wma-101: applied mathematics-i i … of pn junction/diode, pn junction with no external voltage and...

Computer Engineering Section, Univ. Women’s Polytechnic, AMU

Periods / Week = 04 Total No. of Periods Reqd. = 60 Assignment + Mid Sem = 15+25 = 40

End Sem Exam Marks = 60 Total Marks = 100 Duration of End Sem Exam = 2 Hrs

WMA-101: APPLIED MATHEMATICS-I

I DIFFERENTIAL CALCULUS Basic concepts of function and limit, differential coefficient, derivative of elementary functions by first principle. Derivative of sum, difference, product and quotient of two functions. Chain Rule, problems. Logarithmic differentiation, derivative of parametric and implicit functions. Maxima and minima of a function of one variable and related problems, Mean Value Theorem, Partial Derivatives, Jacobian. II INTEGRAL CALCULUS (INDEFINITE INTEGRAL) Indefinite integral – Inverse process of differentiation, standard results, integration by substitution, integration by parts. Integration of rational algebraic by using partial fractions. Integration of various forms. III INTEGRAL CALCULUS (DEFINITE INTEGRAL) Definite integrals, simple properties. Area of plane curves by definite integrals. Application of Gamma functions to evaluate the integrals. Simpson’s Rule and problems. Introduction to Multiple Integral. IV MATRIX ALGEBRA

Introduction to matrices, identity, scalar, symmetric, skew symmetric, singular matrix (definitions). Algebra of matrices. Simple problems. Computation of adjoint and inverse to matrices. Application to the solution of system of linear equations, Eigen Values and Eigen Vectors. Determinants, definition of minor, co-factor, important properties of determinants, solution of problems with the help of properties. Cramer’s Rule and problems. BOOKS RECOMMENDED: 1. Applied Mathematics, by V.K. Parashar. 2. Calculus (Diff. and Integral) by Gorakh Prasad.




WPH-101: APPLIED PHYSICS-I

I VECTOR ALGEBRA Vectors and Scalars, position vector, unit vector, zero vector, addition and subtraction of vectors, magnitude and direction of resultant vector, rectangular and Cartesian components of a vector, scalar and vector products of two vectors, scalar and vector fields, del operator, gradient of a scalar function, divergence and curl of a vector function. II ROTATIONAL MOTION Angular velocity, angular acceleration, angular momentum, torque (moment of force), principle of conservation of angular momentum, moment of inertia, physical significance of moment of inertia, theorem of parallel and perpendicular axes, moment of inertia of a thin rod, ring and disc, radius of gyration and moment of inertia, kinetic energy of rotation, comparison of linear and rotational motion. III OSCILLATIONS AND WAVES Periodic motion, simple harmonic oscillation, kinetic and potential energy of simple harmonic oscillator, oscillation of a simple pendulum, concept of free, damped and forced oscillations, resonance. Equation of traveling harmonic wave, principle of superposition, reflection of waves, standing waves, formation of standing waves in a string clamped at both the ends. IV OPTICS Dispersion of light by a prism, dispersive power, refraction of light from the convex and concave surfaces, Lens maker’s formula, focal length of combination of two thin lenses in contact, chromatic aberrations, achromatism, wave front, Huygen’s Principle, interference of light, Young’s double slit experiment, conditions of maxima and minima, expression of fringe width. BOOKS RECOMMENDED: 1. Physics Part I & II, David Halliday & Robert Resnick 2. Fundamentals of Physics, David Halliday, Robert Resnick & Jearl Walker 3. Concepts of Physics Vol. I & II, H. C. Verma




WCH-101: APPLIED CHEMISTRY

IA Origin and growth of organic chemistry. Catenation, Homologous series, Isomerism, Functional group, Hydrocarbons and their classification, Nomenclature of organic compounds by IUPA system, Preparation and properties of Alkanes, Alkenes and Alkynes (Addition reaction, substitution reaction and elimination reaction etc.) IB POLYMERS Introduction, classification of polymers, types of polymerization reactions, plastics and resins, constituents of plastics – preparation properties and uses of polythene, Teflon, Polystyrene, PVC, Bakelite, Rubber, types of rubber, Vulcanization of rubber, Preparation, properties and uses of Buna S and Buna N rubbers. II ELECTROCHEMISTRY, pH VALUE AND BUFFER SOLUTION Part-A. Metallic and electrolytic conductivity, Distinction between atoms and ions, Arrhenius theory of ionization, Mechanism of electrolysis of fused electrolytes, Aqueous solution of electrolytes, Faraday’s laws of electrolysis (electroplating, electro refining, electrometallurgy, electrotyping and manufacture of chemicals etc.). Part-B. Hydrogen ion concentration, pH value, definition and its importance as applied to engineering numerical problems based on pH value, Buffer solution, Types of buffer solution and mechanism of buffer solution. III CORROSION, ALLOYS AND FUELS Part-A. Corrosion: Introduction, magnitude of corrosion problem, theories of corrosion, Galvanic cell action, protection of metals from corrosion, methods of applying metallic coatings. Alloys: Introduction, preparation of alloys, purpose of making alloys, general properties and classification of alloys, composition, properties and engineering application of brass, bronze, gunmetal, constantan, duralumin. Part-B. Fuels: Introduction, classification of fuels, calorific values, experimental determination of calorific value of fuels by Bomb calorimeter, coal, classification of coal. IV ENVIRONMENTAL CHEMISTRY Environmental segments, atmospheric regions. Chemical species and particulate present in the atmosphere, radiation balance, Lapse rate and temperature inversion, Green house effect formation and depletion of ozone in the atmosphere, acid rain, air pollution, types of air pollutant, water pollution, types of water pollutants, sewage testing of sewage, Biochemical Oxygen Demand (BOD) and Chemical Oxygen Demand (COD). BOOKS RECOMMENDED: 1. Polytechnic Chemistry, by Ved Prakash Mehta 2. Basic Applied Chemistry, by P.C. Jain & Monica Jain


Periods / Week = 04 Total No. of Periods Reqd. = 45 Assignment + Mid Sem. = 15+25 = 40


WLE-101: ELECTRONIC DEVICES & CIRCUITS-I

I SEMICONDUCTOR PHYSICS Bohr’s Atomic theory, elementary concept of energy levels in atoms, energy bands in solids, classification of solids on the basis of conductivity and energy band diagrams. Intrinsic semi-conductor: Crystal structure, conduction in intrinsic semiconductor at absolute zero temperature and above. Generation of charge carriers & their movement in the crystal, conduction of current and current types. Extrinsic semiconductor: Doping, formation of P-type and N-type semiconductors and their crystal structures, charge carriers in N-type & P-type semiconductors, effect of temperature on extrinsic semiconductors. II PN Junctions / Diodes Formation of PN junction/diode, PN junction with no external voltage and formation of depletion layer, Barrier potential, width and height of barrier, Biasing of PN junctions, Effect of forward & reverse bias, reverse break down (Avalanche’s and Zener effect). V-I characteristic of diode, Ideal diode and its characteristic, diode current equation, specifications, load line, operating point, resistances, diode equivalent circuits. Special Diodes: Operation & characteristic of LED, Photodiode, varactor diode, schottky diode, tunnel diode, zener diode, and its applications as a voltage regulator. III RECTIFIERS Concept of rectification, specification of a rectifier diode. Single phase, half wave, full wave, bridge rectifier circuits and their operations. Calculations of dc voltage, rms voltage, ripple factor and rectification efficiency of half-wave & full-wave rectifiers. IV WAVE SHAPING CIRCUITS Concept of filtering and filter circuits (shunt capacitor filter, choke input filter, RC & LC-π filter) for smoothing output of rectifiers. Concept of clipping, Clipper-circuits and their operation. BOOKS RECOMMENDED: 1. Electronic Devices & Circuits by Bogart 2. Basic Electronics & Linear Circuits by N.N. Bhargava 3. Principles of Electronics by V.K. Mehta. 4. Microelectronics by Millman & Grabel, Tata McGraw Hill 5. R. Boylestad and L. Nashelsky, “Electronic Devices and Circuits”, Prentice Hall 6. S. Sedra, K. C. Smith, ‘Microelectronic Circuits’, Oxford Univ Press




