Department Of Electronics and Telecommunication Engineering

Group 1: Humanities Courses

ENG 113 English Language I
No of credits: 3.0
Pre-requisite(s): NIL
Grammar: Tenses, articles, prepositions, subject-verb agreement, clauses, and conditionals.
Transformation of sentences: Active-passive transformations, reported speech.
Phonetics: How to use a dictionary, IPA symbols, word transcriptions, intonations, and stress. Vocabulary building: Correct and precise diction, affixes, idiomatic expressions, level of appropriateness, colloquial and informal, standard and formal.
Developing writing skills: Sentences, sentence variety, generating sentences, sentence clarity and correctness, linking sentences to form paragraphs; Précis writing; Amplification; Report writing –using TWE model; Business communication and tenders; Informal letter writing.

Text and Reference Books:

  1. Applied English Grammar & Composition, Nesfield, Wren & Martin Complied by: Dr. P.C. Das
  2. Oxford Practice Grammar, New edition, John Eastwood
  3. A Passage to the English Language, S.M.Zakir Hussain
  4. Headway, Intermediate Students Book, Liz & John Soars
  5. Oxford Advanced Learners Dictionary, A S Hornby
  6. English Grammar in Use, Raymond Murphy

ENG 123 English Language II
No of credits: 3.0
Pre-requisite(s): ENG 113
The techniques of effective communications in English. It emphasizes on analytical reading and writing, techniques of effective speaking and listening at interpersonal and organizational settings. The objective is to develop the skills of students at TOEFL standard. Grammar- Abbreviation and Italics, Punctuation. Formulaic expression, speaking tasks and other aspects of Speaking, Listening, Reading and Writing. Problem oriented writing of essays.

Text and Reference Books:

  • Functional Comprehension: donn Byrne: Longman
  • Situational Dialogues: Michael Ockenden: Longman 1981
  • How to Write First Class Business Correspondence: L. Baugh, M. Frayer, D. Thomas
  • Cambridge Skills for Fluency: Adrian Doff, Carolyn Becket: 1994: Cambridge
  • Headway, Intermediate Students Book.
  • Cambridge IELTS Series

BBA 215 Financial and Managerial Accounting
No of credits: 2.0
Pre-requisite(s): NIL
Financial Accounting: Objectives and importance of accounting, branches of accounting, accounting as an information system, computerized system and application in accounting. Recording Systems: double entry mechanism, accounts and their classification, accounting equation, accounting cycle journal, ledger, trial balance. Preparation of financial statements considering adjusting and closing entries. Accounting concepts and conventions. Financial statements analysis and interpretation: ration analysis- tests for profitability, liquidity, solvency and overall measure.
Costs and Management Accounting: Cost concept and classification. Segregation and mixed costs. Overhead costs: meaning and classification, allocation of overhead cost, overhead recovery method. Job order costing: preparation of job cost sheet and quotation price. Inventory valuation: absorption costing and variable costing technique. Cost volume profit analysis: meaning, breakeven analysis, contribution margin approach, sensitivity analysis. Short term investment decision: relevant and differential  cost analysis; Linear programming. Long term investment decisions: capital budgeting, various techniques of evaluation of capital investment, investment appraisal under uncertainty, risk management, capital rationing. Concept of working capital, need for working capital, management of cash, stock debtors.

Text and Reference Books:

  • Cost Accounting: A Manager Emphasis

Horngren, Datar and Foster
Publisher: Prentice Hall of India
ISBN: 81-203-2909-0

  • Cost Accounting: An Introduction

Nigam and Jain
Publisher: Prentice Hall of India
ISBN: 81-203-1940-0

  • Financial Accounting: A Managerial Perspective

Narayanswamy
Publisher: Prentice Hall of India
ISBN: 81-203-2795-0

  • Financial Engineering: A Complete Guide to Financial Innovation

Horngren, Datar and Foster
Publisher: Prentice Hall of India
ISBN: 81-203-2909-0

BBA 131 Principles of Economics
No of credits: 2.0
Pre-requisite(s): NIL
Introduction to economics. Economics and engineering. Different economics systems. Fundamental economic problems. Basic elements of demand, supply and product market. Theory of utility and preferences, consumer’s surplus. Theory of production and costs, Theory of the firm and market structure. Optimization.
Introducing macroeconomics. National income accounting; the simple Keynesian analysis of national income, employment and inflation. Savings, investment and decision making. Fiscal policy and monetary  policy and interest rates, income and spending.
Economics of development and planning.

 

Text and Reference Books:
1. Basic Economics
Thomas Sowell
Publisher: Basic Books
ISBN-10: 0465002609
ISBN-13: 978-0465002603

2. Economics
Campbell R McConnell, Stanley L Brue
Publisher: McGraw-Hill/Irwin
ISBN-10: 0073126632
ISBN-13: 978-0073126630

3. Fundamentals of Economics
William Boyes and Michael Melvin
Publisher: Houghton Mifflin Company
ISBN-10: 0618496300
ISBN-13: 978-0618496303

4. Fundamentals of Engineering Economics
Chan S. Park
Publisher: Prentice Hall
ISBN-10: 0132209608
ISBN-13: 978-0132209601

5. Fundamental Methods of Mathematical Economics
Alpha C. Chiang, Kevin Wainwright
Publisher: McGraw Hill Higher Education
ISBN-10: 0071238239
ISBN-13: 978-0071238236

GED 417 Bangladesh Studies
No of credits: 3.0
Pre-requisite(s): NIL
Part – A Roots of Bangladesh: Ancient Bengal, The Medieval Bengal, British Rule, Emergence of Bangladesh, Mind and Culture of Bangladesh, Education in Bangladesh, Literature, Ethnic Insurgency, Foreign policy.
Part – B: Politics and Economy of Bangladesh (1971-2003), Government and Administration, Executive, Legislature, Judiciary.

Text and Reference Books:

  • A New Geography of Bangladesh, Nafis Ahmed, Vikash Publication, India.
  • Bangladesh: National Scenario, Foreign Policy and SAARC, Syed Anwar Hossain, Agami Prokashoni, Dhaka 2001.
  • Administrative Reforms in Bangladesh, Mohammad Mohabbat Khan, South Asian Publishing and University Press Limited, 1998, India.
  • Dominant Executive and Dormant Legislature, Mohammad Mohabbat Khan, South Asian Publishing and A. H. Development Publishing House, 2006, India.
  • Banglapedi, Asiatic Society of Bangladesh.

Group 2: Mathematics and General Science Courses

MAT 111 Mathematics I (Differential and Integral Calculus)
No of credits: 3.0
Pre-requisite(s): NIL
Differential Calculus: Numbers, Functions, Limits, Continuity and Differentiability, Successive differentiations of various types of functions, Leibnitz’s theorem, Rolle’s theorems, Mean value theorems, Taylor’s and McLaurin’s theorems in finite and infinite forms. Lagrange’s form of remainders. Cauchy’s form of remainders. Expansion of functions by differentiation and integration. Evaluation of indeterminate forms by L’Hospital rule. Partial differentiation. Euler’s theorem. Tangent and Normal. Subtangent and subnormal in Cartesian and Polar co-ordinates. Determination of maximum and minimum values of functions and point of inflection. Applications. Curvature: radius, circle, centre, chord of curvature. Asymptotes.
Integral Calculus: Integration by the method of substitution. Standard integrals. Integration by successive reduction. Definite integrals, its properties and use in summing series. Walli’s formulae. Improper integrals, beta functions and gamma functions. Area under a plane curve and area of a region enclosed by two curves in Cartesian and polar co-ordinates. Volumes of solids of revolution. Volume of hollow solids of revolution by shell method. Area of surface of revolution. Jacobians. Multiple integrals with applications.

Text and Reference Books:

  • Differential Calculus,  Dr. Md. Abdul Matin &  Bidhuvushon Chakroborty
  • Intigral Calculus,  Dr. Md. Abdul Matin &  Bidhuvushon Chakroborty
  • Calculus with Analytic Geometry, Haward Anton
  • Calculus with Analytic Geometry, Thomas and Finney
  • Calculus with Analytic Geometry,Swakwaski

 
MAT 121 Mathematics II (Complex Variable, Linear Algebra and Co-ordinate Geometry)
No of credits: 3.0
Pre-requisite(s): MAT 111
Complex Variable:
Complex number system. General functions of a complex variable. Limits and continuity of a function of a complex variable and related theorems. Complex differentiation and the Cauchy-Riemann equations. Infinite series. Convergence and uniform convergence. Line integral of a complex function. Cauchy integral formula. Liouville’s theorem. Taylor’s and Laurent’s theorem. Singular points. Residue theorem.
Linear Algebra:
Determinants: Evaluation, Cramer’s Rule. Matrix: operations, different types, Echelon form – elementary row operations, Rank. Linear equation: systems, solution, Gaussian elimination. Vector space: vectors, liner dependency, bases, Euclidian space, inner product and inner product space, Gram-Schimidt Orthogonalization. Linear transformations: basic concepts, linear operators. Eigenvalue and Eigenvectors: diagonalization, Cayley-Hamilton theorem; Quadratic forms and Hermitian forms.
Co-ordinate Geometry:
Coordinate systems: 2D and 3D Cartesian, polar, cylindrical, and spherical, their mutual relationship. Simplification of equation of curves. Distance between two points, section formula, projection, direction cosines, equation of planes and lines. Quadratics equations and conic sections, quadratic surfaces, rotations.

Text and Reference Books:

  • Linear Algebra, Abdur Rahman
  • Linear Algebra Schaums series
  • Complex variables Schaums series
  • Calculus with Analytic Geometry, Haward Anton
  • Calculus with Analytic Geometry, Swakwaski
  • Calculus with Analytic Geometry,Thomas and Finney

MAT 131 Mathematics III (Ordinary and Partial Differential Equations)
No of credits: 3.0
Pre-requisite(s): MAT 121
Ordinary Differential Equations: primitive, order of differential equation, degree of differential equation, ordinary and partial differential equations. Formation of differential equation, solution of differential equation, general solution, arbitrary and fixed constant. Equation of variable separable form, Homogeneous equation reducible to homogeneous form, Non homogeneous equation, exact differential equation, equation reduced to exact form, linear differential equation, Bernoulli’s equation (/equation reduced to linear form). Solution of differential equation by the method based on the factorization of the operators. Frobenius method. First order high degree equation, Clairaut’s equation. Application of first order differential equation: Growth and Decay model, Orthogonal Trajectory. Higher order linear differential equation with constant co-efficient (Whose right hand is zero, polynomial function, exponential function, trigonometric function, mixed exponential function). Higher order differential equation with variable co-efficient: variation of parameter formula, Wronskian, method of undetermined co-efficient. Bessel’s and Legendre’s differential equations.
Partial Differential Equations: Introduction, Linear and non-linear first order equation. Standard forms, linear equations of higher order, equations of the second order with variable coefficients. Wave equations, particular solution with boundary and initial conditions.

