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Professional Communication Skills
SYLLABUS
Time : 2 hrs.
Theory : 60
Marks
Term Work/Tutorial/Practical : 50
Marks
1.The Seven Cs of Effective Communication :
Completeness, Conciseness, Consideration, Concreteness, Clarity, Courtesy, Correctness
2.Communication: Its interpretation :
Basics, Nonverbal Communication, Barriers to Communication
3.Business Communication at Work Place:
Letter Components and Layout, Planning a letter, Process of Letter writing,
E-mail Communication, Memo and Memo reports, Employment Communication, Notice agenda and Minutes of meeting, Brochures4.Report Writing :
Effective writing, type of business reports, structure of reports, gathering information, organization of the material, writing abstracts and summaries, writing definitions, visual aids, user instruction manual.
5.Required Skills :
Reading skills, listening skills,
note-making, précis writing, audiovisual aids, oral communication6.Mechanics of Writing :
Transitions, Spelling rules, hyphenation, transcribing numbers, Abbreviating technical and non- technical terms, Proof reading.
Reference :
1.Professional Communication by Aruna Koneru, McGrawHill
2.Effective Business Communication by Herta A Murphy, Herbert W Hildebrandt, Jane P Thomas, McGrawHill.
3.Business Communication, Lesikar and Petit, McGrawHill
4.Communication Skills Handbook, Summers, Wiley, India
5.Business Communication (Revised Edition), Rai and Rai, Himalaya Publishing House
6.Business Correspondence and Report Writing by R.C. Sharma and Krishna Mohan, TMH.
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Applied Mathematics I
SYLLABUS
Time : 2 hrs.
Theory : 60 Marks
Term Work/Tutorial/Practical : 50 Marks
1.Matrices :
Minors and Cofactors, Adjoint of a square matrix, Inverse of a matrix. Rank of a matrix, Solution of Homogeneous and non homogeneous linear Equations using Matrix method.
2.Eigen Values and Eigen Vectors:
Vectors, linear combination of vectors, Inner Product of two vectors, characteristic equation, Eigen Vector, Cayley – Hamilton Theorem, Similarity of Matrices, Derogatory and
Non-derogatory matrices, Complex Matrices: Hermitian,skew-Hermitian and Unitary matrices and their properties.3.Vector Calculus:
Vector Differentiation: Vector Operator Del, Gradient, and Geometrical meaning of gradient, Divergence and Curl.
4.Differential Equations:
Differential Equations of 1st order and 1st degree and applications.
5.Linear Differential Equations:
Linear Differential Equations with constatnt coefficient , Differential equations of higher order and applications.
6.Successive differentiation, Mean Value theorems, Partial differentiation, Euler’s Theorem,
Approximation and errors, Maxima and Minima.
Reference:
1.Engineering Mathematics A tutorial approach by R.R. Singh and Mukul Bhatt, TMH 2010.
2.Text Book of Applied Mathematics Vol I and Vol II. P.N. Wartikar & J.N. Wartikar, Pune Vidyarthi Griha Prakashan
3.Higher Engineering Mathematics by B.V.Ramana, McGrawHill
4.Differential Calculus by Shanti Narayan. S. Chand.
5.Higher Engineering Mathematics by B.S. Grewal, Khanna Publications.
6.Vector Analysis by Murray Spiegel, McGrawHill.
7.Matrices by Vashistha, S. Chand.
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Fundamentals of Digital Computing (Sem. I)
Time : 2 hrs.
Theory : 60 Marks
Term Work/Tutorial/Practical : 50 Marks
1.Data and Information:
Features of Digital Systems, Number
Systems-Decimal, Binary, Octal, Hexadecimal and their inter conversions, Representation of Data: Signed Magnitude, one’s complement and two’s complement, Binary Arithmetic, Fixed point representation and Floating point representation of numbers.Codes:
BCD,
XS-3, Gray code, Hamming code, alphanumeric codes (ASCII, EBCDIC, UNICODE), Error detecting and error correcting codes.2.Boolean Algebra:
Basic gates (AND, OR, NOT gates), Universal gates (NAND and NOR gates), other gates (XOR, XNOR gates). Boolean identities, De Morgan Laws.
Karnaugh maps:
SOP and POS forms, Quine McClusky method.
3.Combinational Circuits:
Half adder, full adder, code converters, combinational circuit design, Multiplexers and demultiplexers, encoders, decoders, Combinational design using mux and demux.