WIT-101: FUNDAMENTALS OF COMPUTERS & IT

I INTRODUCTION & BUILDING BLOCKS OF COMPUTERS

Block diagram of computer, types of computers, computer languages (machine language, assembly language and high level language). Classification of computers, central processing unit (ALU & control unit, registers), primary memory, RAM, static and dynamic RAM, Video RAM, shadow RAM etc. ROM, PROM, EPROM, EEPROM, secondary storage (optical disk, hard disk etc.) II PERIPHERALS & SOFTWARE Input devices:- key board, pointing devices, scanning devices, touch tone devices, terminal etc. output devices:- Printers, plotters, monitors, voice output, add-on cards, serial and parallel ports. Operating system, utility programs, language processor, application programs. Computer viruses & vaccines. Basic idea of PC-Tools. III INTRODUCTION TO IT Information Technology-its concept and scope, prerequisites of information, Information Technology vs. Computer Science, information technology and internet, careers in IT industry, societal impacts of information technology. IV EMERGING TRENDS IN IT MANAGEMENT Introduction to service management, ERP,CRM software, POS system, E-learning, What is Six Sigma? Marketing on the web, marketing strategies, creating web presence, advertising, customer service and support, web branding strategies, web selling models. BOOKS RECOMMENDED: 1. Fundamentals of Computer, by Raja Raman V. 2. Computer Primer, by Satish Jain 3. Computer Studies, by C.S. French 4. Peter Norton’s Computer 2nd Edition. 5. Computer Fundaments, by Pearl Software. 6. Introduction to Information Technology, by Pearson Education 7. Fundamentals of Information Technology, by D.S.Yadav 8. Introduction to Information Technology, by V.Rajaraman 9. Analysis and Design of Information Systems by V.Rajaraman


Periods / Week = 03 Total No. of Periods Reqd. = 39 Lab Course Work = 60


WPH-191: APPLIED PHYSICS LAB-I Updated on 13.12.2017

LIST OF EXPERIMENTS

1. To find the volume of metal used in a hollow cylinder closed at one end using vernier calipers. 2. To determine the mass per unit length of a given wire using a screw gauge. 3. To determine the radius of curvature of a watch glass using a spherometer. 4. To find the acceleration due to gravity using simple pendulum and to draw ℓ-T2 graph and hence to

read the length of the second’s pendulum. 5. To plot a graph between the distance of the knife edge from the centre of gravity and the time

period of a bar pendulum and to determine its radius of a gyration about the centre of gravity. 6. To find the weight of a given body using law of parallelogram of forces and to verify the result by

measuring the diagonal of the parallelogram. 7. To determine the frequency of an alternating current using a sonometer and a horse-shoe magnet. 8. To determine total mass of a given small solid cylinder using screw gauge.

BOOKS RECOMMENDED: Lab Manual in Physics Vol-I & II, R.S. Mittal & S. Singal




WCH-191: APPLIED CHEMISTRY LAB

LIST OF EXPERIMENTS 1. Preparation of standard solutions.

2. Determination of normality and strength in grams per liter of a given solution of NaOH by titrating at against a standard solution of oxalic acid (Acid – Base titration).

3. Determination of normality and strength in grams per liter of a given solution of KMnO4 by titrating at with a standard solution of oxalic acid (Redox titration).

4. Analysis of the organic compounds for their functional groups.

5. Synthesis preparation of ura-zermaldehyde resin in the laboratory.

6. Separation of a mixture of red and blue ink using paper chromatography.



WLE-191: ELECTRONIC WORKSHOP

LIST OF EXPERIMENTS 1. (a) To become familiar with the resistor colour code and the use of an Ohm meter to measure

resistance.

(b) To investigate the properties of potentiometer and preset.

2. To become familiar with fixed and variable capacitors.

3. To become familiar with different types of inductors, transformers, & chokes.

4. To become familiar with various types of diodes and to identify its P and N terminals.

5. To become familiar with n-p-n and p-n-p transistor and to identify its terminals.

6. (a) To control one lamp with one switch.

(b) To control two lamps in series and parallel.

7. To make connection for stair case wiring using 2-way switches.

8. To make connection for go-down wiring using two-way and intermediate switches.

9. Soldering practice of various types of circuits.

BOOKS RECOMMENDED

1. Fundamentals of Electrical Engg., Ashfaq Husain.

2. Electrical Engg., B.L. Thereja. (Vo. I and II)

3. Linear Circuits, N.N. Bhargava.




WEN-101: ENGLISH & COMMUNICATION SKILLS

I TEXT BOOK (A complete course in English by Robert J. Dixon) (30%)

Chapters: Two thanks giving day gentlemen, A love story, The gifts of Feoder Himkoff, The prince and the judge, Mr. Traver’s First Hunt, Portrait of a teacher, Trouble in Bohemia, Fact or fantasy.

Note: Text based questions ranging from short to long answer type.

II UNSEEN PASSAGE (10%) Reading and comprehending un-simplified text and guessing the meaning of unfamiliar words from the context. III GRAMMAR (30%) Tenses, Voices, Determiners, Direct and Indirect narration. IV WRITING SKILLS (20%) Letter writing, report writing, processing, paragraph writing.

BOOKS RECOMMENDED: 1. A Practical English Grammar (Third Edition) by A.J. Thomson & A.V. Martinet 2. High School English Grammar and Composition, by Wren & Martin 3. Oxford Advanced Learners Dictionary of Current English, by A.S. Hornby 4. The Most Common Mistakes in English Usage, by Thomas Elliott Berry




WMA-102: APPLIED MATHEMATICS-II

I COMPLEX NUMBERS Introduction, Algebra of complex numbers, standard form of complex number, conjugate number, square root and cube root of unity, triangle inequality, De-Moivre’s theorem. Analytic functions, Cauchy’s integral theorem & Integral Formula, Taylor’s Series. II COORDINATE GEOMETRY (STRAIGHT LINES AND CIRCLE)

Equation of straight lines in various standard forms. Angles between straight lines, perpendicular distance formula and related problems. Equation of circle with centre and radius. General equation of a circle, determination of its centre and radius. Conditions for a circle, circle on a given diameter and problems. Equations of tangent and normal at a given point on the circle.

III COORDINATE GEOMETRY (CONIC SECTION)

Conic section and its definition. Standard equation of a parabola, simple problems and its tracing. Standard equation of an Ellipse with simple problems. Standard equation of a hyperbola with simple problems.

IV PERMUTATION-COMBINATION & PROBABILITY Introduction to permutations & combinations and binomial theorem, Probability, conditional probability, random variables & binomial distribution. BOOKS RECOMMENDED: 1. Applied Mathematics by VK Prashar. 2. Coordinate Geometry by Gorakh Prasad for Inter students. 3. A first course in mathematics by Chandrika Prasad 4. Advanced Mathematics for Engineers by Chandrika Prasad 5. Probability Theory by Meyer




WPH-102: APPLIED PHYSICS-II Updated on 08.05.2017

UNIT-I ELECTROSTATICS Quantization of charge, Coulomb’s law in electrostatics, intensity of electric field due to a point charge, electric dipole, intensity of electric field due to a dipole at a point on its (i) axis & (ii) perpendicular bisector, electric dipole moment, torque on a dipole in external electric field, potential energy of dipole in an electric field, Gauss’s theorem and its application to find electric field (i) due to an infinite line of charge (ii) due to an infinite plane sheet of charge and (iii) due to a hollow conducting sphere. UNIT-II DC CIRCUITS Ohm’s law, concept of resistance, current density, Ampere circuital law and its applications, Biot-Savart law and its applications, concept of inductance, Inductance of a solenoid and a toroid, energy stored in an inductor, concept of capacitance, capacitance of a parallel plate capacitor, a cylindrical capacitor, a spherical capacitor and an isolated sphere, energy stored in a capacitor. UNIT-III AC CIRCUITS Instantaneous and rms values of AC voltage and current, AC voltage applied to a resistor, capacitor and inductor, analytical study of series RC , LR and LCR circuits with AC source, instantaneous and average power consumed in a series LCR circuit with ac voltage. UNIT-IV ATOMIC AND NUCLEAR PHYSICS Bohr’s atomic model, hydrogen spectrum, composition of nucleus, size of nucleus, radioactivity, law of radioactive disintegration, half life, mean life, mass energy relation, atomic mass unit, mass defect, binding energy of a nucleus, binding energy per nucleon versus mass number curve. BOOKS RECOMMENDED: 1 Physics Part I & II, David Halliday & Robert Resnick 2 Fundamentals of Physics, David Halliday, Robert Resnick & Jearl Walker 3 Concepts of Physics Vol. I & II, H. C. Verma




