Non Linear Programming: (Constrained Optimization problem) Characteristic of a constrained problem. S. Rao. Willey Eastern. Classical Optimization Technique: Single variable optimization. Unimodal function. of Lecture Hours : 10MPD321 : 04 : 52 IA Marks Exam Hours Exam Marks : 50 : 03 : 100 Introduction: Engineering application of optimization. “Theory and Application”. multivariable optimization with inequality constraints Kuhn – Tucker condition. Univariate method. Solution by the method of Lagrange multipliers. Addison – Wesley 2. . Moore & Edgar. . A.John R. Forecasting sales potential. Hauser. consumers perceptions of new and existing products. Launching products and services TEXT BOOKS: 1. of Lecture Hours : 10MPD322 : 04 : 52 IA Marks Exam Hours Exam Marks : 50 : 03 : 100 Product strategy and planning product.PRODUCT PLANNING AND MARKETING Subject Code No. a proactive new product development process. perceptual mapping. of Lecture Hours/Week Total No. Market definition and entry strategy. Urban. segmentation. Product positioning –Preference analysis and benefits. Successful product development. “Design and Marketing of new products” 2. William L. Pessemier . Consumer measurement. “Product Planning and Management”. New product strategy. Market evolution. Glen L. Control technological and Design paradigms . Paul T. enterprise design process -insights into design processes.P Chowdiah (Editor). Kidd. 2. traditional management accounting. TATA Mc Graw Hill Publications 1996. product costing -performance..traditional problems in workplaceorganizational issues -role of technology. Agile Manufacturing Enterprise Design: Agile manufacturing –enterprise design -system concepts as the basic manufacturing theory-joint technical & organizational design as a model for the design of agile manufacturing enterprise. Agile Manufacturing and Change Management: The change implications. Design & Skill of Knowledge enhancing Technologies for machine tool systems. paradigm. Measurement and control systems. .integrating organization. “Agile Manufacturing -Proceeding of International Conference on Agile Manufacturing”. Problems and Future Development. Paul T Kidd –“World Class manufacturing”. Main issues -simple design example. what is interdisciplinary design. M.1994. Dr.Historical Overview. Lessons. REFERENCE BOOKS: 1. people technology interdisciplinary design methodology. 3. “Agile Manufacturing -Forging new Frontiers”. changes on the way. of Lecture Hours/Week Total No.the business case for agile manufacturing conceptual framework for agile manufacturing. Four Core Concepts: strategy driven approach.AGILE MANUFACTURING Subject Code No. Paul T Kidd –“Concurrent Engg.” 4. Addison Wesley Publication. post failures in advanced manufacturing. of Lecture Hours : 10MPD323 : 04 : 52 IA Marks Exam Hours Exam Marks : 50 : 03 : 100 Introduction: what is agile Manufacturing? -Competitive environment of the future. Skill & Knowledge Enhancing Technologies For Agile Manufacturing: Skill and Knowledge enhancing Technologies -scheduling -technology design strategicDesign Concepts. investment appraisal. application and area of use -problems -multi . analysis and implementation. Miles Lewrence. welding. of Lecture Hours/Week Total No. apportioning methods Variance Analysis – Labour variance.Prentice Hall. Material variance and Overhead variance. TEXT BOOKS: 1. "Design and Marketing of New Products". Direct –indirect. machine hour rate. John R Hauser. Activity based costing . Glen L Urban. 1980 2. Value Analysis: Steps in selection. Khanna Publishers. Manufacturing Planning: Selection of optimum process. Elements in overheads: Preparation of cost sheet. Break even analysis. of Lecture Hours : 10MPD331 : 04 : 52 IA Marks Exam Hours : 50 : 03 Exam Marks : 100 Introduction: New products. Narang CBS & Kumar V. material cost -direct indirect material cost Overhead cost. Cost Calculation: Cost calculation for machined components.Elective . New Jersey. Cost Optimization Techniques: Analytical. S M E 1984.” McGraw Hill. Graphical and incremental methods Learning curves. Cost Accounting: Cost estimation -difference -types -steps involved in cost estimation. Yasuhiro Monden. "Cost management in the New Manufacturing Age". ProductivityPress-1992 2.Introduction to target costing. new product strategy -market definition Idea generation introduction to the design process -forecasting sales potential -product engineering and markets-monopoly competitive. 2001 REFERENCE BOOKS: 1. Types of Cost: Cost Centres. 