4.Sequential Circuit Design:
Flip flops (RS, Clocked RS, D, JK, JK Master Slave, T, Counters, Shift registers and their types, Counters: Synchronous and Asynchronous counters.
5.Computers:
Basic Organisation, Memory: ROM, RAM, PROM, EPROM, EEPROM, Secondary Memory: Hard Disk and optical Disk, Cache Memory, I/O devices
6.Operating Systems:
Types (real Time, Single User / Single Tasking, Single user / Multi tasking, Multi user / Multi tasking, GUI based OS. Overview of desktop operating
systems-Windows and LINUX.Reference:
1.Modern Digital Electronics by R.P.Jain, 3rd Edition, McGrawHill.
2.Digital Design and Computer Organisation by Dr. N.S. Gill and J.B. Dixit, University Science Press.
3.Linux Commands by Bryan Pfaffaenberger BPB Publications.
4.UNIX by Sumitabha Das, TMH.
5.Digital Principles and Applications by Malvino and Leach, McGrawHill..
6.Introduction to Computers by Peter Norton, McGrawHill.
7.Introduction to Computers by Balagurusamy.
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Electronics and Communication Technology(Sem. I)
Time : 2 hrs.
Theory : 60 Marks
Term Work/Tutorial/Practical : 50 Marks
1.Concept of Conductor, Semiconductor, Insulator. Semiconductor Diode, Forward bias, Reverse Bias, Application of Diode as Rectifier, Zener diode and its applications, Introduction to Transistor (BJT, FET), PNP, NPN Transistors their Characteristics. Application of Transistor as amplifier and as a Switch.
2.Concept of amplification, amplifier notations, Av, Ai, Ap Zi, Zo), Application of BJT as single stage Amplifier, Frequency response of single stage Amplifier. Multistage Amplifiers:- (Basics concepts) RC coupled, cascade, Darlington pair, DC amplifiers.
3.Concept of Feedback:- Negative Feedback and its advantage in Amplification, Positive Feedback :- Oscillators, RC Phase Shift Oscillator, LC Oscillator. Switching Circuits Multivibrators :- Monostable using IC 555 and Astable using IC 555 (including problems)
4.Introduction :- Need for modulation system, Concept of Modulation. AM :- Definition of AM, Modulation index, Power requirement in comparison with AM, Advantages of SSB over AM, Concept of Balanced Modulator, Generation of SSB, Pilot Carrier System, Independent Side System, Vestigial Sideband Transmission.
5.FM :- Definition of FM, Bandwidth, Noise triangle,
Per-emphasis andDe-emphasis. PM:- Definition of PM. Difference between AM and FM. Radio receivers. Pulse Modulation :- Sampling Theorem, PAM, PTM, PWM, PPM, pulse code modulation, Quantization noise, companding, PCM system, differential PCM, Delta modulation.Multiplexing :-FDM, TDM. Television :- Scanning, Composite Video signal, Television Transmitter, television receiver.6.Introduction to Digital Communication : PSK, ASK, FSK.
Introduction to fibre optics system - Propagation of light in optical fibre; ray model. Types of fibre: Single mode, steps index. Graded index. Signal distortion: attenuation, dispersion. Optical sources: LED, LASERS. Optical Detectors and optics links. Link Budget.
Reference:
1.Allen Mottershead, “Electronic Devices and Circuits”, PHI.
2.Boylstead and Neshelesky, “Electronics Devices and Circuits”, 4th, PHI, 1999.
3.Simon Haykin, “An Introduction to Analog and Digital communications”, John Wiley and Sons,
1994.
4.R.B. Carlson, “Communication Systems”, McGrawHill.
5.George Kennedy, “Electrical Communication Systems”, Tata McGrawHill 1993.
6.Roody Collin, “Electronics Communication”, PHI.
7.J. Millman and A Grabel “Microelctronics” MacGraw Hill 1988.
8.Proakis J.J, “Digital Communications” Mc Graw Hill.
9.Digital Communications by TAUB Schilling.
10.Electronic Communication Systems, Roy Blake Delmar, Thompson Learning.
11.Introduction To telecommunication, Anu A Gokhale, Delmar Thompson Learing.
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Introduction to C++ programming (Sem. I)
Time : 2 hrs.