WLE-102: DIGITAL ELECTRONICS

I NUMBER SYSTEMS & CODES Introduction, Number systems and their conversion, Signed numbers, 1’s and 2’s complements of binary numbers. Binary Arithmetic: Addition, Subtraction, 1’s Complement Subtraction, 2’s Complement Subtraction, Multiplication, Division, Binary Coded Decimal (BCD), 8421 Code, Digital Codes: Gray Code, Excess-3 Code & their conversion to Binary & Vice versa, Alpha-Numeric Codes (ASCII code). II BOOLEAN ALGEBRA AND COMBINATIONAL LOGIC Introduction, Rules & Laws of Boolean Algebra, Boolean addition & Subtraction, Logic Expressions, Demorgan’s law, Simplification of Boolean Expressions, Karnaugh Map (up to 4-variables), SOP and POS form, NOT, AND, OR, NAND and NOR Gates, Universal Property of NAND and NOR Gates, NAND and NOR implementation, EXOR and EXNOR gates. III COMBINATIONAL LOGIC CIRCUITS Design of combinational circuits, Half Adder and Full Adder & their realization using combination of AND, OR, XOR and NAND gates, Half and Full Subtractors, Magnitude Comparators, Decoders and Encoders, Multiplexers and Demultiplexers, Parity Generators/Checkers. IV SEQUENTIAL LOGIC CIRCUITS Introduction; Latches: SR Latch, Gated SR Latch, Gated D Latch; Edge Triggered Flip Flops: Edge Triggered RS Flip Flop, Method of Edge Triggering, Edge Triggered D Flip Flop, Edge Triggered JK Flip Flop, and T Flip Flop, Asynchronous Preset and Clear Inputs, Design of simple Sequential Circuits, Flip Flop Applications. BOOKS RECOMMENDED: 1. Digital Fundamentals by Thomas L. Floyd (10th Edition) 2. Digital Design by M. Morris Mano (5th Edition) 3. Digital Computer Fundamentals by BARTEE T.



End Sem Exam Marks = 60 Total Marks = 100 Duration of Exam = 2 Hrs

WCO-101: PROGRAMMING IN ‘C’

I PROGRAMMING TECHNIQUES AND OVERVIEW OF C LANGUAGE

Algorithm and Programming Development, Steps in development of a program. Flow charts, Algorithm development, Program Debugging, Program Structure. I/O statements, assignment statements, Constants, variables and data types. Operators and Expressions

II JUMPING, BRANCHING AND PROGRAM LOOPING

Control Structures, Introduction, Decision making with IF – statement, IF – Else and Nested IF, While and do-while, for loop, Break and switch statements. Scope & lifetime of variables (local, global, external, and static).

III ARRAYS, STRUCTURE AND UNIONS

Arrays, Introduction to Arrays, Array Declaration, Single and Multidimensional Array: Arrays of characters, strings, Structures and Unions: Declaration of structures, Accessing structure members. Structure Initialization, Arrays of structure, Unions

IV POINTERS AND FUNCTIONS IN C

Pointers: Introduction to Pointers, Address operator and pointers, Declaring and Initializing pointers, Assignment through pointers, Pointers and Arrays. Functions: Introduction to functions, Function Declaration Standard functions, Parameters and Parameter Passing, Call – by value/reference.

BOOKS RECOMMENDED: 1. Programming in ANSI ‘C’ by E. Balagurusamy Tata McGraw Hill India 2. Let us ‘C’ by Y. Kanetkar BPB publication




WPH-192: APPLIED PHYSICS LAB-II Updated on 13.12.2017

LIST OF EXPERIMENTS

1. To find the magnetic moment and the pole strength of a bar magnet from magnetic lines of force

plot.

2. To find the focal length of a bi-convex lens using spherometer.

3. To find the value of v for different values of u in case of concave mirror and find its focal length from the graph between 1/u versus 1/v.

4. To find the value of v for different values of u in case of convex lens and find its focal length from

the graph between 1/u versus 1/v. 5. To plot a graph between angle of incidence and angle of deviation and to determine from the

graph the refractive index of material of the given prism.

6. To determine the specific resistance of the material of a given wire using a meter bridge. 7. To verify the law of series combination of resistances using a post office box.

8. To verify the law of parallel combination of resistances using a post office box.

BOOKS RECOMMENDED: Lab Manual in Physics Vol-I & II, R.S. Mittal & S. Singal



WLE-192: DIGITAL ELECTRONICS LAB

LIST OF EXPERIMENTS

1. To verify the working of a parity checker / generator.

2. To verify NOR-gate as a universal gate

3. To verifty NAND-gate as a universal gate

4. To construct a single bit comparator using NAND-gate.

5. To verify logical properties of half / full adders.

6. To study and verify the operation of a 4-bit R-2R ladder network D/A converter.

7. To construct an asynchronous binary up counter and down counter and study its operation.

8. Design and test a 2 x 1 digital multiplexer and a 1 x 2 digital de-multiplexer using 7400 IC.

BOOKS RECOMMENDED

1. Digital Logic & Computer Design, by M. Morris Mano

2. Microelectronics by Millman & Grabel, Tata McGraw Hill

3. Digital Technology (Lab Manual) by Gerals E. Williams.


Periods/Week = 3 Total No. of Periods Reqd. = 39 Lab Course Work = 60


WCO-191: ‘C’ PROGRAMMING LAB

1. Programming exercise on executing and editing a C program.

2. Programming exercise on defining variables, assigning values to variables, arithmetic and relational operators.

3. Programming exercise on arithmetic expressions and their evaluation.

4. Programming exercise on formatting input/output using printf and scanf.

5. Programming exercise using if and if-else statements.

6. Programming exercise using switch statement.

7. Programming exercise using loop statements - for, while and do-while.

8. Programming exercise on one-dimensional array.

9. Programming exercise on two-dimensional array.

10. (i) Programs for putting two strings together (ii) Programs for comparing two strings.

11. Simple programs using structures.

12. Simple program using pointers.




WMA-201: HIGHER MATHEMATICS

I LAPLACE TRANSFORMS AND FOURIER SERIES Laplace transforms (definitions). Laplace transform of standard functions. Important properties. Shifting theorem, inverse Laplace transform, Laplace transform of derivatives and integrals. Periodic functions, even and odd functions, Fourier series, half range series, change of interval, problems. Fourier Transform. II VECTOR ALGEBRA Introduction and definition of a vector. Modulus of a vector, addition and subtraction of vector, rectangular resolution of a vector, position vector, ratio formula. Scalar and vector products of two vectors. Problems. Application to find the work done, angular velocity and moment of a force, Directional Derivatives, Line & Surface Integrals. III DIFFERENTIAL EQUATIONS Differential equations; order, degree and formation of a differential equation. Differential equations of first order and first degree, variable separable, homogenous and linear differential equations. Exact differential equations. Differential equations reducible to homogeneous and linear forms. Problems. Some applications of differential equations and problems. IV DIFFERENTIAL EQUATIONS CONTINUED Linear differential equations of second order with constant coefficients. Symbolic operator D. Methods of finding C.F. Symbolic operator 1/f(D). Methods of finding P.I. To find P.I. when X=eax. To find P.I. when X=Cosax or sinax. To find the value of xm/f(D). BOOKS RECOMMENDED:

1. Applied Mathematics, by V.K. Prashar 2. Vector Algebra; by Schaum Series 3. Differential Equations, by Chandrika Prasad 4. Differential Equations, by Schaum Series 5. M.K. Venkatraman Vol. 3A & 3B, National Publishing Company


Periods / Week = 04 Total No. of Periods Reqd. = 45 Assignment + Mid Sem. = 15+25