Text and Reference Books:

  • A First Courses in Differential Equations with Modeling Application, Dennis and Zill
  • Differential Equation, Dr. Md. Abdul Matin &  Bidhuvushon Chakroborty 
  • Ordinary and  Partial Differential  Equation, RaiSinghania

    MAT 215 Engineering Mathematics
    No of credits: 3.0
    Pre-requisite(s): MAT 131
    Vector analysis: Multiple product of vectors. Linear dependence and independence of vectors. Differentiation and integration of vectors together with elementary applications. Line, surface, and volume integrals. Gradient of a scalar function, divergence and curl of a vector function, various formulae. Integral forms of gradient, divergence and curl.Divergence theorem. Stoke’s theorem, Green’s theorem and Gauss’s theorem.
    Fourier Analysis: Real and Complex form of Fourier series, finite transform, Fourier integral, Fourier transforms & their uses in solving BVP of wave equations, properties of Fourier series and transforms. Discrete Fourier Transform (DFT).
    Laplace Transform: introduction, inverse transform and transforms of derivative, Translation theorems, Dirac Delta function, Systems of linear equations.

    Text and Reference Books:

    1. Advanced Engineering Mathematics

    Erwin Kreyszig E. Kreyszig
    Publisher: Wiley
    ISBN-10: 0471488852
    ISBN-13: 978-0471488859.

    1. Advanced Engineering Mathematics

    Peter V. O'Neil
    Publisher: Cengage-Engineering
    ISBN-10: 0534552080
    ISBN-13: 978-0534552084

    1. Engineering Mathematics

    K. A. Stroud, Dexter J. Booth
    Publisher: Industrial Press Inc.
    ISBN-10: 0831133279
    ISBN-13: 978-0831133276

    1. 4. Mathematical Methods for Physics and Engineering

    Ken F. Riley, Mike P. Hobson, Stephen J. Bence
    Publisher: Cambridge University Press
    ISBN-10: 0521683394
    ISBN-13: 978-0521683395

    1. Schaum's Outline of Vector Analysis

    Murray R. Spiegel
    Publisher: McGraw-Hill
    ISBN-10: 007060228X
    ISBN-13: 978-0070602281

    1. The Laplace Transform: Theory and Applications

    Joel L. Schiff
    Publisher: Springer
    ISBN-10: 0387986987
    ISBN-13: 978-0387986982

    1. Essential MATLAB for Scientists and Engineers

    Brian Hahn
    Publisher: Butterworth-Heinemann
    ISBN-10: 0750652403
    ISBN-13: 978-0750652407

    STA 133 Statistics and Probabilities
    No of credits: 3.0
    Pre-requisite(s): MAT 121
    Data and Information; Graphical representation of data; Frequency distribution; central tendency; dispersion; Moments, skewness and kurtosis; Correlation, Regression analysis; probability theory, probability distribution, (binomial, Poisson and negative binomial); Normal distribution, Quene theory; Characteristics of distributions; Elementary sampling theory; Estimation; Hypothesis testing.

    Text and Reference Books:
    1. Statistics
    David Freedman, Robert Pisani, Roger Purves
    Publisher: W. W. Norton
    ISBN-10: 0393929728
    ISBN-13: 978-0393929720

    2. Probability and Statistics with Reliability, Queuing and Computer Science Application
    Trivedi
    Publisher: Prentice-Hall of India
    ISBN: 81-203-0508-6

    3. Statistics- Concepts and Applications
    Pal & Sarkar
    Publisher: Prentice-Hall of India
    ISBN: 81-203-2679-2

    4. Miller & Freund’s Probability and Statistics for Engineers
    Johnson
    Publisher: Prentice-Hall of India
    ISBN: 81-203-2834-5

    PHY 113 Physics I (Mechanics, Heat and Thermodynamics, Waves, Oscillations and Optics)
    No of credits: 3.0
    Pre-requisite(s): NIL
    Basic Concepts of Mechanics, Motion in One-dimension, Motion in Plane, Particle dynamics, Work and Energy, Circular motion, Simple Harmonic Motion, Rotation of rigid bodies
    Principles of temperature measurements, Kinetic theory of gases, Brownian motion, temperature and zeroth law of thermodynamics, Thermal equilibrium and thermal expansion. First and second law of thermodynamics and their applications, Entropy and Third law of thermodynamics.
    Wave motion and propagation, Simple harmonic oscillator, Two body oscillation, Power and intensity of wave motion, Doppler effect.
    Theory of light, huygen’s principle, Electromagnetic waves, Reflection, Refraction, Interference, Diffraction and Polarization.

    Text and Reference Books:
    1. Physics: Principles with Applications
    Douglas C. Giancoli
    Publisher: Pearson Education
    ISBN-10: 0131846612
    ISBN-13: 978-0131846616

    2. Physics
    John D. Cutnell, Kenneth W. Johnson
    Publisher: Wiley
    ISBN-10: 0471663158
    ISBN-13: 978-0471663157

    3. Physics Principles and Problems
    Merrill, Paul W. Zitzewitz
    Publisher: McGraw-Hill/Glencoe
    ISBN-10: 0675172640
    ISBN-13: 978-0675172646
    4. Modern Physics
    Aruldhas and Rajagopal
    Publisher: Prentice-Hall of India
    ISBN: 81-203-2597-4

    5. Modern Physics for Scientists and Engineers
    Sayer and Mansingh
    Publisher: Prentice-Hall of India
    ISBN: 81-203-2822-1

    6. Introduction to nuclear Physics
    Wong
    Publisher: Prentice-Hall of India
    ISBN: 81-203-0990-1
    PHY 123 Physics II (Electricity, Magnetism and Modern physics)
    No of credits: 3.0
    Pre-requisite(s): PHY 113
    Electricity and Magnetism: Coulomb’s law, Gauss’ law and Electric Field, Potential, Capacitance, Dielectrics, Current, Resistance, EM forces, Magnetic field:  Faraday’s law, Lenz’s law, Induced electromagnetic force, Ampere’s Law, Bio-Savart Law, Lorentz force. Fleming’s rule. Hall-effect. Quantum mechanics: Particles and wave nature of light, Basics of Quantum Mechanics. Modern physics: Atomic models, Radioactivity and nuclear phenomena, Relativity.

    Text and Reference Books:
    1. Physics: Principles with Applications
    Douglas C. Giancoli
    Publisher: Pearson Education
    ISBN-10: 0131846612
    ISBN-13: 978-0131846616

    2. Physics
    John D. Cutnell, Kenneth W. Johnson
    Publisher: Wiley
    ISBN-10: 0471663158
    ISBN-13: 978-0471663157

    3. Physics Principles and Problems
    Merrill, Paul W. Zitzewitz
    Publisher: McGraw-Hill/Glencoe
    ISBN-10: 0675172640
    ISBN-13: 978-0675172646
    4. Modern Physics
    Aruldhas and Rajagopal
    Publisher: Prentice-Hall of India
    ISBN: 81-203-2597-4

    5. Modern Physics for Scientists and Engineers
    Sayer and Mansingh
    Publisher: Prentice-Hall of India
    ISBN: 81-203-2822-1

    6. Introduction to nuclear Physics
    Wong
    Publisher: Prentice-Hall of India
    ISBN: 81-203-0990-1

    PHY 124 Physics II Laboratory
    No of credits: 1.0
    Pre-requisite(s): PHY 113
    Laboratory experiment will be conducted based on the theory taught in both Physics I and Physics II courses.

    CHE 111 Chemistry
    No of credits: 3.0
    Pre-requisite(s): None
    Atomic structure, quantum numbers, electronic configuration, periodic table, properties and uses of noble gases; Different types of chemical bonds and their properties; molecular structure of compounds; selective organic reactions, different types of solutions and their compositions; phase rule, phase diagram of mono-component system, properties of dilute solutions, thermo-chemistry, chemical kinetics, chemical equilibrium, ionization of water an pH concept, electrical properties of solution.

    Text and Reference Books:
    1. Physical Chemistry
    Peter Atkins, Julio de Paula
    Publisher: W. H. Freeman
    ISBN-10: 0716735393
    ISBN-13: 978-0716735397

    2. Modern Chemistry
    Raymond E. Davis
    Publisher: Not Avail; Student edition
    ISBN-10: 0030565375
    ISBN-13: 978-0030565373

    3. Physical Chemistry
    Robert J. Silbey, Robert A. Alberty, Moungi G. Bawendi
    Publisher: Wiley
    ISBN-10: 047121504X
    ISBN-13: 978-0471215042

    4. Introductory Chemistry a Foundation
    Steven S. Zumdahl
    Publisher: Houghton Mifflin Company
    ISBN-10: 0669328561
    ISBN-13: 978-0669328561

    5. Inorganic Chemistry
    Catherine Housecroft, Alan G. Sharpe
    Publisher: Prentice Hall
    ISBN-10: 0131755536
    ISBN-13: 978-0131755536

    6. Inorganic Chemistry
    Gary Miessler, Donald A Tarr
    Publisher: Prentice Hall
    ISBN-10: 0136128661
    ISBN-13: 978-0136128663

    7. Basic Inorganic Chemistry
    F. Albert Cotton, Geoffrey Wilkinson, Paul L. Gaus
    Publisher: Wiley
    ISBN-10: 0471505323
    ISBN-13: 978-0471505327

    8. Concepts and Models of Inorganic Chemistry
    Bodie E. Douglas, Darl H. McDaniel, John J. Alexander
    Publisher: Wiley
    ISBN-10: 0471629782
    ISBN-13: 978-0471629788

    9. Organic Chemistry
    Francis A Carey
    Publisher: McGraw-Hill Science/Engineering/Math
    ISBN-10: 0073311847
    ISBN-13: 978-0073311845

    10. Organic Chemistry
    Janice G. Smith
    Publisher: McGraw Hill Higher Education
    ISBN-10: 0071286659
    ISBN-13: 978-0071286657

    CHE 112 Chemistry Laboratory
    No of credits: 1.0
    Pre-requisite(s): None
    Volumetric analysis, acid base titration, oxidation-reduction, titration determination of different metals volumetrically

    Group 3 Core Courses

    ETE 121 Computer Programming
    No. credits 3.0
    Pre-requisite(s): NIL

    C Programming Language: Overview of C; C fundamentals; Operators and expressions; Data input and output; Control statements; Program structure - storage classes, automatic variables, external (global) variables, static variables, multifile programs; Character strings; Arrays; Functions; Structures and unions; Pointers; Data files; object oriented programming (c++).