Theory : 60 Marks
Term Work/Tutorial/Practical : 50 Marks
1.Programming Logic and Techniques :
Algorithms,
Flow-Charts, Program Design.Introduction to C++: Origin of C++, A Sample C++ program, pitfall and programming tips. Testing and Debugging.
2.C++ concepts:
Variables and Assignments: variables, identifiers, variable declarations, Assignment Statements, reference variable, symbolic constant.
Input and Output: cin, cout, escape sequences, include directives and Namespaces, Indenting and Comments, Operator precedence.
Data types and expressions, Arithmetic operators, Type compatibilities.
3.Flow of Control Compound statements
Loops: while, for, do while, nested loops.
Decision making: if – else, nested if else, switch, break and continue. Manipulators: endl, setw, sizeof.
Increment and decrement operators.
Type Cast Operators, Scope resolution operators.
4.Functions
Function Prototypes, built in functions and user defined functions,
Function overloading, Call by reference, Call by value, const member functions. Inline Functions and recursive functions, Math Library Functions.
5.Derived Data types (Arrays, pointers, functions)
Introduction to arrays, arrays in functions, 2D arrays, Multidimensional arrays.
Introduction to pointers, void pointers, pointers in function, pointer to constant and constant pointer, generic pointer.
6.String, Vectors and Structures
String functions: stremp, streat, strlen, strepy. Vector Basics. Introduction to Structures.
Reference:
1.Problem Solving with C++, Walter Savitch, Sixth Edition, Pearson Education.
2.J.R. Hubbard, Schaum’s outlines “Programming with C++”, Second Edition, Tata McGrawHill.
3.Y.P. Kanetkar, “Let us C++”, seventh edition, BPB publication.
4.Object Oriented programming with C++, E Balagurusamy, Third Edition, Tata McGrawHill.
5.Object oriented programming with C++ Poonamchandra Sarang, PHI Second Edition.
6.Pure C++ programming, Amir Afzal, Pearson Education.
7.Computer Science – A structured Approach using C++ bu B. Forouzan, R.F. Gilberg, Cengage Publication.
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Web Technology(Sem. II)
Time : 2 hrs.
Theory : 60 Marks
Term Work/Tutorial/Practical : 50 Marks
1.Internet and WWW :
What is Internet?, Introduction to internet and its applications,
E-mail, telnet, FTP,e-commerce, video conferencing,e-business. Internet service providers, domain name server internet address. World Wide Web (WWW)World Wide Web and its evolution, uniform resource locator (URL), browsers internet explorer, netscape navigator, opera, firefox, chrome, mozilla, search engine, web saver apache, IIS, proxy server, HTTP protocol.
2.HTML and Graphics
HTML Tag Reference, Global Attributes, Event Handlers, Document Structure Tags, Formatting Tags, Text Level formatting, Block Level formatting, List Tags, Hyperlink tags, Image and Image maps, Table tags, Form Tags, Frame Tags, Executable content tags.
Imagemeaps
What are Imagemaps?,
Client-side Imagemaps,Server-side Imagemaps, UsingServer-side andClient-side Imagemaps together, Alternative text for Imagemaps.Tables
Introduction to HTML tables and their structure, The table tags, Alignment, Aligning Entire Table, Alignment within a row, Alignment within a cell, Attributes, Content Summary, Background Color, Adding a Caption, Setting the width, Adding a border, Spacing within a cell, Spacing between the cells, Spanning multiple rows or columns, Elements that can be placed in a table, Table Sections and column properties, Tables as a design tool
Frames
Introduction to Frames, Applications, Frames document, The <FRAMESET> tag, Nesting <FRAMESET> tag, Placing content in frames with the <FRAME> tag, Targeting named frames, Creating floating frames, Using Hidden frames
Forms
Creating Forms, The <FORM> tag, Named Input fields, The <INPUT> tag, Multiple lines text windows, Drop down and list boxes, Hidden, Text, Text Area, Password, File Upload, Button, Submit, Reset, Radio, Checkbox, Select, Option, Forms and Scripting, Action Buttons, Labelling input files, Grouping related fields, Disabled and
read-only fields, Form field event handlers, Passing form data.Style Sheets
What are style sheets? Why are style sheets valuable? Different approaches to style sheets, Using Multiple approaches, Linking to style information in s separate file, Setting up style information, Using the <LINK> tag, Embedded style information, Using <STYLE> tag, Inline style information.