WLE-201: ELECTRONIC DEVICES & CIRCUITS-II

I BIPOLAR JUNCTION TRANSISTOR Concepts of transistor, Type: NPN-PNP, Transistor Construction & Operation, Transistor Biasing & Mode of Operation, Transistor Amplifying Action; Transistor Configurations: Common Base, Common Emitter & Common Collector, Idea of Current Gain, Voltage Gain, Input Characteristics, Output Characteristics, & Output Resistance. II TRANSISTOR BIASING BJT Biasing: Introduction, Operating Point (Q-point), Fixed Bias Circuit, Emitter Stabilized Bias Circuit, Voltage Divider Bias Circuit, & DC Bias with Voltage Feedback Circuit. FET Biasing: Introduction, Fixed Bias Configuration, Self-Bias Configuration, Voltage Divider Biasing, Biasing of Depletion type MOSFETs, Biasing of Enhancement type MOSFETs. III FIELD EFFECT TRANSISTOR Introduction, Merits of FET over BJT, Types of FETs, Construction & Characteristics of JFETs; Introduction to MOSFETs, Depletion-type & Enhancement-type MOSFETs: Construction & Characteristics; Introduction to CMOS. IV OPERATIONAL AMPLIFIER & ITS APPLICATIONS Introduction, Characteristics of an Ideal Op-Amp, Differential Pair, Small Signal Operation, Differential & Common Mode Operation, Gains, Common Mode Rejection Ratio (CMRR), Design of Operational Amplifier: Gain Stage of Op-Amp, Level Shifting Stage of Op-Amp., Output Stage, Frequency Response of Op-Amp Definition of Various Parameters: Voltage Gain, Amplifier Output & Input Voltage & Current, Slew Rate, Techniques of Offset Removal, Applications of Op-Amp: Adder, Scale Changer, Subtractor, Integrator, Differentiator, Comparator, Zero Crossing Detector & Schmitt Trigger. TEXT & RECOMMENDED BOOKS:

1. R. Boylestad & L. Nashelsky, “Electronic Devices & Circuit Theory”, Pearson Education 2. Microelectronics by Millman & Grabel, Tata McGraw Hill 3. S. Sedra, K. C. Smith, ‘Microelectronic Circuits’, Oxford Univ Press 4. Electronic Devices & Circuits by Bogart




WIT-201: ACCOUNTING AND FINANCIAL MANAGEMENT

I FINANCIAL ACCOUNTING Meaning, objective and basic accounting terms, classification of accounts, double entry system of book keeping, accounting equation, recording of transactions, journalizing and ledger posting, preparation of trial balance, detection of errors and their ratification, nature, use and form, simple cash book, double column and three column cash book. II FINAL ACCOUNTS Trading account-meaning, need and preparation, profit and loss accounts-meaning need and preparation, balance sheet-meaning need and preparation, use of further information for adjustment in preparation of final accounts (a) Depreciation (b) Provision for doubtful debts (c) Outstanding expenses (d) Prepaid expenses (e) Income received in advance and prepaid incomes (f) Broad classification of capital and revenue items (g) Closing stock III PARTNERSHIP ACCOUNTS Admission of a partner, effects of admission of a partner, change in profit sharing ratio, goodwill-nature and method of valuation of goodwill, need for revaluation of assets and liabilities. IV COMPANY ACCOUNT Nature of company, accounting for a share capital, issue and allotment of shares, issue at par, premium, discount, call in advance, call in arrears, forfeiture and reissue of forfeited share. BOOKS RECOMMENDED:

1. Double Entry Book Keeping, by T.S Grewal, Sultan Chand & Sons. 2. A Text Book of Accountancy, by M/S. Franks Bros. & Co. Pvt. Ltd. 3. A Text Book of Accountancy, by M.S. Tata and McGraw Hill. 4. Accountancy Book I (NCERT) 5. Principles and Practices of Accounting by M/S Arya Publishing House, New Delhi. 6. Problems in Advanced Accounting, by R.L Gupta.




WLE-203: FUNDAMENTALS OF MICROPROCESSOR

I INTRODUCTION TO THE INTEL 8085 Definition of microprocessor, generations and types of microprocessors, most popular microprocessors. Architecture of 8085, brief description of ALU, register section, data & address buses. Bus time sharing 8085 CPU pins and associated signal. II PROGRAMMING THE 8085 Instruction, Group of instruction, Addressing modes of Instruction, 8085 instruction set. Machine Language, Assembly Language comparison, Assembly Language programming (Simple Problems). III TIMING INSTRUCTION & EXECUTION Machine, Instruction, Fetch, Read, Write(IO/MEM) cycle timing diagram, Interruption: Types of 8085 interrupt system, 8085 SID and SOD lines. IV PERIPHERAL INTERFACING PPLD’S, Brief description of 8255, 8257-DMA Controller, Introduction to Intel’s 8086 microprocessor, Popular applications of Microprocessor in industry. BOOKS RECOMMENDED:- 1. Microprocessor Architecture, Programming & Applications, by Goankar 2. Microprocessor and Microcomputers by Rafiquzzaman 3. Introduction to Microprocessor, by Mathur




WCO-201 ALGORITHMS AND DATA STRUCTURES

I INTRODUCTION OF DATA STRUCTURE Introduction, data structure, data structure operations, Arrays: representation of arrays, traversing linear arrays, inserting and deleting, multidimensional arrays, pointer arrays. Records: Records structure, representation. Sorting & searching techniques: (selection sort, bubble sort, merge sort, insertion sort, and radix sort, linear search, binary search etc.) II LINKED LISTS: REPRESENTATION AND OPERATIONS Linked Lists: Representation of linked lists in memory, traversing, searching, insertion and deletion. Memory allocation, garbage collection, header linked list, two way lists. III STACK, QUEUES, RECURSION Introduction, stacks, array representation of stacks, sorting on stacks (quick sort). Recursion. Implementation of recursive procedure by stacks. Queues: deques, arithmetic expression, polish notation. IV TREES & GRAPHS Binary trees, representation of binary trees in memory traversing. Binary search trees. Searching, inserting and deleting in binary search trees, heap; heap sort, huffman’s algorithm, general trees. Graph theory terminology, adjacency matrix, path matrix, shortest path, Warshall’s algorithm, operations on graphs. BOOKS RECOMMENDED: 1. Data Structures by S.Lipsuitz by Schaum's Outline Series 2. An Introduction to Data Structures by Trembley and Sorenson,T.M.H Publications.. 3. Data Structures by Elan Horwitz and Sartaj Sahani, Galgotia Publications. 4. R. Stewens “Graphics Programming in C”, BPB Publications, 1995.




WCO-291: DATA STRUCTURE LAB

Exp. 1: (a) Data types, their range and size.

(b) simple operation on arrays, structure and unions.

Exp. 2: Linear search and binary search.

Exp. 3: Selection sort and bubble sort.

Exp. 4: Merge sort, radix sort.

Exp. 5: Maintaining linked lists in memory of computer.

Exp. 6: Searching in linked lists (sorted list and unsorted list).

Exp. 7: Adding and deleting nodes in linked lists.

Exp. 8: Maintaining queues and stack. Implementing Push and Pop stack operations.

Exp. 9: Infix to Postfix conversion.

Exp. 10: Evaluation of expression.

Exp. 11: Maintaining trees, heap sort.

Exp. 12: Maintaining graphs, Warshall’s algorithm and finding shortest path.




WIT-291: COMPUTER APPLICATIONS LAB

I ANALYZING DATA USING EXCEL Overview of Excel Worksheet, Entering Labels and Values, Performing Calculations Using Formulas, Using the SUM Function, Copying Formulas, Testing the Worksheet, Previewing, Printing, and Closing a Workbook, Navigating a Worksheet.

II EDITING AND FORMATTING WORKSHEETS Editing and Clearing Cells, Inserting and Deleting Columns and Rows, Moving and Copying Cells, Creating Formulas with Absolute Addressing, Adjusting Column Width and Row Height, Changing the Font Size, Style, and Colour of Cells, Formatting Numeric Cells; Adjusting Decimal Places; Using Undo and Redo, Changing the Alignment and Indentation of Cells, Adding Borders and Shading; Copying Formats with Format Painter; Using Cell Styles, Using Find and Replace, Freezing Panes.