    ETE 122 Computer Programming Laboratory
    No. credits 1.0
    Pre-requisite(s): NIL
    Laboratory experiment will be conducted based on the theory taught.

    ETE 131 Electrical Circuits I
    No of credits: 3.0
    Pre-requisite(s): PHY 123
    Fundamentals of electrical concepts and measuring units. Basic circuit elements. Energy storage and power dissipation. Volt-ampere relationships: Ohm's Law, Kirchoff's Laws.
    Circuit Analysis using Branch current, Mesh/Loop current and Node voltage methods. Elements of topology, dual networks, Matrix formulation. Star and Delta connections and transformation.
    Network Theorems: Superposition, Thevenin's, Norton's, Millman's, Reciprocity, Maximum power transfer and compensation theorems for DC sources.
    Concepts of magnetomotive force, reluctance, magnetic flux path. Series and parallel Magnetic Circuits Analysis.
    Alternating current theory: Maximum, root mean square and average values; form factor. Impedance and impedance functions of circuits. Reasons for choosing of sinusoidal waveform. Phasor representation of sinusoids, complex notation and complex representation of voltage, current and power. Power factor, methods of improving power factor.

    Text and Reference Books:

    1. Electrical Circuits

    James W. Nilsson, Susan Riedel
    Publisher: Prentice Hall
    ISBN-10: 0131465929
    ISBN-13: 978-0131465923

    1. Introduction to Electric Circuits

    Richard C. Dorf, James A. Svoboda
    Publisher: Wiley
    ISBN-10: 0471730424
    ISBN-13: 978-0471730422

    1. Engineering Circuit Analysis

    William H. Hayt, Jack Kemmerly, Steven M. Durbin
    Publisher: McGraw-Hill Science/Engineering/Math
    ISBN-10: 0073366617
    ISBN-13: 978-0073366616

    1. Basic Engineering Circuit Analysis

    J. David Irwin and R. Mark Nelms
    Publisher: Wiley
    Language: English
    ISBN-10: 0470128690
    ISBN-13: 978-0470128695

    1. Introductory Circuit Analysis

    Robert L. Boylestad
    Publisher: Prentice Hall
    ISBN-10: 0131730444
    ISBN-13: 978-0131730441

    ETE 132 Electrical Circuits I Laboratory
    No. credits 1.0
    Pre-requisite(s): PHY 124
    Laboratory experiment will be conducted based on the theory taught.

    ETE 211 Electrical Circuits II
    No of credits: 3.0
    Pre-requisite(s): ETE 131
    Simple network problems by phasor and complex number representation. Loci diagrams for RL, RC and RLC series and parallel circuits. Series and parallel resonance, Q factors of a circuit, wave trap.
    Analysis of magnetically coupled circuits. Dot convention. Mutual inductance and coupling co-efficient. Transformer action.
    Three-Phase Analysis: Review of Phase sequence. Analysis of three phase balanced circuits. Single Line Equivalent diagrams. Three phase unbalanced circuits: Analysis, symmetrical components.
    Non sinusoidal waveforms Harmonics analysis using the Fourier series. Fourier Transform. Solution of simple network transients using the Laplace transform for DC and AC excitation. Transient circuit analysis. Introduction to Passive filters: Low pass, high pass and band pass filters. Transmission line.

    Text and Reference Books:

    1. Engineering Circuit Analysis

    William H. Hayt, Jack Kemmerly, Steven M. Durbin
    Publisher: McGraw-Hill Science/Engineering/Math
    ISBN-10: 0073366617
    ISBN-13: 978-0073366616

    1. Basic Engineering Circuit Analysis

    J. David Irwin and R. Mark Nelms
    Publisher: Wiley
    Language: English
    ISBN-10: 0470128690
    ISBN-13: 978-0470128695

    1. Introductory Circuit Analysis

    Robert L. Boylestad
    Publisher: Prentice Hall
    ISBN-10: 0131730444
    ISBN-13: 978-0131730441

    1. Alternating Current Circuits

    Russell M. Kerchner, George F. Corcoran
    Publisher: John Wiley & Sons, Inc.
    ASIN: B000RUQUHU

    ETE 212 Electrical Circuits II Laboratory
    No of credits: 1
    Pre-requisite(s): ETE 132
    Laboratory experiment will be conducted based on the theory taught.
    ETE 213 Electronics I
    No of credits: 3.0
    Pre-requisite(s): ETE 131
    Semiconductor Diode:
    Introduction to semiconductor devices, p- and n- type semiconductors, p-n junctions under forward and reverse biased conditions, load line analysis, half wave and full wave rectifiers, clipping and clamping circuits. Zener diode and its applications in voltage regulator circuit.
    Bipolar Junction Transistor (BJT):
    Principle of operation of BJT. Transistor circuit configurations (CE, CB and CC configurations) and their input, output and transfer characteristics. BJT biasing circuits and various compensating techniques.
    Low Frequency ac equivalent circuits, configurations, voltage, current and power gain, input and output impedance with resistive load. Introduction to multistage amplifiers.
    Low and high frequency response of CE amplifiers. Harmonic distortion in CE amplifiers.
    Introduction of Field Effect Transistor (FET), Junction Field Effect Transistor (JFET), Metal Field Effect Transistors (MOSFET): physical construction, classification, basic equations and various types of I-V characteristics. Basic FET amplifiers. Use of FET as voltage controlled switches and resistors.

    ETE 214 Electronics I Laboratory
    No of credits: 1
    Pre-requisite(s): ETE 132
    Laboratory experiment will be conducted based on the theory taught.

    ETE 227 Communication Engineering I
    No of credits: 3.0
    Pre-requisite(s): NIL
    Overview of communication systems: basic principles, fundamental elements, system limitations, message source, bandwidth requirements, transmission media types, transmission capacity.
    Noise: sources of noise, characteristics of various types of noise and SNR, mathematical representation of noise: spectral components of noise, superposition of noise, linear filtering, noise bandwidth.
    Information theory: concept of amount of information, average information, information rate, channel capacity, efficiency of signal transmission.
    Continuous wave modulation: baseband transmission, carrier transmission; amplitude modulation: SSB, VSB, spectral analysis, envelope and synchronous detection; angle modulation: frequency modulation, phase modulation, spectral analysis, demodulation of FM and PM signals, noise in amplitude modulation systems, noise in frequency modulation systems.
    Multiplexing: time division multiplexing (TDM), frequency division multiplexing (FDM), orthogonal frequency division multiplexing (OFDM).

    Text and Reference Books:
    1. Communications Systems
    Simon Haykin
    Publisher: Wiley
    ISBN-10: 0471178691

    2. Information Transmission, Modulation and Noise
    Mischa Schwartz
    Publisher: McGraw-Hill Companies
    ISBN-10: 0070559090
    ISBN-13: 978-0070559097

    3. Telecommunication Switching Systems and Networks
    T. Viswanathan
    Publisher: Prentice-Hall of India Pvt.Ltd
    ISBN-10: 8120307135
    ISBN-13: 978-8120307131

    4. Optical Fiber Communications
    John M. Senior
    Pearson Education
    ISBN-10: 0136354262
    ISBN-13: 978-0136354260

    5. Optical Fiber Communication Systems
    Leonid G. Kazovsky, Sergio Benedetto and Alan E. Willner
    Artech House Publishers
    ISBN-10: 0890067562
    ISBN-13: 978-0890067567

    EEE 228 Communication Engineering I Laboratory
    Number of Credits: 1.0
    Pre-requisite(s): NIL
    Laboratory experiment will be conducted based on the theory taught.

     

    ETE 221 Measurement and Instrumentation
    No of credits: 3.0
    Pre-requisite(s): ETE 211
    The basis of measurement, base and derived units, measurement standards, electrical standards, Measurement errors and their statistical characterization, Factors influencing measurement errors. Probability of errors and Gaussian error curve.
    Electrical measuring instruments: PMMC, moving iron and electrodynamometer for measuring current, voltage, power and energy. Power factor and Q meters.
    Different techniques for measuring resistance, capacitance and inductance.
    A/D conversion, data acquisition and signal conditioning, ranging and amplification. DC and AC voltage and current measurement, resistance measurement, sources of error and their elimination.
    Basic operation of an oscilloscope, Oscilloscope probes, Digital oscilloscope basics, Storage oscilloscopes and their use. Dual beam and dual trace oscilloscope. Frequency measurement, period measurement, time interval measurement, accuracy
    Signal Sources: Function generator, pulse generator, audio and RF signal generators, Spectrum Analyzer: types of spectrum analyzers, super heterodyne spectrum analyzer, display methods. Logic Analyzer: Basic operation, measurement types, data acquisition, display methods, applications.
    Computer-based Instrument Systems: Data acquisition systems, GPIB, IEEE bus. VXI bus systems for instrument connectivity, automation and remote control.
    Different types of transducers and their use in measurement and instrumentation.

    Text and Reference Books:
    1. A course in electrical and electronic measurements and instrumentation
    A. K Sawhney
    Publisher: Dhanpatrai
    ASIN: B0007BZSHM

    2. Modern Electronic Instrumentation and Measurement Techniques
    Albert D. Helfrick, William David Cooper, A. D. Helfrick
    Publisher: Prentice Hall
    ISBN-10: 0135932947
    ISBN-13: 978-0135932940

    3. Measurement and Instrumentation Principles
    Alan S Morris
    Publisher: Butterworth-Heinemann
    ISBN-10: 0750650818
    ISBN-13: 978-0750650816

    4. Instrumentation: Transducers and Interfacing
    Brian Roy Bannister, Donald Gill Whitehead
    Publisher: Chapman & Hall
    ISBN-10: 0442305141
    ISBN-13: 978-0442305147

    5. Basic Electrical Measurements
    Melville B Stout
    Publisher: PRENTICE HALL INC
    ASIN: B00118ESOY

    6. Electrical measurements and measuring instruments
    E. W Golding

    Publisher: Sir I. Pitman & Sons

    ASIN: B00086D3AK

    ETE 222 Measurement and Instrumentation Laboratory
    No of credits: 1.0
    Pre-requisite(s): ETE 212
    Laboratory experiment will be conducted based on the theory taught.