3. New york-1972 . Selection of cutting speed for optimum cost -problems. “Technique for Value Analysis And Engineering. "Production and Costing"..IV PRODUCT ANALYSIS AND COST OPTIMIZATION Subject Code No. standardization.product analysis. casting and forged components illustrations -calculation of sales cost. "Manufacturing Engineers Handbook".D. Housekeeping. Quality Assurance. learning from the west.ADVANCED MANUFACTURING PRACTICE Subject Code No. Just-in-Time Production with Total Quality Control just in time concept. Less than full capacity scheduling. responsibility. Dedicated production lines. Responsibility effects. of Lecture Hours/Week Total No. Goals. Exposure of problems. Non-constant Quantity Withdrawal System. Forming Frame parts from Tubing. cutting set-up times. cutting lot sizes. Production Smoothing Adaptability to Demand Fluctuations. Production Smoothing in TPS. Easy to see Quality control as facilitator. Basics. Toyota Production System-The philosophy of TPS. process control. small lot sizes. problems and counter measures in applying the Kanban system to sub contractors. JIT Production Adapting to changing production Quantities. CPC-getting the right tool. core Japanese practices of JIT. Sequenced Withdrawal System. Fool proof Devices. Techniques and Aids. Basic Frame work of TPS. Total Quality Control-Introduction-Total Quality Control concepts.Supplier Kanban and the Sequence Schedule for Use by Suppliers. process layout for shortened lead Times. Plant Configurations: Introduction-ultimate plant configuration. of Lecture Hours : 10MPD332 : 04 : 52 IA Marks Exam Hours : 50 : 03 Exam Marks : 100 Need of CPC for a company. Automation. Standardization of operation. Just in Time Production – Primary purpose. Frame Welding. Sequenced withdrawal system by sequenced schedule table. TQC in Japanese-owned Automotive plants. Constant Cycle. • • • • • Kanban Number under Constant Quantity Withdrawal System. Basic elements of JIT. Later Replenishment System by Kanban. Flexible work Force. Production Planning. TQC concepts categorized. Enabling JIT to occur. Respect for Humanity. Benefits of JIT. some definitions of JIT. Determining the Number of Kanban in Toyota Production System. TQC in Japanese-owned US Electronics plant. Habit of improvement. Quality control. Motivational effects. Sequence and scheduling used by suppliers: Monthly and daily Information. Sequencing Method for the Mixed Model Assembly Line to Realize Smoothed Production of Goal. QC Circles. withdrawal of Buffer Inventory. Circulation of the Supplier Kanban within Toyota. JIT – Introduction – The spread of JIT Movement. Tools of Analysis. small Group improvement Activities. profit through cost reduction. Scrap/Quality Improvements. the total Quality Control Concept. what CPC can do. Elimination of over production. job shop Fabrication. overlapped . Creating continuous Flow Manufacture. perfection. Kanban. Daily machine checking. the JIT cause-Effect chain. cutting purchase order costs. Womack. “Wind”-chill reference manual. 4. Lean Thinking – By James Womack. “Just in time manufacturing” – Kargoanker 6. CAD and Manufacturing. 5. Automated production Lines. Robots. “Toyota Production system” – An integrated approach to just in time – by Yasuhiro Monden 2. “Japanese manufacturing techniques” – by Richard Schonberger.production. mixed Models. Pseudo Robots. The machine that changed the World – The story of Lean production – by James P. Daniel T Jones. 3. . Adjacency. Conveyors and stacker Cranes. Forward Linkage by means of Kanban. and Daniel Roos – Harper Perennial edition published 1991. physical merger of processes. the daily schedule. REFERENCE BOOKS: 1. Automatic Quality Monitoring. Variants of MYCIN. and properties of Wffs. Fuzzy Logic Expert Systems: Introduction. underlying assumption. TEXT BOOKS: 1. recognizing and understanding speech. Certainty factors and Rule based systems. 4. 1986. Addison. Knowledge Representation Issues: Representations and Mapping. Heuristic Search techniques – Generate and Test. constraint satisfaction. Expert System shells. Roth. . Issues in Kr. PUFF etc.ARTIFICIAL INTELLIGENCE AND EXPERT SYSTEMS Subject Code No. Waterman. best first search. Use of Predicate Logic: Representing simple facts. Instance and is a relationships. search and control strategies – Introduction. Syntax and Semantics for Propositional logic. Ph 1985. introduction. Dempster – Shafer Theory.A. of Lecture Hours : 10MPD333 : 04 : 52 IA Marks Exam Hours Exam Marks : 50 : 03 : 100 Artificial Intelligence: Introduction. London Champion Hull 1984 . Types of Knowledge procedural Vs Declarative. Science & Industry –Vol II application. of Lecture Hours/Week Total No. FOPL. Typical Expert Systems: MYCIN. AI & related fields State space representations. Wendry B. Or Graphs. Representing and using domain knowledge. M/H 1983. learning classification patterns. Elaine Rich & Kevin Knight. Hayes. “A Guide to Expert Systems”– Wesley inc. Forward Vs Backward reasoning. Resolution. 2. Informed Search. Natural deduction Statistical and Probabilistic Reasoning: Symbolic reasoning under uncertainly. D. “Artificial Intelligence in Business”. Logic programming. Waterman.A (ed). Probability and Bayes’ theorem. 3. 5. preliminary concepts. M and Kulliknowske. Weis. definition. Matching. S. “Designing Expert Sysems”. Pattern recognition. Uniformed or Blind Serach. “Building expert systems” D. Hill climbing. Structure and uses. Bayesian Networks. Uniformed or Preliminary Concepts: Examples of search problems. and performance measures. production systems and its characteristic. General learning model. important of AI.Ranch. AW 1983. PROSPECTOR. Approaches. examples of Search problems. Non monotonic reasoning and it logic. Recognition and classification process. DENDRAL. Introduction to Knowledge Acuqistion: Types of learning. “Artificial intelligence”.. Means – Ends Analysis. problem reduction. defining a problem. conversion to causal form.