III USING FUNCTIONS AND ADDING VISUAL ELEMENTS Using Statistical Functions AVERAGE, COUNT, MAX, and MIN , Using Data Functions TODAY, NOW and DATE , Using Financial Functions PMT and PPMT , Using Logical IF Function , Changing Margins; Headers and Footers , Formatting a Worksheet Using a Theme, Inserting a Smart Art Diagram , Creating a Column Chart , Creating a Pie Chart , Modifying and Formatting Charts , Inserting, Moving and Resizing Pictures and Clip Art , Inserting Shapes and Text Boxes.

IV WORKING WITH MULTIPLE WORKSHEETS AND TABLES Inserting, Deleting, Renaming a Worksheet, Moving and Copying Worksheets, Grouping and Ungrouping Worksheets , using 3 D References, Linking Cells, Adding a Background , Printing Multiple Worksheets, Using Page Break Preview; Setting the Print Area , Formatting Data as a Table, Applying Table Design Options , Sorting a Table by Single and Multiple Criteria , Filtering a Table , Inserting, Editing, Deleting, and Printing Comments , Creating a Workbook from a Template , Opening and Saving a Workbook in a Different File Format. BOOKS RECOMMENDED: 1. The complete reference Office2010 by Stephen L. Nelson, Tata McGraw Hill Publishing Co. Ltd.,

New Delhi.




WIT-292: SEMINAR & REPORT WRITING Last Updated on 12.12.2017

Introduction to report writing and seminar

Significance of report writing & seminar, Characteristics of a good report & seminar, Style of writing reports, Structure of long report, Steps in report writing, Principles of drafting a report.

Report Format

Specimen of title page, Specimen of table of contents, Guide lines for summarizing a formal report, Back matter, Reports & seminars and their significance to engineers.

Types of Reports

Voluntary or authorized reports, Routine or special reports, Internal or external reports, Short and long reports, Informational or analytical reports. Techniques/Methods of Writing various kind of Reports

Annual report: Meaning and purpose, structure and content, how to summarize. Technical report: Importance of report in an organization, basic parameter of a report, structure of a report. Project report: Its characteristics/objectives/contents. Applications of Word Processor and Presentation in report writing and seminar

Word Processor

Use Word Processor to create, save and open word document, Save a Word file in another file format, Compatibility Checker errors, text alignment, superscript and subscript, text effects and highlight colors. Select text, Find and replace text, Insert a symbol or special character, Insert equations, tables, images, shapes, smart art and charts, adding comments and hyperlinks, Automatically insert an arrow, face, or other symbol, Automatically insert the current date, Insert a hyphen, Automatically correct capitalization, Use automatic formatting as you type, Page margin options, Create table of contents, Insert or delete a footnote, comparing two documents and tracking changes. Presentation

Create presentation and add slides, Views in Presentation, Add a slide number or date and time anywhere on a slide, Show or hide the Outline or Slides tab, Duplicate slides within a presentation, AutoContent Wizard, Change the order of your slides, Delete, Hide or show a slide, Add text, layout, Create a hyperlink, Add a header or footer to a presentation, Create a self-running presentation. Adding charts, diagrams and tables, Add sound effects and animation, using slide master to create uniform slides, Printing slides, handouts, and outline view.

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WIT-202: e-COMMERCE

UNIT-I INTRODUCTION What is E-Commerce, Forces behind E-Commerce Industry Framework, Brief history of E-Commerce, Inter Organizational E-Commerce ,Intra Organizational E-Commerce, and Consumer to Business Electronic Commerce, benefits of e-commerce. UNIT-II MOBILE COMMERCE Mobile Commerce systems-characteristics and functions ,Mobile Computing technology-mobile clients, mobile client software ,Wireless Application Protocols, payment issues ,introduction to U-commerce :the next step after m-commerce. UNIT-III WEB SECURITY Introduction to Web security, Firewalls & Transaction Security, Client Server Network, Emerging Client Server Security Threats, Network Security. Encryption, Secret Key Encryption, Public Key Encryption, Virtual Private Network (VPN), Implementation Management Issues. UNIT-IV ELECTRONIC PAYMENTS & NET COMMERCE Overview of Electronics payments, Digital Token based Electronics Payment System (EPS), Smart Cards, Credit Card/Debit Card based EPS, Emerging financial Instruments, Home Banking, Online Banking, EDA, EDI Application in Business, Legal requirement in E -Commerce, Introduction to supply Chain Management, CRM, issues in Customer Relationship Management. Books Recommended:

1. 1. Greenstein and Feinman, “E-Commerce”, TMH 2. Ravi Kalakota, Andrew Whinston, “Frontiers of Electronic Commerce”, Addision Wesley 3. Denieal Amor, “The E-Business Revolution”, Addision Wesley 4. Diwan, Sharma, “E-Commerce” Excel 5. Bajaj & Nag, “E-Commerce: The Cutting Edge of Business”, TMH




WLE-206: PRINCIPLES OF COMMUNICATION ENGINEERING

I CONTINUOUS WAVE (CW) MODULATION Introduction to communication system; Representation of Different Types of Signals in Frequency Domain; Need of Modulation; Frequency Translation; Amplitude Modulation (AM, DSBSC, SSBSC, VSB modulation), Switching Modulator; Envelope Detector. II ANGLE MODULATION Angle Modulation: Basic Definition, Relationship between Phase & Frequency Modulation, Frequency Modulation: Narrow Band & Wide Band FM, Transmission Bandwidth of FM signals, Generation of FM Signals, Demodulation of FM Signals; Superheterodyne Receiver, Frequency Division Multiplexing (FDM). III PULSE MODULATION Sampling Theorem; Sampling of Lowpass and Bandpass Signals; Sampling Techniques; Analog Pulse Modulations (PAM, PWM, PPM); Time Division Multiplexing (TDM); Introduction to PCM: Quantization, Quantization Error, Line Coding; Companding, DPCM; Delta Modulation; Slope Overloading and granular noises. IV INTRODUCTION TO DIGITAL MODULATION TECHNIQUES Introduction; Binary Modulation Techniques (ASK, PSK, FSK), Generation & Detection of Binary Modulated Waves, Differential Phase Shift Keying (DPSK), Quadriphase Shift Keying (QPSK), Minimum Shift Keying (MSK). BOOKS: 1. Simon Haykin, “Communication Systems”, 3rd Edition, John Wiley & Sons. 2. Simon Haykin, “An Introduction to Analog & Digital Communications”, John Wiley & Sons. 3. H. Taub, D. L. Schilling & G. Saha, “Principles of Communication Systems“, 3rd Edition, Tata McGraw

Hill. 4. A. B. Carlson, “Communication Systems”, Tata McGraw Hills. 5. B. P. Lathi, “Modem Digital and Analog Communication Systems”, 3rd Ed., Oxford Press. 6. J. G. Proakis & M. Salehi, “Communication Systems Engineering”, 2nd Edition, Pearson Education. 7. George Kennedy, “Electronic Communications”, Tata McGraw Hill.




WCO-202: COMPUTER ORGANIZATION

I ARCHITECTURE FUNDAMENTALS

Introduction, instruction execution, concept of parallel processing, pipelining, array processor, parallel instruction execution, CPU organization, architectural types: RISC Vs. CISC.

II MEMORY ORGANIZATION AND PROCESSOR DESIGN

Memory hierarchy, microprogrammed memory, cache memory: cache structure, replacement policies, writing into cache, virtual memory. Arithmetic Logic Unit:Design of arithmetic circuit, design of logic circuit, design of shifter.

III CONTROL LOGIC DESIGN Introduction, control organization, one flip flop per state method, sequence register and decoder method, microprogram control, microprogram sequencer. IV COMPUTER DESIGN System configuration, computer instructions, timing and control, design of simple computer, , introduction to Pentium processor. BOOKS RECOMMENDED: 1. Structured computer organization (Andrew S. Tannen baum). 2. Digital logic and computer design (M. Morris Mano). 3. Computer architecture by Rafiquzamman M. & Chandra S.