    ETE 223 Electronics II
    No of credits: 3.0
    Pre-requisite(s): ETE 213
    Concept of feedback. Types of feedback. Feedback topologies and analysis of each of them. Frequency response of feedback amplifiers.
    Sinusoidal oscillators and conditions for sustaining oscillations. Different types of oscillator circuits, such RC phase shift, wein bridge, crystal oscillators etc. Deriving the equations of frequency of oscillations.
    Active filters: Basic low-pass and high pass filters, introduction to Butterworth filters. Design of various types of Butterworth filters having various roll-off and plotting their characteristics. Cascading filters. Chebyshev filters. Band-pass, band-stop and notch filters.
    Power Amplifiers: Need for power amplifier, difference between voltage and power amplifier. Designing a power amplifier. Different classes of amplifiers, push-pull amplifier and comparison among them.
    Operational Amplifiers (Op-amps): Inverting and non-inverting amplifiers, adder/subtractor, integrator, differentiator, negative impedance converter, current to voltage and voltage to current converter. Comparator and other applications. Differential Amplifiers, Differential inputs: current/voltage offsets. Differential and Common mode gain. Common Mode Rejection Ratio (CMRR). Frequency response of op-amps and slew rate. Analogue computing devices. Phase Locked Loop (PLL), circuit and Voltage Controlled Oscillator (VCO) and voltage to frequency converter, Sample and Hold circuit
    Pulse generation and waveshaping using op-amp, 555 timer and other linear ICs.

     

    ETE 224 Electronics II Laboratory
    No of credits: 1
    Pre-requisite(s): ETE 214
    Laboratory experiment will be conducted based on the theory taught.

    ETE 225 Digital Electronics I
    No of credits: 3.0
    Pre-requisite(s): ETE 213
    Number systems and codes. Boolean algebra. De-Morgan’s Law. Different types of logic gates and their truth tables. Combinational circuit design and minimization techniques. Arithmetic and data handling logic circuits, such as adder, subtractor, CLA adder etc. Encoder and decoder, priority encoder, multiplexer and demultiplexer, magnitude comparator.
    Design of sequential circuits: flip-flops (SR, JK, D and T flip-flop), counter (asynchronous and synchronous, ring, Johnson), register (SISO, PIPO, SIPO, PISO, left and right shift etc).
    Different problems associated with the digital circuit and their elimination.
    Finite state machine, state diagram, state minimization. Moore and Melay machine.

    ETE 226 Digital Electronics I Laboratory
    No of credits: 1
    Pre-requisite(s): ETE 214
    Laboratory experiment will be conducted based on the theory taught.

    ETE 231 Electrical Machines
    No of credits: 3.0
    Pre-requisite(s): ETE 211
    DC generator: Types, no-load voltage characteristics, build-up of a self excited shunt generator, critical field resistance, load-voltage characteristic, effect of speed on no-load and load characteristics and voltage regulation.
    DC motor: Torque, counter emf, speed, torque-speed characteristics, starting techniques, speed control and speed regulation.
    Transformer: Ideal transformer - transformation ratio, no-load and load vector diagrams; actual transformer - equivalent circuit, regulation, short circuit and open circuit tests.
    Three phase induction motor: Rotating magnetic field, equivalent circuit, vector diagram, torque-speed characteristics, effect of changing rotor resistance and reactance on torque-speed curves, motor torque and developed rotor power, no-load test, blocked rotor test, starting and braking and speed control. Single phase induction motor:  Theory of operation, equivalent circuit and starting, pulse transformer stepper motors.

    Text and Reference Books:
    1. Electric Machinery Fundamentals
    Stephen J. Chapman, Stephen Chapman
    Publisher: McGraw-Hill
    ISBN-10: 0072465239
    ISBN-13: 978-0072465235

    2. Electric Machinery
    A. E. Fitzgerald, Jr., Charles Kingsley, Stephen D. Umans, and Stephen UmansA. E. Fitzgerald
    Publisher: McGraw-Hill
    ISBN-10: 0073660094
    ISBN-13: 978-0073660097

    3. Electric Machinery and Transformers
    Bhag S. Guru, Huseyin R. Hiziroglu
    Publisher: Oxford University Press, USA.
    ISBN-10: 0195138902
    ISBN-13: 978-0195138900

    4. Electrical Machine Design - The Design and Specification of Direct and Alternating Current Machinery
    Alexander Gray
    Publisher: Gray Press
    ISBN-10: 1406765341
    ISBN-13: 978-1406765342

    1. Direct Alternating Current Machinery

    Rosenblatt, Friedman
    Publisher: Prentice Hall
    ISBN-10: 0675201608
    ISBN-13: 978-0675201605

    1. Alternating Current Machines

    A.F. Puchstein, A.G. Conrad, T.C. Lloyd
    Publisher: John Wiley
    ASIN: B000V1W4SY

    7.  Alternating-Current Machines
    Michael Liwschitz-Garik, Clyde C. Whipple
    Publisher: Van Nostrand Company Inc.
    ASIN: B000S1P98Y

    ETE 233 Data Communication
    No of credits: 2.0
    Pre-requisite(s): ETE 223
    Bit rate, bit interval, composite analog signal, wide-bandwidth medium, band-limited medium, higher bit rate, noiseless channel, noisy channel, attenuation, distortion, noise, throughput, propagation speed, propagation time, wavelength, characteristics of line coding, line coding techniques, block coding, space-division switch, time-division switch, TDM bus, space-and time-division switch combinations, DSL technology, ADSL, traditional cable networks, HFC network, sharing, CM, CMTS, SONET devices, SONET frame, frame transmission, single-bit error, burst error, redundancy, parity check, CRC, checksum, error correction by retransmission, forward error correction, burst error correction, flow control, error control, flow and error control mechanisms, stop-and wait ARQ operation, bidirectional transmission, Go-back-N-ARQ, sequence numbers, sliding window, control variables, timers, piggybacking, selective repeat ARQ, bandwidth delay product, pipelining, configuration and transfer modes of HDLC, frame, frame format, frame type, data transparency, random access, multiple access, CSMA, CSMA/CD, CSMA/CA, reservation, polling, token passing, packet switching( advanced), virtual circuit switching, global addressing, VPN, virtual circuit identifier, data transfer phase, setup phase, teardown phase.

     

    ETE 235 Digital Electronics II
    No of credits: 3.0
    Pre-requisite(s): ETE 225
    Introduction to Logic families, diode logic gates (DL), Diode Transistor Logic (DTL) gates, fan in and fan out, noise margin and other parameters related to the logic families.
    Transistor Transistor Logic gates (TTL), emitter coupled logic gates (ECL), NMOS, PMOS and CMOS Logic gates. Various techniques to improve their characteristics and performance. Comparative study among the various types of logic families.
    Programmable Logic Array (PLA), Programmable Array Logic (PAL), Programmable Logic Devices (PLD).
    Different types of ADC and DAC circuits. Sample and Hold circuits.
    Memory Devices: Memory terminology, memory operation, RAM and ROM architecture and types; SRAM, DRAM and flash memory: their circuit, operation, memory read and write cycle timing diagram, expansion of word size and capacity of RAM.

    ETE 236 Digital Electronics II Laboratory
    No of credits: 1.5
    Pre-requisite(s): ETE 226
    Laboratory experiment will be conducted based on the theory taught.

    ETE 237 Communication Engineering II
    No of credits: 3.0
    Pre-requisite(s): ETE 227
    Sampling: sampling theorem, Nyquist criteria, frequency aliasing, instantaneous and natural sampling.
    Analog-to-digital conversion: pulse-amplitude modulation, quantization of signals, pulse-code modulation, non-uniform quantization, multiplexing PCM signals, differential PCM, delta modulation, adaptive delta modulation, noise in pulse code and delta modulation systems.
    Digital modulation technique: ASK, FSK, BPSK, differential PSK, QPSK, M-ary PSK, M-ary PSK, minimum shift keying (MSK).
    Multiple access technique: frequency division multiple access (FDMA), time division multiple access (TDMA), statistical TDMA, combined FDMA and TDMA.
    Spread-spectrum techniques: Spread-spectrum overview, Pseudonoise sequence, Direct-sequence spread-spectrum systems, Frequency hopping systems, Tracking of FH signal, Commercial applications of spread-spectrum systems.
    Communication system design: design parameters, channel selection criteria, performance simulation.

    Text and Reference Books:
    1. Communications Systems
    Simon Haykin
    Publisher: Wiley
    ISBN-10: 0471178691

    2. Information Transmission, Modulation and Noise
    Mischa Schwartz
    Publisher: McGraw-Hill Companies
    ISBN-10: 0070559090
    ISBN-13: 978-0070559097

    3. Telecommunication Switching Systems and Networks
    T. Viswanathan
    Publisher: Prentice-Hall of India Pvt.Ltd
    ISBN-10: 8120307135
    ISBN-13: 978-8120307131

    4. Mobile Communications
    Jochen Schiller        
    Publisher: Addison Wesley
    ISBN-10: 0321123816
    ISBN-13: 978-0321123817

    5. Communication Services Via Satellite: A Handbook for Design, Installation and Service Engineers
    Geoffrey, E. Lewis
    Publisher: Butterworth-Heinemann
    ISBN-10: 0750604379
    ISBN-13: 978-0750604376

    6. Wireless Communications
    Andreas Molisch
    Publisher: Wiley-IEEE Press
    ISBN-10: 047084888X
    ISBN-13: 978-0470848883

    7. World Satellite Communication Systems: An Earth Station Design
    Brian Ackroyd
    Publisher: CRC
    ISBN-10: 084937703X
    ISBN-13: 978-0849377037

    8. Introduction to Satellite Communication
    Bruce R. Elbert
    Publisher: Artech House Publishers
    ISBN-10: 1596932104
    ISBN-13: 978-1596932104

    9. Introducing Satellite Communications
    G.B. Bleazard
    Publisher: Blackwell Publishers
    ISBN-10: 0850124719
    ISBN-13: 978-0850124712

    10. Satellite Information Systems
    Edward Binkowski
    Publisher: G K Hall
    ISBN-10: 0816118809
    ISBN-13: 978-0816118809

    11. Satellite Operations: Systems Approach to Design and Control
    John T. Garner, Malcolm Jones
    Publisher: Ellis Horwood Ltd
    ISBN-10: 0137913516
    ISBN-13: 978-0137913510

    12. Satellite Technology and Its Applications
    P. R. K. Chetty
    Publisher: Mcgraw-Hill
    ISBN-10: 0830696881
    ISBN-13: 978-0830696888

    13. Satellite Communications Systems
    G. Maral, M. Bousquet, S. David
    Publisher: John Wiley and Sons Ltd
    ISBN-10: 0471902209
    ISBN-13: 978-0471902201

    14. Digital Communications: Microwave Applications
    Kamilo Feher
    Publisher: SciTech Publishing
    ISBN-10: 1884932002
    ISBN-13: 978-1884932007

    ETE 238 Communication Engineering II Laboratory
    No of credits: 1.0
    Pre-requisite(s): ETE 228
    Laboratory experiment will be conducted based on the theory taught.ETE 313 Numerical Analysis
    No of credits: 3.0
    Pre-requisite(s): MAT 215
    Numerical solution of algebraic and transcendental equations. Matrices, vector, extrapolation and interpolation. Formation of equations for different kind of electrical circuits and systems, electronic devices and telecommunications engineering systems and solving them by using different numerical solution techniques through computer programming language, such as C/C++ and MATLAB. Numerical techniques used for this purpose are: Curve fitting by least squares method, root finding by bisection, Newton-Raphson and other methods, finding area of a curve by trapezoidal rule, Simpson’s rule etc. Numerical integration and differentiation. Finite differences and finite element method. Solution of system of equations by using different techniques like Gauss-Sidel method, Cramer’s rule.