3.Java Script
Introduction,
Client-Side JavaScript,Server-Side JavaScript, JavaScript Objects, JavaScriptSecurity,
Operators
Assignment Operators, Comparison Operators, Arithmetic Operators, % (Modulus), ++ (Increment), (Decrement), (Unary Negation), Logical Operators,
Short-Circuit Evaluation, String Operators, Special Operators, ?: (Conditional operator), (Comma operator), delete, new, this, voidStatements
Break, comment, continue, delete, do…while, export, for, for…in, function, if…else, import, labelled, return, switch, var, while, with,
Core JavaScript (Properties and methods of Each)
Array, Boolean, Date, Function, Math, Number, Object, String, regExp
Document and its associated objects
Document, Link, Area, Anchor, Image, Applet, Layer
Events and Event Handlers
General Information about Events, Defining event Handlers, event, onAbort, onBlur, onChange, on Click, onDblClick, onDragDrop, onError, onFocus, onKeyDown, onkeyPress, onKeyUp, onLoad, onMouseDown, onMouseMove, onMouseOut, onMouseOver, onMouseUp, onMove, onReset, onResize, onSelect, onSubmit, onUnload.
4.XML
Introduction to XML, Anatomy of an XML document, Creating XML Documents, Creating XML DTDs, XML Schemas, XSL.
5.PHP
Why PHP and MySQL?,
Server-side web scripting, Installing PHP, Adding PHP to HTML, Syntax and Variables, Passing information between pages, Strings, Arrays and Array Functions, Numbers, Basic PHP error/problems.6.Advanced PHP and MySQL
PHP/MySQL Functions, Displaying queries in tables, Building Forms from queries, String and Regular Expressions, Sessions, cookies and HTTP, Type and Type Conversions,
E-mail
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Applied MathematicsII (Sem. II)
Time : 2 hrs.
Theory : 60 Marks
Term Work/Tutorial/Practical : 50 Marks
1.Complex Numbers:
Cartesian, Polar & Exponential form, DeMoivre’s theorem, Hyperbolic functions, Logarithms of
Complex numbers.
2.Complex Variables:
Cauchy Riemann Equations, Conformal Mapping and Bilinear Mapping, concept of Line Integral, Riemann Integral, Singularities
–Poles, Evaluation of Residues theorem.3.Laplace Transform:
Introduction, Definition, Properties of Laplace Transform, Laplace Transform of standard function. Inverse Laplace Transform: Inverse Laplace Transform, Methods of obtaining inverse Laplace transform, Laplace transform of Periodic Functions, Heavyside
Unit-step Function,Dirac-delta function (Unit Impulse Function), Application of Inverse Laplace transform to solve differential equations.4.Differentiation under Integral sign, Beta and Gamma Functions, Properties and Duplication Formula, Error Functions.
5.Fourier Series:
Fourier Series, Change of Interval, Even and odd functions, Half range expansions. Fourier Transform and Inverse Fourier Transform:
Fourier transform of Even and Odd functions, Fourier Transform of sine and cosine functions
6.Integral Calculus:
Double Integral, Area, Triple Integral, Volume.
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Microprocessor and Microcontrollers(Sem. II)
Time : 2 hrs.
Theory : 60 Marks
Term Work/Tutorial/Practical : 50 Marks
1.Logic devices: Tristate devices, buffers, encoder, decoder, latches, Types of memory organization, concept of control lines such as read/write chip enable.
2.Introduction to 8085 microprocessor :- Organization of Microprocessor based system, 8085 p Architecture, Concept of Address line and Memory interfacing, Address Decoding and Memory Interfacing.
3.8085 Programming Model, Instruction Classification, Instruction Format, 8085 Instruction Set.
4.Introduction to Modern day Computer Systems :- Organization and Architecture, Structure and function.
System Buses :- Computer Components, Computer function,
PCI :-Features of PCI bus, Why PCI bus is needed? Concept of PCI Arbitration.Internal Memory :- Concept of Cache Memory, Methods of Cache Mapping, Concept and need for Cache coherency. External
memory :-RAID. 5.The 8051Microcontroller:
Introduction and overview of 8051 family, 8051 Assembly Language Programming, Jumps, Loops and call instructions.
6.8051 I/O port programming, Addressing Modes, Arithmetic and Logical instructions.
Reference:
1.William Stallings, “Computer Organisation and Architecture” (4th Edition) – PHI, 1998.