WCO-203: COMPUTER GRAPHICS

I INTRODUCTION TO COMPUTER GRAPHICS Introduction to graphics fundamentals, pixels and frame buffer, resolution. Display devices: CRT, beam penetration, shadow-mask color display, storage tube DVST, plasma panel, laser scan display. Random scan, raster scan, refresh cycle, interlacing. Graphical input devices and input techniques. Classification, advantages and application areas of computer graphics. II POINT PLOTTING TECHNIQUES Point plotting techniques, incremental methods, criteria for good computer generated line. Line drawing algorithms: Simple and symmetric DDA, Bresenham algorithms. Generation of circle and other curves. III TRANSFORMATIONS Two-dimensional transformations: Principles, translation, rotation, scaling and concatenation matrix representation of transformations, Inverse transformations. Three-dimensional transformations. IV CLIPPING AND GRAPHIC PACKAGE DESIGN Clipping: Cohen–Sutherland line clipping algorithm, mid-point subdivision line clipping, Sutherland-Hodgman polygon polygon clipping algorithm. Windowing: Windows and viewports, Viewing transformation. Design of simple computer graphics package: Ground rules for graphics software design, functional domains and function sets – graphics primitives, windowing and miscellaneous functions. Example: graph plotting program. BOOKS RECOMMENDED: 1. Newman & Sproull, “Principles of Interactive Computer Graphics”, TMH 2. Hearn & Baker, “Computer Graphics”, PHI 3. Kanetakar, Y., “Graphics under C”, BPB 4. Stewens, “Graphics Programming in C”, BPB




WIT-203: FUNDAMENTALS OF MULTIMEDIA Last updated on 08.05.2017

I MULTIMEDIA INFORMATION REPRESENTATION What is multimedia, why is multimedia important? How is multimedia changing the world (video conferencing, training, entertainment). Classification of media types. Planning a multimedia project; Text (Formatted & un-formatted, hyper-text). Graphics (raster graphics, vector graphics, component of graphic system, 3-D graphics). Image (Types of image, storage requirement, specifications of digital images, image processing software and tools). Audio (fundamental characteristics of sound, bitrate and file size, streaming audio). Animation (file formats, animated gifs, flic, fla & swf, max). Video (compression ratio, file format). II MULTIMEDIA ACCESSORIES DVD, CD Vs DVD, DVD specifications, DVD-R, DVD-W, digital audio, practical audio sampling parameters, Microphones (Omnidirectional, bi-directional, Unidirectional), Loudspeaker (Dynamic, woofers and twitters), sound card, video camera, MIDI, MIDI specifications; Techniques for compression, JPEG & MPEG standards. III SOFTWARE THAT ENABLES MULTIMEDIA

System Software: operating systems, utilities, networking software. Development Software: graphics applications, sound applications, text applications, web development, multimedia authoring. Delivery Software: stand-alone programs, players

IV MULTIMEDIA TOOLS AND TECHNIQUES

Voice recognition system, haptic multimedia and e-nose and applications, Screen Design Principles: Layout, font selection, text sizing, foreground, versus background, color, placing text on photographic background. Arranging text and pictures on the screen. Systems design techniques: Design in Architecture, Design in Engineering, Design in Graphics and the Arts, Design in Software Engineering, Design in Multimedia.

BOOKS RECOMMENDED:

1. Multimedia literacy, II Edition by Fred T. Hofstetter. 2. An Interactive guide to multimedia by John Villamil-Casahova and Louis Molina.. 3. Multimedia concepts and practice by Stephen McGloughlin. 4. Theoretical Foundations of Multimedia by Robert S. Tannenbaum 5. Introduction to information technology by V. Rajaraman 6. Principles of multimedia by Ranjan Parekh




WLE-293: MICROPROCESSOR LAB

LIST OF EXPERIMENTS

Report 1: Addition of two 8-bits hexadecimal numbers stored in the memory by (a) Immediate Addressing (b) Direct Addressing (c) Indirect Addressing

Report 2: Addition of two 16-bits hexadecimal numbers stored in the memory by (a) Immediate Addressing (b) Direct Addressing (c) Indirect Addressing

Report 3: Subtraction of two 8-bits hexadecimal numbers using (a) direct SUB command (b) 2’s complement method.

Report 4: (a) Addition of two 8-bits decimal numbers stored in the memory (b) Subtraction of two 8-bits decimal numbers stored in the memory.

Report 5: To replace all bytes from memory location 2051 to 2055 by 00H

Report 6: Multiplication of two 8-bits hexadecimal numbers by (a) Successive Addition Method (b) Rotation Method. Result should be of 8-bits

Report 7: Division of two 8-bits hexadecimal numbers by successive subtraction method.

Report 8: (a) Addition of a series of 8-bit hexadecimal numbers stored in the memory whose sum is of 8-bits (b) Addition of a series of 8-bit hexadecimal numbers stored in the memory whose sum is of 16-bits

Report 9: (a) Finding the number of 0’s in a byte (b) Finding the number of 1’s in a byte

Report 10: (a) Finding the largest number in a series of 8-bits hexadecimal numbers (b) Finding the smallest number in a series of 8-bits hexadecimal numbers

Report 11: Multiplication of two 16-bits hexadecimal numbers stored in memory using direct addressing method.

Recommended Books:

1. Fundamentals of Microprocessor and Microcomputers by B. Ram, Dhanpat Rai Publications, 2005 2. Microprocessor Architecture, Programming, and Applications with the 8085 by R. Goankar




WCO-292: GRAPHICS PROGRAMMING LAB Last updated on 12.12.2017

BASIC C GRAPHIC FUNCTIONS: 1. Draw basic shapes: initgraph, detectgraph, arc, bar, circle, closegraph, drawpoly, ellipse,

fillellipse, fillpoly, getbkcolor, getcolor, getmaxcolor, getmaxx, getmaxy, getpixel, getx, gety, line, lineto, linerel, moveto, moverel, outtext, outtextxy, pieslice, rectangle, sector, setbkcolor, setcolor.

ADVANCE C GRAPHIC FUNCTIONS & INTRODUCING ANIMATION: 2. bar3d, putpixel, floodfill, getimage, putimage, imagesize, setfillstyle, setlinestyle, settextstyle,

setviewport, cleardevice, textheight, textwidth. 3. Draw a pendulum using C graphics function. 4. Animate a flying kite/fish movement. 5. Animate a ball in circular motion with and without using image size putimage, getimage C

graphics functions. MOUSE HANDLING: 6. * Check if mouse support is available or not.

* Display mouse pointer in textmode. * Display mouse pointer in graphics mode. * Hide mouse pointer.

7. * Current position of mouse pointer. * Determine which mouse button is clicked * Restrict mouse pointer in rectangle. * Restrict mouse pointer in circle.

8. Write code for free hand drawing using mouse programming functions in C. IMPLEMENT ALGORITHMS: 9. Line: midpoint Bresenham’s algorithm. 10. Circle: midpoint Bresenham’s algorithm. 11. Sutherland Hodgman Line Clipping Algorithm.




WIT-293: MULTIMEDIA LAB

I Creating, opening and saving animation files. Workspace description using tools. Drawing modes, drawing tools, primitive tools, adding text and filters, working with colours, layers, transforming graphics and gradients. II Creating symbols, using symbols, modifying symbols instances, duplicating and swapping symbols, with gradients, advanced drawing, spraying and masking. III Frames, key frames and the timeline layers. Building animation with tweens. The motion editor, shape tweens, skinning. Copying, pasting and saving animation. Easing behavior and animating masks. Sequencing animation, customizing workspace layouts and preferences, guides and alignment. IV Working with button symbols, importing and preparing sound files, inserting sounds in your movie, controlling, editing, trimming and looping sounds. Creating movie clips, controlling movie clip playback, tweening movie clips, adding filter effect to movie clips. V A small project to be submitted by each student at the end of semester.