    Text and Reference Books:

    1. Advanced Engineering Mathematics

    Erwin Kreyszig E. Kreyszig
    Publisher: Wiley
    ISBN-10: 0471488852
    ISBN-13: 978-0471488859.

    1. Numerical Methods for Engineers with Software and Programming Applications

    Steven C. Chapra and Raymond P. Canale
    Publisher: Tata McGraw-Hill Publishing Co. Ltd.
    ISBN-0-07-047437-0

    1. Engineering Mathematics

    K. A. Stroud, Dexter J. Booth
    Publisher: Industrial Press Inc.
    ISBN-10: 0831133279
    ISBN-13: 978-0831133276

    1. Mathematical Methods for Physics and Engineering

    Ken F. Riley, Mike P. Hobson, Stephen J. Bence
    Publisher: Cambridge University Press
    ISBN-10: 0521683394
    ISBN-13: 978-0521683395

    1. Essential MATLAB for Scientists and Engineers

    Brian Hahn
    Publisher: Butterworth-Heinemann
    ISBN-10: 0750652403
    ISBN-13: 978-0750652407

    1. Numerical Methods with Programs in Basic, FORTRAN and Pascal

    S. Balachandra Rao, C. K. Shantha
    Publisher: Vantage Press (December 1992)
    Language: English
    ISBN-10: 0863113702
    ISBN-13: 978-0863113703

    1. Numerical Analysis

    Richard L. Burden, J. Douglas Faires
    Publisher: Brooks Cole
    ISBN-10: 0534392008
    ISBN-13: 978-0534392000

    1. Introduction to Numerical Analysis

    F. B. Hildebrand
    Publisher: Dover Publications
    ISBN-10: 0486653633
    ISBN-13: 978-0486653631

    ETE 314 Numerical Analysis Laboratory
    No of credits: 1.0
    Pre-requisite(s): MAT 215
    Laboratory experiment will be conducted based on the theory taught.

    ETE 315 Telecommunication Networks
    Number of Credits: 3.0
    Pre-requisite(s): ETE 233
    Basic concept of electricity for communication, Electrical Signals, Transmission ofelectrical signals – wire pair, co-axial cable, optical fiber cable, radio transmission; Voice and datatransmission, Impairments to voice transmission – amplitude distortion, phase distortion, noise; Simpletelephone communication, Subscriber’s line circuit, two-wire and four-wire transmission, Basicswitching system, Conventional analog switching, Types of electromechanical switches – Strowger andCrossbar switch. Pulse Amplitude Modulation (PAM), Pulse code modulation (PCM), Deltamodulation (DM), Adaptive delta modulation (ADM), Delta-Sigma Modulation, Differential PCM(DPCM), Adaptive DPCM (ADPCM). Digitization of Voice; Multiplexing techniques- TDM and FDM;Digital signal hierarchies in telephone systems – DS0, DS1, DS3, E1, E2, E3, etc. Stored program control, Centralized SPC, Distributed SPC, Software architecture,Application software, Enhanced services, Two-stage network, Three-stage network, n-stage network.Concepts of TDM, Basic time division space switching, Basic time division time switching, Timemultiplexed space switching, Time-multiplexed time switching, Combination switching, Three-stagecombination switching, n-stage combination switching. Principles of common control, touch tone dial telephone, Crosspoint technology,No. 1 ESS, Japanese D-10, Metaconta. Subscriber loop systems, Switching hierarchy and routing, Transmission plan,Transmission systems, Numbering plan, Charging plan, Signaling techniques, Inchannel signaling,Common channel signaling, Digital loop carrier – versions of DSL. Motivation for ISDN, New services, Network and protocolarchitecture, Transmission channels, User-network interfaces, Signaling, Numbering and addressing,Service characterization, Inter working, ISDN standards, Expert Systems in ISDN, Broadband ISDN,Voice data integration. Overview of SS 7 architecture, Relationship to OSI, Layer 1, 2and 3; Signaling network structure, Signaling performance, Numbering plan, Signaling connectioncontrol part (SCCP), User part.w services.

    ETE 316 Telecommunication Networks Laboratory
    Number of Credits: 1.0
    Pre-requisite(s): ETE 233
    Laboratory experiment will be conducted based on the theory taught.

    ETE 317 Microprocessors and Interfacing
    Number of Credits: 3.0
    Pre-requisite(s): ETE 235
    Introduction to Intel 80xx series processors, the register architecture, instructions, instruction cycle, stacks, external interface. Microprocessor Programming: addressing modes, branching and conditions, stack commands, subroutines, port I/O, interrupts.
    Internal Operation of the Processor: Register transfer logic, instruction formats, microcode, timing diagrams, design techniques: pipelining etc.
    RISC and CISC concepts. Design of microprocessor based systems: Interfacing memory to microprocessor, address decoding of RAM and ROM. Interfacing I/O devices to microprocessor using programmable peripheral interface IC such as, 8155, 8255, 8279 etc.
    Input/Output: parallel and serial I/O, DMA, interrupts and interrupt control circuits.
    Microcomputer Buses: the system bus, bus interface and arbitration circuits, bus standards.

    Text and Reference Books:
    1. Microprocessors and Microcomputer Based System Design
    Mohamed Rafiquzzaman
    Publisher: CRC-Press
    ISBN-10: 0849344751
    ISBN-13: 978-0849344756

    2. Microprocessor Architecture, Programming, and Applications with the 8085
    Ramesh S. Gaonkar
    Publisher: Prentice Hall
    ISBN-10: 0130195707
    ISBN-13: 978-0130195708

    3. Microcomputer Theory and Applications with the Intel SDK-85
    Rafiquzzaman
    Publisher: Prentice Hall
    ISBN-10: 0135836913
    ISBN-13: 978-0135836910

    4. Microprocessors and Interfacing: Programming and Hardware
    Douglas V. Hall
    Publisher: Glencoe McGraw-Hill
    ISBN-10: 0070257426
    ISBN-13: 978-0070257429

    1. The Intel Microprocessors 8086/8088, 80186/80188, 80286, 80386, 80486, Pentium, and Pentium Pro Processor Architecture, Programming, and Inter- facing

    Barry B. Brey
    Publisher: Prentice Hall
    ISBN-10: 0130607142
    ISBN-13: 978-0130607140

    6. INTEL Microprocessors 8086/8088, 80186/80188, 80286, 80386, 80486, Pentium, Prentium ProProcessor, Pentium II, III, 4
    Publisher: Prentice Hall
    ISBN-10: 0131195069
    ISBN-13: 978-0131195066

    ETE 318 Microprocessors and Interfacing Laboratory
    Number of Credits: 1.0
    Pre-requisite(s): ETE 236
    Laboratory experiment will be conducted based on the theory taught.

    ETE 319 Communication Theory
    Number of Credits: 2.0
    Pre-requisite(s): ETE 237
    Spectral Analysis: Fourier Series, The Sampling Function, Response of a Linear System, NormalizedPower, Normalized Power in a Fourier Expansion, Power Spectral Density, The Fourier Transform,Convolution, Parseval’s Theorem, Correlation between Waveforms, Autocorrelation.
    Random Variables and Processes: Probability, Cumulative distribution function, Probability DensityFunction, Tchebycheff’s Inequality, The Gaussian Probability Density, The Error Function, The RayleighProbability Density, Correlation between random variables, the central-limitTheorem, RandomProcesses, Autocorrelation, Power Spectral Density of a Sequence of Random Pulses, Power SpectralDensity of Digital Data, Effect of rudimentary filters of digital data, the complimentary error function.
    Mathematical Representation of Noise: Some sources of noise, a frequency-domain representation of noise, spectral components of noise, response of a narrowband filter to noise, effect of a filter on thepower spectral density of noise, superposition of noises, mixing involving noise, linear filtering, noisebandwidth, quadrature components of noise, power spectral density of nc(t) and ns(t), Probability densityof nc(t) ,ns(t) and their time derivatives.

    Information theory: Discrete message, the concept of amount of information, average information,Entropy, Information rate, coding to increase average information per bit, shannon’s theorem, channelcapacity, capacity of a Gaussian channel, bandwidth-S/N tradeoff, use of orthogonal signals to attainShannon’s limit, efficiency of orthogonal signal transmission

    Communication System and Noise Calculations: Resistor noise, multiple resistor noise sources,networks with reactive elements, an example, available power, noise temperature, two ports, noisebandwidth, effective input-noise temperature, noise figure, noise figure and equivalent noise temperatureof a cascade, an example of a receiving system, antennas, system calculation.

    Reference Books:
    1. Principles of Communication Systems
    Author: Herbert Taub & Donald L. Schilling
    Publisher: McGraw-Hill Book Company
    2. Communication Systems
    Author: Simmons Haykins

    ETE 321 Digital Signal Processing
    No of credits: 3.0
    Pre-requisite(s): MAT 215
    Introduction to digital signal processing. Sampling of continuous-time and discrete-time signals. The z-transform. Linear time-invariant model of discrete-time systems. Frequency domain representation of discrete-time systems and signals.
    Structure of discrete-time systems: Signal flow graph representation of digital networks. Matrix representation of digital networks. Basic network structures for FIR and IIR systems.
    Digital filter design techniques: Design of FIR and IIR filters from analog filters using windows. Computer aided design techniques of filters. Discrete Fourier Series and Discrete Fourier Transform. Convolution and correlation, Algorithms for the computation of the DFT and the FFT. Power Spectrum.
    Digital Signal Processor architectures: Evolution of DSP architecture, different architectures, important architectural elements of a DSP, instruction set and special instructions, introduction to interfacing DSPs.
    Applications of DSP in speech and image processing, RADAR, pattern recognition etc.

    ETE 322 Digital Signal Processing Laboratory
    No of credits: 1.0
    Pre-requisite(s): MAT 215
    Laboratory experiment will be conducted based on the theory taught.