2.Andrew C. Tanenbaum, “Structured Computer Organisation” (3rd Edition) PHI.
3.Computer System Architecture M.Morris Memo, PHI, 1998.
4.John P. Hayes, “Computer Architecture and Organisation” McGrawHill, 1998.
5.Digital Computer Fundamentals, Malvino.
6.Microprocessor Architecture and Programming and Applications with the 8085, R.S. Gaonkar, PRI (3rd Edition)
7.Digital Computer Fundamentals, Thomas C. Bartee, TMG
8.The 8051 Microcontroller and Embedded systems by M.A. Mazidi, J.G. Mazidid and R.D. McKinlay, Pearson Education.
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DBMS(Sem. II)
Time : 2 hrs.
Theory : 60 Marks
Term Work/Tutorial/Practical : 50 Marks
1.Introduction to Databases and Transactions :
What is database system, purpose of database system, view of data, relational databases, database architecture, transaction management,
2.Data Models
The importance of data models, Basic building blocks, Business rules, The evolution of data models, Degrees of data abstraction.
3.Database Design,
ER-Diagram and Unified Modeling LanguageDatabase design and ER Model: overview,
ER-Model, Constraints,ER-Diagrams, ERD Issues, weak entity sets, Codd’s rules, Relational Schemas, Introduction to UMLRelational database model: Logical view of data, keys, integrity rules.
Relational Database design: features of good relational database design, atomic domain and Normalization (1NF, 2NF, 3NF, BCNF).
4.Relational Algebra and Calculus
Relational Algebra: Introduction, Selection and projection, set operations, renaming joins, Division, syntax, semantics, Operators, grouping and ungrouping, relational comparison.
Calculus: Tuple relational calculus, Domain relational Calculus, calculus vs algebra, computational capabilities.
5.Constraints, Views and SQL
What is constraints, types of constrains, Integrity constraints,
Views: Introduction to views, data independence, security, updates on views, comparison between tables and views.
SOL: data definition, aggregate function, Null Values, nested sub queries, Joined relations. Triggers.
6.Transaction management and Concurrency control
Transaction management: ACID properties, serializability and concurrency control, Lock based concurrency control (2PL, Deadlocks), Time stamping methods, optimistic methods, database recovery management.
Reference:
1.A Silberschatz, H Korth, S Sudarshan, “Database System and Concepts”, fifth Edition McGrawHill.
2.Rob, Coronel, “Database Systems”, Seventh Edition, Cengage Learning.
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Data communication and Network Standards(Sem. II)
Time : 2 hrs.
Theory : 60 Marks
Term Work/Tutorial/Practical : 50 Marks
1.Introduction to Data communications and Networking
Introduction, Fundamental concepts, Data communications, Protocol, standards, standards, standard organizations, signal propagation, analog and digital signals, bandwidth of signal and a medium, Fourier analysis and the concept of bandwidth of a signal. The data transmission rate and bandwidth.
2.Network Models
Layered Tasks, The OSI reference model, Layers in the OSI reference model.
3.Information Encoding, Errors Detection and Correction
Introduction, Representing different symbols, Minimizing errors, Multimedia, Multimedia and Data compression. Error classification, types of errors, redundancy, detection versus correction, hamming distance, cyclic redundancy check.
4.Media and Transmission modes
Data and signal, Periodic analog signals, Digital signals, Transmission impairment, Data rate limits, Performance, Digital to digital, Analog to digital conversion.
Transmission modes, Digital to analog conversion, Analog to analog conversion, Guided media and Unguided media.
5.Network topologies, Switching and routing algorithms
Mesh, star, tree, ring, bus, hybrid, switching basics, circuit switching, packet switching and Message switching, routing algorithms.
6.IP version 6
Overview, Terminology, IPv6 addresses, Special addresses, IP v 6 header formats, IPv6 extension headers, IPv6 extension headers, IPv6 autoconfiguration, configuration via DHCP v 6, IPv6 transition
Reference:
1.Behrouz A Forouzan, “Data communications and Networking”, Fourth Edition, McGrawHill.
2.Achyut Godbole, “Dta communications and Networks, TMH.
3.Dr. Sidnie Feit, “TCP/IP”, Second Edition, TMH
4.W.Stallings, “Data and Computer Communications”, Eight Edition, Pearson Education.