WCO-301: SOFTWARE ENGINEERING

I INTRODUCTION TO S/W ENGG. & ITS EVOLUTION Introduction to Software Engineering: The importance of software, evolution of software Engineering, software Engineering Paradigms, software development, life cycle, the classic life cycle, prototyping, iterative enhancement model, the spiral model, project management, project cost estimation, project planning. II SYSTEM REQUIREMENTS ANALYSIS System & Software Requirements Analysis: Computer Based Systems, Systems Engineering (Hardware, Software & Human Factors), System Analysis, Requirements Analysis, Software Requirement Specification, Structured Analysis (SSADM, DFD’s, ER Diagrams). III SOFTWARE DESIGN The Design & Implementation of Software: Design objectives & principles, design fundamentals, modular design, design methodologies (Procedural design, object-oriented design), user interface design, Programming language fundamentals, coding style. IV S/W TESTING & MAINTENANCE Software testing, Software testing strategies, white box testing & its types, black box testing & its types, verification and validation, unit testing, integration testing, validation testing, system testing; Software Maintenance: Maintenance characteristics, reverse engineering & re-engineering, software configuration management. Software Quality and Software Quality assurance, software reviews, formal technical reviews, software quality metrics, formal approaches to SQA, software reliability, ISO 9000 recommendations & requirements. BOOKS & RECOMMENDED: 1. Fairley, R.E. “Software Engineering Concepts”, McGraw-Hill, 1985. 2. Jalote, P. “An Integrated Approach to Software Engineering”, Narosa Pub. 3. Pressman, R.S. “Software Engineering: A Practitioner’s Approach”, 3rd ed. McGraw-Hill Inc. 1992. 4. Sommerville, I. “Software Engineering”, Narosa Pub. 5. ISO 9001, “Quality System - Model for quality assurance in design/development, production,

installation and servicing”, Ist ed. 1987-03-15.




WCO-302 OPERATING SYSTEM

I INTRODUCTION & EVOLUTION OF OPERATING SYSTEM

Definition of operating system. Evolution of Operating System, Types Of Operating System, Batch System, Concepts Of Multiprogramming And Time Sharing, Parallel, Distributed, and Real Time System, Network Operating System, Operating System Structure, Components And Service, System Call, System Programs, Virtual Machine, concept of process and threads. PCB.

II PROCESS MANAGEMENT

Process Scheduling, Scheduler Types, Co-Operating Process, Process Creation and Termination, Inter-Process Communication, CPU Scheduling: CPU Scheduler, Preemptive & Non Preemptive Scheduling, Scheduling Criteria, Scheduling Algorithms FCFS, SJF, Priority, And Round Robin Scheduling, Gantt Chart. Process Synchronization: The Critical Section Problem, Algorithms To Solve Critical Section, Semaphore, Classical Problems Of Synchronization. Dead Lock: System Model, Characterization, Resource Allocation Graphs, Methods Of Deadlock Handling: Dead Lock Prevention, Avoidance and Detection, Recovery from Dead Lock, Combined Approach to Deadlock Handling

III MEMORY MANAGEMENT

Concept of memory management. Address Binding, Dynamic Loading, Dynamic Linking, Overlays, Logical And Physical Address Space, Swapping, Contiguous Allocation Space, Single Partition, Multiple Partition Allocation, External And Internal Fragmentation. Paging, Segmentation, Protection and Sharing Virtual Memory Management: Demand Paging and its Performance Page Replacement Algorithm.

IV SECONDARY STORAGE MANAGEMENT

File System: File Concepts, File Attributes, Operations on Files, Access Methods: Sequential, Direct Access, Directory Structure, Protection File-System Implementation: File System Structures, Allocation Methods: Contiguous, Linked, And Indexed Allocation. Free Space Management, Efficiency and Performance Disk Management: Disk Structure & Scheduling Methods: FCFS, SSTF, SCAN, And CSCAN

REFERENCE BOOKS: 1. Silberschatz, Abraham: operating system concepts 2. Harvey M. Deitil: An introduction to Operating System. 3. Godbole. A.S. : Operating Systems. 4. Milan Milenkov: Operating System Design and Concepts




WCO-303: OBJECT ORIENTED PROGRAMMING & C++

I INTRODUCTION TO OBJECT ORIENTATION What is Object Orientation, Modeling the real world, Classes and Object, Objects storage in memory their lifetime & dynamic Objects, Metaclass, Inheritance, Polymorphism, Object Oriented analysis and design. II INTRODUCTION TO C++ & ITS FEATURES Revision of common features of C and C++, Differences in C and C++, Program Structure, new operators in C++: scope resolution, new and delete. Pointers and References. Functions: Inline functions, need of Inline Functions, Argument passing by value, by reference, and by address. III OOP FEATURES OF C++ Classes, objects, constructors, destructors, Polymorphism, Operator and Function Overloading. Inheritance: Introduction, types of Inheritance, single level, multi level, and multiple inheritance, and problems related to these topics. IV I/O HANDLING IN C++ & GENERIC PROGRAMMING

Stream classes, the ios class, ios format flags, I stream and o stream classes, unformatted input functions, unformatted output functions. Generic functions, Explicitly overloading a generic functions, overloading a function template, generic function restrictions, applying generic functions (a generic sort), generic classes. User default arguments with template classes. BOOKS RECOMMENDED:

1. Programming in C++ by E. Balagursawamy, T.M.H. Publications. 2. The Complete Reference by Herbert Schildt. 3. OOP and C++ by David Parson; T.M.H. Publications. 4. Programming in C++ by Robert Lafore; Galgotia Publications.




WIT-301: INDUSTRIAL MANAGEMENT

I INTRODUCTION TO INDUSTRIAL MANAGEMENT Definition of management, its necessity and functions. Management of factors of production. Obligation of industry towards society. Introduction to sole proprietorship, partnership. Joint Stock Company: Public and private sectors, their merits and demerits. II ORGANIZATION Meaning and necessity, line organization, line and staff organization. Committee organization, their merits and demerits. Organization charts. Recruitment, selection, training, types of training. Job satisfaction. III METHODS OF PRODUCTION Production management. Job, batch and mass production. Work study, aims and objectives, control and record of material. Purchase and storage of material. Duties of purchase officer. Economic lot size. IV INDUSTRIAL LEGISLATION Aims of industrial legislation. Salient features of factory Act 1948. Workman compensation Act 1923. Rate of compensation (Revised in 1976). Minimum wages Act. Employees provident fund Act. Welfare services. Books Recommended: 1. Principles and Practice of Management – RS Gupta, BD Sharma, NS Bhalla (Kalyani Publishers) 2. Organization and Management – RD Agarwal (Tata McGraw Hill) 3. Principles and Practice of Management – LM Prasad (Sultan Chand & Sons)




WCO-391: Object Oriented Programming Lab

Exp. 1: Dynamic memory allocation, calloc() and malloc() functions.

Exp. 2: Linked lists. Defining linked lists and basic operations on them.

Exp. 3: Objects and classes.

Exp. 4: Functions in C++

Exp. 5: Polymorphism.

Exp. 6: Inheritance.

Exp. 7: Virtual functions.

Exp. 8: Dynamic polymorphism.

Exp. 9: File handling in C++

Exp. 10: Application based on file handling.

Exp. 11: Error handling in C++

Exp. 12: Templates.




WCO-392: LINUX LAB

S. No. Experiments No. of turns

1. Fundamentals, multiuser and multitasking capability, portability, security, concept of shell, logging into the system, logout from the system.

01

2. Entering a command, confirming your login, finger command, pwd command, directory navigations, creating files, creating directories, copying files, moving files, renaming files, deleting files. Ls command and its features.

01

3. The date command, calendar command, calculator command, accessing Linux manual, introduction to linux file editing.

01

4. Meta-characters, file permissions, basic ‘vi’ techniques. 01

5. Pipes, filters and pattern searching. 01

6. Communication with other users. 01

7. Process handling. 01

8. Useful general purpose commands. 01

9. Basic system security. 01

10. File system and device management. 01

11. Simple shell programs. 01

12. Basic system administration commands. 01




WIT-391: PROJECT LAB-I

Students select their topics based on their knowledge of programming languages and application software with the consultation of their supervisor(s). The lab provides opportunity to work with contemporary programming languages, database management system software and web based software. Students select their topic in the Fifth Semester and start their work with literature review and system design. The implementation, documentation and presentation parts are carried out in the Final (Sixth) Semester.




WCO-305: COMPUTER NETWORKS

I INTRODUCTION Introduction to Computer Networks, applications of Computer Networks, Network configuration-peer to peer & client-server, types of servers, types of network connections, Network topologies(like Mesh, Star, Bus & Ring),Categories of Networks (LAN, MAN, & WAN), Network Performance-bandwidth, throughput, latency (delay), jitter.

II INTERNET TECHNOLOGIES Internet-evolution of internet, the internet today, Protocols and standards, internet standards. Uniform Resource Locator, cookies, types of web documents, Wireless Networks-elements of a Wireless Network, Bluetooth, Introduction to Wi-Fi: 802.11 Wireless LANS. III NETWORK MODELS Layered architecture, protocol hierarchies, data transmission in OSI model, Layers in the OSI model-physical layer, data link layer, network layer, transport layer, session layer, presentation layer, application layer, TCP/IP protocol suite, Connection less transport, Connection Oriented transport, Addressing-Physical, logical(IPv4 ), port & specific addresses.