    ETE 323 Industrial and Power Electronics
    No of credits: 3.0
    Pre-requisite(s): ETE 223
    Power semiconductor switches and triggering devices: BJT, MOSFET, SCR, IGBT, GTO, TRIAC, UJT and DIAC. Rectifiers: Uncontrolled and controlled single phase and three phase. Regulated power supplies: Linear-series and shunt, switching buck, buck-boost, boost and Cuk regulators. AC voltage controllers: single and three phase. Choppers. DC motor control. Single phase cycloconverter. Inverters: Single phase and three phase voltage and current source. AC motor control. Stepper motor control. Resonance inverters. Pulse width modulation control of static converters.
    DC Power supply and voltage regulator circuit design using transistors, zener diodes and various types of ICs. Phase Locked Loop (PLL) circuit and Voltage Controlled Oscillator (VCO) and voltage to frequency converter. Sample and Hold circuit. Switched capacitor filter.

    ETE 324 Industrial and Power Electronics Laboratory
    No of credits: 1.0
    Pre-requisite(s): ETE 224
    Laboratory experiment will be conducted based on the theory taught.

    ETE 325 Electromagnetic Fields and Waves
    No of credits: 3.0
    Pre-requisite(s): MAT 215 & PHY 123
    Static electric field: Postulates of electrostatics, Coulomb’s law for discrete and  continuously distributed charges, Gauss’s law and its application, electric potential due to charge distribution, conductors and dielectrics in static electric field, flux density - boundary conditions; capacitance - electrostatic energy and forces, energy in terms of field equations, capacitance calculation of different geometries; boundary value problems – Poisson’s and Laplace’s equations in different co-ordinate systems. Steady electric current: Ohm’s law, continuity equation, Joule’s law, resistance calculation. Static Magnetic field: Postulates of magnetostatics, Biot-Savart’s law, Ampere’s law and applications, vector magnetic potential, magnetic dipole, magnetization, magnetic field intensity and relative permeability, boundary conditions for magnetic field, magnetic energy, magnetic forces, torque and inductance of different geometries. Time varying fields and Maxwell’s equations: Faraday’s law of electromagnetic induction, Maxwell’s equations - differential and integral forms, boundary conditions, potential functions; time harmonic fields and Poynting theorem.  Plane electromagnetic wave: plane wave in loss less media - Doppler effect, transverse electromagnetic wave, polarization of plane wave; plane wave in lossy media – low-loss dielectrics, good conductors; group velocity, instantaneous and average power densities, normal and oblique incidence of plane waves at plane boundaries for different polarization.

    Text and Reference Books:
    1. Fields and Waves in Communication Electronics
    Simon Ramo, John R. Whinnery, Theodore Van Duzer
    Publisher: Wiley
    ISBN-10: 0471585513
    ISBN-13: 978-0471585510

    2. Field and Wave Electromagnetics
    David K. Cheng
    Publisher: Addison-Wesley
    ISBN-10: 0201128195
    ISBN-13: 978-0201128192

    3. Elements of Engineering Electromagnetics
    Nannapaneni Narayana Rao
    Publisher: Prentice Hall
    ISBN-10: 0131139614
    ISBN-13: 978-0131139619

    4. Electromagnetics
    Edward J. Rothwell, Michael J. Cloud
    Publisher: CRC
    ISBN-10: 084931397X
    ISBN-13: 978-0849313974

    ETE 329 Business Systems Engineering
    No of credits: 2.0
    Pre-requisite(s): Level 3 students
    Nature and functions of business: business economy, entrepreneurship and small business, the management process, human resource management, and risk and insurance.
    Verbal and nonverbal communications, dyadic and organizational communication, communication of roles and relationships, small-group communication, communication networks, and the diagnosis and improvement of organizational communications.
    Fundamentals of the management process; principles and techniques for all organizations. The basic functions of management: planning, organizing, directing, and controlling. Social responsibilities, political influences and ethical consideration as they affect the management of organizations. Coverage of international business, production, communication, and decision-making.
    Employee compensation and the nature of pay and its relative importance. The nature of union-management relationships. New venture creation and its management through the first two/ three years of operation, Organization analysis and design: culture, process and structure.
    Frameworks for understanding the structure and processes of complex organizations. Several analytical and design perspectives are developed to reflect the impact of environment, technology, size, and strategy on organization goals, structure, and control. Includes issues in organizational effectiveness, culture, and life cycles.
    The areas of employee selection and performance management systems: recruitment strategies, methods of selection, development and validation of selection and employee appraisal instruments, and implementation of performance management processes.

    ETE 331 Computer Networks
    Number of Credits: 3.0
    Pre-requisite(s): ETE 315
    IP addressing, subnetting, ip anatomy, ipv4, ipv6, physical topology, logical topology, OSI model, TCP/IP model, Ethernet fundamentals, Ethernet switching, cabling LANS and WANS, network hardware, routing, static routing, dynamic routing, routing protocols, internet address, classful addressing, supernetting, route summarization, parent route, child route, classless addressing, dynamic address configuration, network address translator (NAT), routing techniques, classless inter domain routing(CIDR), variable length subnetmask (VLSM), distance vector routing protocols, link-state routing protocols, closer look. RIPv1 RIPv2, EIGRP, OSPF, IGRP, BGP, IS-IS, peer-to-peer networking, client server, file server, DNS, HTTP, web-server, proxy-server, firewalls, network security, UDP, wireless LAN, Bluetooth technology, WiFi, WIMAX.

    ETE 332 Computer Networks Laboratory
    Number of Credits: 1.0
    Pre-requisite(s): ETE 316
    Laboratory experiment will be conducted based on the theory taught in this course.

    ETE 335 Control Systems
    Number of Credits: 3.0
    Pre-requisite(s): ETE 223
    Introduction to control systems. Linear system models: transfer function, block diagram and signal flow graph (SFG). State variables: SFG to state variables, transfer function to state variable and state variable to transfer function. Feedback control system: Closed loop systems, parameter sensitivity, transient characteristics of control systems, effect of additional pole and zero on the system response and system types and steady state error. Routh stability criterion. Analysis of feedback control system: Root locus method and frequency response method. Design of feedback control system: Controllability and observability, root locus, frequency response and state variable methods. Digital control systems: introduction, sampled data systems, stability analysis in z-domain. State-space model and representation of different types of control Systems in state-space.

     

    Text and Reference Books:
    1. Feedback Control System Analysis and Synthesis
    John J. D'Azzo , Constantine H. Houpis
    Publisher: McGraw-Hill Education
    ISBN-10: 0070851506
    ISBN-13: 978-0070851504

    2. Modern Control Engineering
    Katsuhiko Ogata
    Publisher: Prentice Hall
    ISBN-10: 0136156738
    ISBN-13: 978-0136156734

    3. Modern Control Systems
    Richard C Dorf , Robert H. Bishop
    Publisher: Prentice Hall
    ISBN-10: 0132270285
    ISBN-13: 978-0132270281

     

    ETE 336 Control Systems Laboratory
    Number of Credits: 1.0
    Pre-requisite(s): ETE 224

    Laboratory experiment will be conducted based on the theory taught.

    ETE 337 Optical Fiber Communication
    Number of Credits: 3.0
    Pre-requisite(s): ETE 315
    Introduction, Optical fibres; structure, step-index and graded-index fibres, modes of propagation, modal theory for circular wageguide, modal equations, waveguide equations, power flow in optical fibres. Signal degradation in optical fibres; fibre attenuation, distortion in optical guides, dispersions, mode coupling.
    Optical sources: light emitting diode (LED) semiconductor laser diode (SLD), structures, modulation capability, transient response, power bandwidth product, modal noise, temperature effects and reliability.
    Photodetectors: p-i-n and avalanche photodetectors, structures, principles of operations.
    Optical modulation and detection schemes, Direct and coherent detection receivers: configuration, operation, noise sources, sensitivity calculation, performance curves. Design of analog and digital receivers. Wavelength Division Multiplexing (WDM) and Optical frequency division multiplexing (OFDM) transmission schemes.
    Optical data coding, links, power budget. Optical data buses, optical networks, Fiber Distributed Data Interface (FDDI) and Synchronous Optical Network (SONET).

    Text and Reference Books:
    1. Optical Fiber Communications
    John M. Senior
    Pearson Education
    ISBN-10: 0136354262
    ISBN-13: 978-0136354260

    2. Optical Fiber Communication Systems
    Leonid G. Kazovsky, Sergio Benedetto and Alan E. Willner
    Artech House Publishers
    ISBN-10: 0890067562
    ISBN-13: 978-0890067567

    ETE 339 Computer Organization and Architecture
    Number of Credits: 3.0
    Pre-requisite(s): ETE 235
    Introduction to Microprocessors: architecture, addressing modes, instruction set, interrupts, memory interface, bus interface; Peripheral chips and their applications; Arithmetic Logic Unit design; Control Unit design; Hardwired and Micro-programmed; Memory organization; Direct Memory Access; Pipelined architecture and pipeline control; Multiprocessors and relevant issues.

    ETE 411 Photovoltaics
    Number of Credits: 3.0
    Pre-requisite(s): ETE 325
    Structural properties: crystalline, amorphous, polymer, binding forces, elastic properties, dislocations, defects etc. Thermal and electrical properties: specific heat, thermal expansion, thermal conductivity, electrical conductivity. Dielectric properties of solids: basic relationship and parameters, model of dielectric polarization, ferroelectricity and piezo-electricity.
    Optical properties of solids: classical theory, free carrier effects, lattice absorption, electric absorption.
    Magnetic properties of solids: atomic magnetic moments, dia and paramagnetism, ferromagnetism, antiferomagnetism, magnetic resonance.
    Superconductivity: theory of superconductivity, superconductors and some applications.
    Nano Technology: carbon as a nanomaterial, structure of carbon, carbon nanotube, quantum dots and nanowires.

    ETE 413 Wireless and Mobile Communication
    Number of Credits: 3.0
    Pre-requisite(s): ETE 315
    Introduction: Concept, evolution and fundamentals. Analog and digital cellular systems. Cellular Radio System: Frequency reuse, co-channel interference, cell splitting and components. Mobile radio propagation: Propagation characteristics, models for radio propagation, antenna at cell site and mobile antenna. Frequency Management and Channel Assignment: Fundamentals, spectrum utilization, fundamentals of channel assignment, fixed channel assignment, non-fixed channel assignment, traffic and channel assignment. Handoffs and Dropped Calls: Reasons and types, forced handoffs, mobile assisted handoffs and dropped call rate. Diversity Techniques: Concept of diversity branch and signal paths, carrier to noise and carrier to interference ratio performance. Digital cellular systems: Global system for mobile, time division multiple access and code division multiple access.