IV SUBNET LAYERS Transmission Media (Guided media and Unguided Media),Multiple access protocols(CSMA/CD), Ethernet, Introduction to Data Link Control-Flow control, Error Control, DLC protocols –stop-and wait ARQ, Go-Back-N ARQ, Selective Repeat ARQ, Switching Techniques-Circuit Switching, Packet switching-datagram and virtual circuit, router, Routing Algorithms- Link-state Routing, Distance Vector Routing. BOOKS: 1. J.F. Kurose, K.W. Ross, Computer Networking: A Top-Down Approach Featuring the Internet,

Third Edition, Pearson, 2006. 2. A.S. Tanenbaum, Computer Networks, Fourth Edition, PHI, 2004. 3. K.S. Trivedi, Probability and Statistics with Reliability and Queuing and Computer Science

Applications, Second Edition, John Wiley, 2002. 4. Data Communications and Networking (4th Edition) by Behrouz A. Forouzan, Tata McGraw Hill,

N. Delhi




WIT-302: IT INFRASTRUCTURE & SERVICES MANAGEMENT

I FOUNDATIONS CONCEPT Foundations of information systems (IS) in business: System Concepts-components of an IS - IS resources-fundamental roles of IS applications in business-trends in IS - types of IS - managerial challenges of information technology. Competing with information technology (IT): Fundamentals of strategic advantage – strategic uses of IT - the value chain and strategic advantages- the basics of doing business on the Internet II INFORMATION TECHNOLOGIES Managing data resources: Data resource management – types of databases – database management approach- data warehouse data mining and their business applications. The networked enterprise: Networking the enterprise- trends in telecommunications- business value of telecommunication networks- the Internet revolution- the business value of Internet, Intranet, Extarnet. III SERVICE DELIVERY PROCESS IT Infrastructure: IT system management process, service management process, Information System Design, IT infrastructure Library, Service Delivery Process: - service delivery process, service level management, financial management, service management, capacity management, availability, management.

IV SERVICE SUPPORT PROCESS Service Support Process – service support process, configuration management, incident management, problem management, change management, release management, Security Management of IT- tools of security management-internetworked security defenses-security measures- Information Technology Act 2000 in India.

RECOMMENDED BOOKS: 1. Subash Chandra Maurya: Infrastructure & its Management. Technical Publications. 2. Anita Sengar: I.T. Infrastructure Management, 3rd Edition, S.K. Kataria & Sons.




WCO-307: DATABASE MANAGEMENT SYSTEM

I INTRODUCTION Traditional File Management System (TFMS), Problems with TFMS, Introduction to Database System, Goals of DBMS, Components of Database System, Database System Architecture, Classification of DBMS based on H/W platforms, Disadvantages of using databases. II IMPLEMENTATION OF DBMS Database users and their responsibilities in a database implementation, DBMS languages: DDL, DML, User exits, Fourth generation languages, Structure of DBMS, Data mining, Data warehousing, Big data, Need for big data, Simple introduction to Hadoop III INTRODUCTION TO SQL Simple SQL *plus commands – create table, insert, simple queries using SELECT, conditional queries, SQL operators – Arithmetic operators, character operators, comparison operators, logical operators, set operators. Handling null values, arranging query results, sub-queries, function in SQL *plus, concept of joins, simple joins, outer joins, self joins etc. Database maintenance activities – update, delete, drop table, and alter table commands. Simple view creation IV DATA MODELING & DESIGNING The database development life cycle, Data Models: Hierarchical, network and relational models with a description of the logical and data structure representation of data base system. Detailed study of relational database management system – domains, attribute, keys etc. Data normalization: Need for data normalization, first, second and third normal forms. Introduction to relational algebra and relational calculus, query facilities. . IV DATABASE SECURITY AND NEW DATABASE APPLICATIONS The need for security, physical and logical security, design issues, maintenance issues, operating system issues and availability, accountability, integrity, modern database applications – Data mining, data warehousing, knowledge databases, spatial and geographical databases. BOOKS RECOMMENDED: 1. Date, C.J.- Introduction to data base system. Vol. I 2. Dasai Vipin- Introduction to data base. 3. Database System, by A. Silberschatz & Henry F. Korth.




WIT-303: WEB DESIGNING

I INTRODUCTION TO HTML HTML and its applications, HTML basics, document tags, tag attributes, container and empty tags, logical and physical tags, block level and text level element, emphasizing text implicitly and explicitly. Using lists and nested lists in web documents: ordered, unordered lists, menu lists, directory lists, definition lists, graphics for web pages, hotspots, absolute and relative URLs, working with links, tables, frames and forms. II JAVASCRIPT Overview, syntax, comments, variables and Data types, Data conversion, variable - naming rules and conventions, constants, keywords, operators, expressions, if-else, switch case, while loop, for loop, for-in loop, functions, dialog boxes, events (e.g. Onclick, onsubmit, onmouseover, onmouseout), JavaScript Native Objects: Strings, Arrays, Math. JavaScript –Validation (Basic Validation and Data format validation). III PHP BASICS Introduction, Environment, syntax, variables, echo, comments, constants, operators, strings, require vs. include, if statement, if- else, else if, while loop, for loop, for each, do while, switch, forms, functions, array. IV PHP ADVANCED PHP POST & GET, File Handling: create, open, close, write, read, delete, append, truncate, and upload. Strings (strops, str_replace, substr_replace, capitalization), Cookies, Sessions. BOOKS RECOMMENDED: 1. W. Jason Gilmore, “Beginning PHP and MySQL”, Amazon. 2. Robin Nixon, “Learning PHP, MySQL, and JavaScript”, Amazon. 3. E. Stephen Mack , Janan Platt, “HTML 4.0 :No Experience Required”, Sybex Inc. 4. Mark Myers, “A Smarter Way to Learn JavaScript”, Kindle Edition.




WIT-392: COMPUTER MAINTENANCE & NETWORKING LAB

COMPUTER ASSEMBLY AND MAINTENANCE Power supply, motherboard and chipset, memory (RAM & ROM), BIOS, secondary devices: types, methods and interface, input devices, parallel, serial and USB ports, output devices (printers – local and network). Description of latest processors. NETWORKING Connectors, cabling, crimping, installing LAN cards and other networking devices, assigning IP addresses, establishing communication, demonstration of various topologies using various devices (switches). EXTENDING LANS Bridging (S/W bridging), routing (S/W routing), H/W based routing (all experiments will be carried out using simulators), configuring different types of networks (peer-to-per, server based etc.), configuring various network servers, network troubleshooting: commands and case studies, case studies of campus and other networks.




WIT-393: WEB DESIGNING LAB

1. Design a 5-page website of your choice using following HTML elements.

List

Table

Hyperlinks

Images

Hotspots

Frames

2. Add a feedback form to the above website.

3. Embed JavaScript into html pages and display (alert, confirm, prompt) boxes.

4. Programming exercises based on if, if-else, switch-case, while loop, for loop in JavaScript.

5. Write JavaScript related to Onclick, onsubmit, onmouseover, onmouseout evnts.

6. Apply form validations using JavaScript.

7. Programming exercises based on PHP basics.

Include file

Require

Echo

Working with functions

Comments

8. Programming exercise based on if statement, if-else, else if, while loop, for loop, for each, do while, switch in PHP

9. String handling in PHP: strops, str_replace, substr_replace, capitalization, explode, implode

10. File handling in PHP: creating, deletion, open, write, append, close, read, write

11. Write a program in PHP to create sessions

12. Write a program in PHP to create cookies



WIT-394: PROJECT LAB-II

Students select their topics based on their knowledge of programming languages and application software with the consultation of their supervisor(s). The lab provides opportunity to work with contemporary programming languages, database management system software and web based software. Students select their topic in the Fifth Semester and start their work with literature review and system design. The implementation, documentation and presentation parts are carried out in the Final (Sixth) Semester.

wma-101: applied mathematics-i i … of pn junction/diode, pn junction with no external voltage and...

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