    ETE 415 Microwave Engineering
    Number of Credits: 3.0
    Pre-requisite(s): ETE 325
    Terrestrial microwave systems: CCIR recommendation on frequency assignments, comparison with radio communication in other frequency bands. Microwave terminal and repeater stations, passive reflectors and repeaters. Fade margins and protection techniques such as hot-standby and diversity reception. Link budget calculations.
    Satellite microwave systems: Satellite orbits and dynamics. Frequency allocations and satellite footprints. Earth stations and satellite transponders. Noise considerations. Link budget calculations. Multiple access methods. Mobile satellite systems, its uses and illustrative systems.
    Microwave transmission lines: transmission line equation and solutions, reflection and transmission co-efficient, standing wave and standing wave ratio.
    Microwave waveguides and components: Rectangular waveguides, circular waveguides, microwave cavities, cavity resonator, principles of microwave oven. Microwave hybrid circuits, directional couplers, circulators and isolators.
    Microwave antennas: Different types of antennas, basic performance analysis. Applications
    Microwave devices: Microwave transistors, varactor diode, IMPATT diode, Gunn diode, Schottky Barrier diode, backward diode, point contact diode, Klystron, Reflex Klystron, TWT and Magnetron.

    Text and Reference Books:
    1. Microwave Engineering
    David M. Pozar
    Publisher: Wiley
    ISBN-10: 0471448788
    ISBN-13: 978-0471448785

    2. Foundations for Microwave Engineering
    Robert E. Collin
    Publisher: Wiley-IEEE Press
    ISBN-10: 0780360311
    ISBN-13: 978-0780360310

    3. Microwave Devices and Circuits
    Samuel Y. Liao
    Publisher: Prentice Hall
    ISBN-10: 0135832047
    ISBN-13: 978-0135832042

    4. Antenna & Wave Propagation
    K. D. Prasad
    Publisher: Satya Prakashan, New Delhi
    ASIN: B0016ZM9JS

    5. Antennas For All Applications
    John D. Kraus, Ronald J. Marhefka
    Publisher: McGraw-Hill Science/Engineering/Math
    ISBN-10: 0072321032
    ISBN-13: 978-0072321036

    6. Antenna Theory: Analysis and Design
    Constantine A. Balanis
    Publisher: Wiley-Interscience
    ISBN-10: 047166782X
    ISBN-13: 978-0471667827

    ETE 416 Microwave Engineering Laboratory
    Number of Credits: 1.0
    Pre-requisite(s): ETE 325
    Laboratory experiment will be conducted based on the theory taught.

    ETE 421 Solid State Electronics
    Number of Credits: 3.0
    Pre-requisite(s): ETE 411
    Classification of solids, crystal lattice and structures, Bohrs atoms and wave functions. Electronic model of semiconductor and solids. Valence and conduction band. Concept of holes. Introductory quantum mechanics, wave function, uncertainty principle, postulates, Schrodinger time independent equation, expectation value, Probability, Particle in a zero potential, calculation of energy in one-dimensional potential structures. Energy band diagrams of semiconductor in E-k and E-x.
    Semiconductors in equilibrium: Energy bands, intrinsic and extrinsic semiconductors, Fermi levels, electron and hole concentrations, temperature dependence of carrier concentrations and invariance of Fermi level. Carrier transport processes and excess carriers: Drift and diffusion, generation and recombination of excess carriers, built-in-field, Einstein relations, continuity and diffusion equations for holes and electrons and quasi-Fermi level. PN junction: Basic structure, equilibrium conditions, contact potential, equilibrium Fermi level, space charge, non-equilibrium condition, forward and reverse bias, carrier injection, minority and majority carrier currents, transient and ac conditions, time variation of stored charge, reverse recovery transient and capacitance. Bipolar junction transistor: Basic principle of pnp and npn transistors, emitter efficiency, base transport factor and current gain, diffusion equation in the base, terminal currents, coupled-diode model and charge control analysis, Ebers-Moll equations and circuit synthesis. Metal-semiconductor junction: Energy band diagram of metal semiconductor junctions, rectifying and ohmic contacts. MOS structure: MOS capacitor, energy band diagrams and flat band voltage, threshold voltage and control of threshold voltage, static C-V characteristics, qualitative theory of MOSFET operation, body effect and current-voltage relationship of a MOSFET. Junction Field-effect-transistor: Introduction, qualitative theory of operation, pinch-off voltage and current-voltage relationship.

    Text and Reference Books:
    1. Electrical Engineering Materials
    by Adrianus J. Dekker
    Publisher: Prentice-Hall
    ASIN: B0000CKBKL

    2. Introduction to Solid State Physics
    Charles Kittel
    Publisher: Wiley
    ISBN-10: 047141526X
    ISBN-13: 978-0471415268

    3. Principles of Electronic Materials and Devices
    S. O. Kasap
    Publisher: McGraw-Hill Inc.,US
    ISBN-10: 0071164715
    ISBN-13: 978-0071164719

    4. Electrical Engineering Materials
    T.K. Basak
    Publisher: New Age Science ltd
    ISBN-10: 1906574073
    ISBN-13: 978-1906574079

    5. Fundamentals of Solid-State Electronics
    Chih-Tang Sah
    Publisher: World Scientific Publishing Company
    ISBN-10: 9810206380
    ISBN-13: 978-9810206383

    6. Semiconductor Devices: Physics and Technology
    Simon M. Sze
    Publisher: Wiley
    ISBN-10: 0471333727
    ISBN-13: 978-0471333722

    7. Semiconductor Physics and Devices
    Donald A. Neamen
    Publisher: McGraw Hill Higher Education
    ISBN-10: 0071231129
    ISBN-13: 978-0071231121

    8. Physics of Semiconductor Devices
    Michael Shur
    Publisher: Prentice Hall
    ISBN-10: 0136664962
    ISBN-13: 978-0136664963

    9. Physics of Semiconductors and Their Heterostructures
    Jasprit Singh
    Publisher: Mcgraw-Hill College
    ISBN-10: 0070576076
    ISBN-13: 978-0070576070

    10. Solid State Electronic Devices
    Ben G. Streetman
    Publisher: Prentice-Hall
    ISBN-10: 0134363795
    ISBN-13: 978-0134363790

    11. Solid State Electronic Devices
    Ben Streetman, Sanjay Banerjee
    Publisher: Prentice Hall
    ISBN-10: 013149726X
    ISBN-13: 978-0131497269

    ETE 499 Project/ Internship
    Number of Credits: 4.0
    Project will be taken by the students when they start their Level 4. They must complete the project work within one year or three consecutive semesters under the supervision of a teacher of a university. The project work can also be executed in an industry or in a company as an intern.

    Group 4 Elective Courses

    ETE 441 Optoelectronic Devices
    Number of Credits: 3.0
    Pre-requisite(s): Level 4 students
    Optical properties in semiconductor: Direct and indirect band-gap materials, radiative and non-radiative recombination, optical absorption, photo-generated excess carriers, minority carrier life time, luminescence and quantum efficiency in radiation. Properties of light: Particle and wave nature of light, polarization, interference, diffraction and blackbody radiation. Light emitting diode (LED): Principles, materials for visible and infrared LED, internal and external efficiency, loss mechanism, structure and coupling to optical fibers. 
    Stimulated emission and light amplification: Spontaneous and stimulated emission, Einstein relations, population inversion, absorption of radiation, optical feedback and threshold conditions. Semiconductor Lasers: Population inversion in degenerate semiconductors, laser cavity, operating wavelength, threshold current density, power output, hetero-junction lasers, optical and electrical confinement. Introduction to quantum well lasers.
    Photo-detectors: Photoconductors, junction photo-detectors, PIN detectors, avalanche photodiodes and phototransistors. Solar cells: Solar energy and spectrum, silicon and Schottkey solar cells. Modulation of light: Phase and amplitude modulation, electro-optic effect, acousto-optic effect and magento-optic devices. Introduction to integrated optics. 
    Optical Storage: Compact Discs, Writing to a CD, Reading from a CD.
    Text and Reference Books:
    1. Optoelectronics: An Introduction
    J. Wilson and J.F.B. Hawkes
    Publisher: Prentice Hall
    ISBN-10: 0136384951

    ISBN-13: 978-0136384953

     

    2. Semiconductor Optoelectronic Devices: Introduction to Physics and Simulation
    Joachim Piprek
    Publisher: Academic Press
    ISBN-10: 0125571909
    ISBN-13: 978-0125571906

    3. Optoelectronics: An Introduction to Materials and Devices
    Jasprit Singh
    Publisher: Mcgraw-Hill College
    ISBN-10: 0070576505
    ISBN-13: 978-0070576506

    4. Optoelectronic Devices: III Nitrides
    Mohamed Henini, M Razeghi
    Publisher: Elsevier Science
    ISBN-10: 0080444261
    ISBN-13: 978-0080444260

    ETE 442 Robotics
    Number of Credits: 3.0
    Pre-requisite(s): Level 4 students
    Robot system  concepts and fundamentals: Review of kinematics, forces, moments and Euler’s law.  Control techniques, path/position control.  Bandwidth, transmission techniques and design
    optimization.
    Robot sensors: Introduction to physical sensing devices.  Sensor interfaces to computer systems. Organization of sensor suits.  Contact proximity and machine vision sensors and interfaces. Learning fundamental sensor-motor competences.
    Multi-sensor data fusion: Multi-sensor data fusion fundamentals.  Wavelet transform for data fusion. System organization for multi-sensor fusion.  Current algorithms and their performance evaluation.
    Robot system integration: Program and teach modes.  Manipulation of interfaces.  Interface devices and mechatronic fundamentals, Motion/sensor/actuator interface integration.
    Robot programming languages and systems: Machine programming. Current trends in robotics. Computer vision techniques, Image acquisition and processing techniques. Vision based control of robot manipulators, Robotics in industry, Military application in robotics.

    ETE 443 IC Fabrication
    Number of Credits: 3.0
    Pre-requisite(s): Level 4 students
    IC processing, wafer production and clean room principles, silicon processing, lithography, oxidation, doping techniques, thin film deposition, etching, back-end technology, layer processes used in IC fabrication. Designing a fabrication process to specifically meet physical and electrical specifications for the final chip. Integrating the fabrication steps, IC packaging, and yields in IC processing. Microsystem products, microfabrication processes, nanotechnology. MEMs and future trends.

    ETE 445 VLSI Design and Testing
    Number of Credits: 3.0
    Pre-requisite(s): Level 4 students
    CMOS VLSI design process and focuses on design at the circuit and physical levels. Terminologies and trend in VLSI design. MOS transistor theory, characteristics and equations. CMOS processing technology, resistance and capacitance estimation, CMOS design styles. nMOS and CMOS inverters, dc, transient and transfer characteristics. Designing and testing basic logic gates and other VLSI building blocks such as adders, multipliers, counters, barrel shifters etc. using computer aided design tools and hardware in the laboratory. Basic layout and simulation techniques, design rules. VLSI structures and timing issues. VLSI testing: Objectives and strategies.

    Text and Reference Books:
    1. Modern VLSI Design: Systems on Silicon
    Wayne Wolf
    Publisher: Prentice Hall PTR
    ISBN-10: 0139896902
    ISBN-13: 978-0139896903

    2. Principles of CMOS VLSI Design
    Neil H. E. Weste, Kamran Eshraghian
    Publisher: Addison Wesley
    ISBN-10: 0201533766
    ISBN-13: 978-0201533767

    3. Basic VLSI Design
    Douglas A. Pucknell, Kamran Eshraghian
    Publisher: Prentice Hall
    ISBN-10: 0130791539
    ISBN-13: 978-0130791535

     

    ETE 446 Biomedical Electronics
    Number of Credits: 3.0
    Pre-requisite(s): Level 4 students
    Overview of the human body. Brief description of anatomical and physiological divisions of the human body. Basic Principles and concepts in biomedical engineering: Review of electromagnetism, linear systems, time and frequency domain techniques. Basic transducers and principles: Sure, volume and flow transducers, Catheter and diaphragm based transducers, Force and motion transducers, Temperature, heat flow and humidity sensors.
    ECG and EEG Machines: biopotential electrodes: biopotential amplifiers and cardiac measurements, electrode-electrolyte interfaces and inductants. Plethysmography. Signal conditioning, Signal processing and signal measurement. Signal conditioning in data capture methods.  Aliasing  and frequency response.
    Bioelectric and biomagnetic Measurements.  Active filters design for medical transducers.  Sensitivity, resolution and hysteresis.
    Chemical Measurement Systems: Enzyme based sensors, Immunosensors, Mass spectrometry, Chromatography, Electrophoresis, Magnetic resonance, IR spectrometry and Pulse Oximetry.
    Biotelemetry: Antenna design, Frequency Modulation, Pulsed RF. Phase Locked loops in medical instrumentation. Distributed  networks and telemedicine.
    Medical Imaging and Reconstruction Techniques: X-Rays, tomography, CT-Imaging, Nuclear Imaging, PET Scanners, Ultrasound CT. Fourier reconstruction and non invasive image reconstruction techniques.

    Text and Reference Books:
    1. Modern Electronic Instrumentation and Measurement Techniques
    Albert D. Helfrick and William David Cooper
    Publisher: Prentice Hall
    ISBN-10: 0135932947
    ISBN-13: 978-0135932940

    2. Biomedical Instrumentation and Measurements
    Leslie Cromwell
    Publisher: Prentice Hall
    ASIN: B000OHSACY

    3. Introduction to Biomedical Equipment Technology
    Joseph J. Carr, John M. Brown
    Publisher: Prentice Hall
    ISBN-10: 0130104922
    ISBN-13: 978-0130104922

    ETE 451 High Speed Telecommunication Networks
    Number of Credits: 3.0
    Pre-requisite(s): Level 4 students
    Introduction, Networking Terminology, Internet Evolution. Networking Basics and Internet Protocol Stack HTTP Protocol, TCP Performance Analysis, TCP Sequence Number Plots, Computer Systems Performance Evaluation: Buffer Management, Web Proxy Caching, Web Server Load Balancing, Performance Evaluation, Project Brainstorming Ideas, Wireless Networks: Introduction to Wireless Networking, IEEE 802.11 and IEEE 802.16 Wireless LANs, Wireless Internet Protocols and Performance, Wireless TCP Issues, Vegas and Multicast Rate Control, Video Server Broadcasting, Wireless Networks: Wireless TCP Performance, Wireless Web Performance, Multichannel MAC Protocols, Wireless LAN Measurements, Frame Relay, Asynchronous Transfer Mode (ATM) Networks, Introduction to Asynchronous Transfer Mode, Overview of ATM Signaling, Cell Networking, ATM Terminology, ATM Adaptation Layer, ATM Switching Overview, ATM Switch Architectures, Delta MIN, ATM Traffic Management, Connection Admission Control, Network Traffic Measurement, Network Traffic Measurement and Modeling, LAN Measurement, WAN Measurement, Network Traffic Self-Similarity, Self-Similar LAN Traffic, Self-Similar WAN Traffic, Self-Similar Video Traffic, Network traffic self-similarity discussion, Multifractal Traffic and Wavelet-based Models, Web Performance,  Web Server Request Scheduling, Peer-to-Peer Systems, Network Security.

    ETE 452 Digital and Satellite Communication
    Number of Credits: 3.0
    Pre-requisite(s): Level 4 students
    Introduction:  Communication channels, mathematical model and characteristics. Probability and stochastic processes. Source coding: Mathematical models of information, entropy, Huffman code and linear predictive coding. Digital transmission system: Base band digital transmission, inter-symbol interference, bandwidth, power efficiency, modulation and coding trade-off.
    Receiver for AWGN channels: Correlation demodulator, matched filter demodulator and maximum likelihood receiver. Channel capacity and coding: Channel models and capacities and random selection of codes. Block codes and conventional codes: Linear block codes, convolution codes and coded modulation. Spread spectrum signals and system.
    Satellite communication, Orbits, Station keeping, Satellite altitude, satellite link analysis. Transformation Path, Path loss, Noise Consideration, Satellite systems, Saturation flux density, Effective isotopic radiated power, Multiple access techniques: FDMA, TDMA and CDMA.

    Text and Reference Books:
    1. Digital Satellite Communications
    Tri T. Ha
    Mcgraw-Hill (Tx)
    ISBN-10: 0070253897
    ISBN-13: 978-0070253896

    2. Digital Communications by Satellite: Modulation, Multiple Access, and Coding
    Vijay K Bhargava
    Krieger Pub Co
    ISBN-10: 089464629X
    ISBN-13: 978-0894646294

    ETE 453 Radio and Television Engineering
    Number of Credits: 3.0
    Pre-requisite(s): Level 4 students
    Introduction to radio frequencies. Radio Frequency Amplifiers; Amplitude Modulation and Demodulation; Angle Modulation and Demodulation; Frequency Conversion and Mixing; Radio Transmitter and Receiver, Superheterodyne Receivers; Antennas.
    Television Fundamentals; Analysis and synthesis of television pictures, composite video signal. Television picture tube. Television Cameras: types, construction and operating principles. Color Signal; Television Receivers; Television Measurements; Colorimetry.
    Television transmission systems: PAL, SECAM and NTSC systems. Antenna and television signal transmission and distribution Systems.
    Introduction to Satellite Television Receiver (STVR) system: elements of the system and construction, erection and operation of the system.

    ETE 454 Multimedia Communication
    Number of Credits: 3.0
    Pre-requisite(s): Level 4 students
    Types of media. Multimedia signal characteristic: sampling, digital representation, signal formats. Signal coding and compression: entropy coding, transform coding, vector quantization. Coding standards: H.26x, LPEG, MPEG.
    Multimedia communication networks: network topologies and layers, LAN, MAN, WAN, PSTN, ISDN, ATM, internetworking devices, the internet and access technologies, enterprise networks, wireless LANs and  wireless multimedia. Entertainment networks: cable, satellite and terrestrial TV networks, ADSL and VDSL, high speed modems.
    Transport protocols: TCP, UDP, IP, Ipv4, Ipv6, FTP, RTP and RTCP, use of MPLS and WDMA. Multimedia synchronization, security, QoS and resource management. Multimedia applications: The WWW, Internet telephony, teleconferencing, HDTV, email and e-commerce

    ETE 455 Radar and Navigation
    Number of Credits: 3.0
    Pre-requisite(s): Level 4 students
    Air Traffic Management Air Traffic Management (ATM) concepts, En-route and Terminal Guidance, Supporting technology, Types of Navigational Aids, An introduction to ICAO Radar Systems: Introduction and early history, Classification of Radars, Basic concepts and measurements, The Radar Equation, Propagation effects of atmospheric  refraction, Properties of radar targets, Radar detection in the presence of noise, Introduction to Radar Signal Processing, Radar Antennas CW Radar, Frequency-Modulated CW Radar, MTI and Pulse Doppler Radar, Tracking Radar
    Introduction to Secondary Surveillance Radar (SSR). En-Route Navigational Aids Rho-Theta Navigation, VHF Omni-Range (VOR), Distance Measuring Equipment (DME), Radio altimeter. Introduction to Doppler Navigation and Satellite based navigation. Navigational Aids for Landing Instrument Landing System (ILS), Microwave Landing System (MLS), Approach and Terminal Radars, Use of Precision Approach Path Indicators (PAPI). Automatic Dependant Surveillance (ADS) system.

    ETE 456 Image Processing and Computer Vision
    Number of Credits: 3.0
    Pre-requisite(s): Level 4 students
    FFT or DCT (Discrete Cosine Transform) for filtering/compression, Histogram modification - apply and compare different methods, Histogram stretch, Global histogram equalization, Local histogram equalization, Histogram equalization and direct histogram specification using VGA/mouse, Program to enhance portions of an image, e.g. blow up in size and improve contrast, Image restoration - blurred images, noisy images using inverse filtering, iterative methods, statistical modeling and recovery (Wiener filtering), Zooming algorithm using different interpolation methods, 3-D rotation and translation, Removal of blur from uniform linear motion, High frequency enhancement techniques, Sharpen and unsharp masking, Roberts, Sobel and Canny edge detectors, Color image processing, Image coloring enhancement for X-ray images, Arithmetic coding for compression, Differential coding 1-D and 2-D, Homomorphic filtering, Morphological image processing (opening, closing, hit-or-miss transformation), DCT for compression - JPEG algorithm, Different techniques for image segmentation.

    ETE 457 Broadcast Technologies
    Number of Credits: 3.0

    1. Sound Broadcasting Technologies

    Conventional FM Broadcasting, MPEG and MP3 audio layers, Digital Audio,  Broadcasting (DAB) techniques

    1. Audio-Visual Production Technologies

    Sound and video production techniques, Lighting techniques, MPEG source, coding, HDTV production techniques, News Gathering techniques (ENG and SNG)

    1. Post Production Processing Technologies

    Conventional Editing, Non-Linear Editing (NLE), Digital Video Effects (DVE)

    1. Transmission Technologies

    Analog TV transmission (PAL, NTSC, SECAM), NICAM Audio, MPEG  transmission layer, Orthogonal Frequency Division Multiplexing(OFDM), Digital Terrestrial TV Broadcasting  (DTTB) techniques (DVB-T, ISDB, ATSC), Single Frequency Networking (SFN), Digital Satellite TV Broadcasting (DVB-S and ISDB), Digital Cable TV  transmission.

    1. New Developments in Television Broadcasting

    Interactive TV, 3D-TV, Teletext,  Data Services.

 

 
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