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Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: M.Tech_ECE
Semester: 2nd
Subject: Computer Networks
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
1st week
1 Communication Networks, Circuit Switching
2 Switching, Packet Switching
3 Local Networking Technology
2nd week
4 Bus, Tree, Ring Topology
5 Medium Access control protocols (CSMA/CD, Token ring, FDDI,
DQDB)
6 Mechanism of propagation of path loss model
3rd week
7 Free space path loss, log-distance path loss models
8 Okumura, Hata, PCS Models
9 Wideband PCS microcell model
Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: M.Tech_ECE
Semester: 2nd
Subject: Computer Networks
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
4th week
10 Indoor propagation models
11 Jakes channel model
12 Multi path characteristics of radio waves, signal fading
5th week
13 Time Dispersion, Doppler spread
14 Coherence time LCR
15 Fading statistics, Diversity techniques.
6th week
16 GSM standards
17 signaling and call control, mobility management, location tracing
18 wireless data networking
Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: M.Tech_ECE
Semester: 2nd
Subject: Computer Networks
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
7th week
19 Packet error modeling on fading channels
20 wireless data services
21 IS-95, GPRS
8th week
22 Goals, Assumptions, entities and terminology, IP packet delivery of
MOBILE IP
23 Agent advertisement and discovery, registration, tunneling and
encapsulation
24 optimizations of MOBILE IP, Dynamic Host Configuration Protocol
(DHCP)
9th week
25 Communications asymmetry
26 Classification of new data delivery mechanisms in Data Dissemination
27 Push-based mechanisms, Pull-based mechanisms
Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: M.Tech_ECE
Semester: 2nd
Subject: Computer Networks
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
10th week
28 Hybrid mechanisms
29 selective tuning (indexing) techniques
30 Network Operating System Windows NT/UNIX/LINUX
11th week
31 Mobile IP33N Operating System
32 Properties of a MANET
33 spectrum of MANET applications
12th week
34 Routing and various routing algorithms
35 Security in MANETs
36 VANET architecture
Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: M.Tech_ECE
Semester: 2nd
Subject: Computer Networks
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
13th week
37 Basic principles and applications of VANETs
38 Information dissemination in VANETs
39 Brief introduction to vehicular mobility modeling for VANETs
14th week
40 Challenges in VANETs
41 Difference between VANETs and MANETs
42 Overview of controller area network (CAN)
15th
week
43 DSRC (dedicated short range communications)
44 Routing Protocols in Vehicular Ad Hoc Networks
45 Optimization Algorithm (PSO)
Lesson Plan
Name of the Faculty: Sonia Dahiya
Discipline: M.tech ,ECE
Semester: 2nd
Subject: MULTIMEDIA COMMUNICATION
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
1st week
1 Multimedia networks, Telephone networks, Data netwoks
2 Broadcast television networks, Integrated services digital networks,
Broadband multiservice networks
3 Ttypes of Multimedia Applications: Movie on Demand, Near Movie on
Demand
2nd week
4 Communication modes, multipoint conferencing
5 Network QOS, Application QOS.
6 Digitization principles, Encoder Design
3rd week
7 Decoder Design, Unformatted Text, Formatted
8 Text, Hypertext, Images: Graphics, Digitized documents
9 Digitized pictures; Audio: PCM speech,
Lesson Plan
Name of the Faculty: Sonia Dahiya
Discipline: M.tech ,ECE
Semester: 2nd
Subject: MULTIMEDIA COMMUNICATION
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
4th week
10 CD-qualty audio, Synthesized
11 Audio; Video: Broadcast television
12 Digital vedio, PC vedio, vedio content
5th week
13 Doubt class of unit 1
14 Compression Principles & Text Compression
15 Compression Principles: Source encoders and Destination decoders
6th week
16 Lossless and lossy compression, Entropy encoding,
17 Source encoding; Text Compression: Static Huffman coding
18 Dynamic Huffman Coding
Lesson Plan
Name of Name of the Faculty: Sonia Dahiya
Discipline: M.tech ,ECE
Semester: 2nd
Subject: MULTIMEDIA COMMUNICATION
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
7th week
19 Arithmatic Coding.
20 Graphics Interchange Format
21 Tagged image file format
8th week
22 Digitized documents, digitized pictures.
23 Doubt class of unit 2
24 Audio Compression: Differential Pulse Code Modulation,
9th week
25 Adaptive Differential PCM, Adaptive predictive coding
26 Linear Predictive coding, Code excited LPC
27 Perceptual Coding, MPEG Audio coders
Lesson Plan
Name of the Faculty: Sonia Dahiya
Discipline: M.tech ,ECE
Semester: 2nd
Subject: MULTIMEDIA COMMUNICATION
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
10th week
28 Dolby audio coders
29 Video compression principles
30 (MPEG), MPEG1, MPEG2.
11th week
31 Doubt class of unit 3
32 The internet, Internetworking: Internet addresses
33 The Bandwidth Bottleneck
12th week
34 Internet services, MIME-Types
35 The world wide web and HTML, Dynamic web pages
36 XML, multimedia on the web
Lesson Plan
Name of the Faculty: Sonia Dahiya
Discipline: M.tech ,ECE
Semester: 2nd
Subject: MULTIMEDIA COMMUNICATION
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
13th week
37 Tools for the World Wide Web: web browsers,
38 Web servers, web page makers and site builders,
39 Plug-ins and delivery vehicles.
14th week
40 Developing for the web: HTML is a Markup Language,
41 The Desktop Workspace, The Small Device Workspace
42 Nibbling, Text for the web: making columns of text, flowing text around
images
15th
43 Images for the web: GIF and PNG Images,
44 JPEG, Photoshop, Backgrounds, clickable buttons, Client side image maps,
sound for the web, animation for the web
45 Review of syllabus
Lesson Plan
Name of the Faculty: Mr.Pintu
Discipline:M.Tech –ECE
Semester: 2nd
Subject: DIP (T) & Advanced Image Processing Lab (P)
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
1st week
1
Review of Digital Image
Processing (DIP) Fundamentals and
Filtering :Review of DIP basics and
systems,
1
Take a hand written document, Perform pre-processing and try
to segment into characters
2 sampling and Quantization
3 Representation of digital images, spatial and Gray-level resolution,
2nd week
4 Relationships between pixels:
neighbors of pixel
2
Take an image, design fuzzy
rules for content based image retrieval.
5 Adjacency, connectivity, regions,
and boundaries, distance measures,
6 Image operations on a pixel basis
3rd week
7
Intensity Transformations and
Spatial Filtering: Intensity
Transformation Functions: Image
negatives, log transformations,
3
Take an image, design a neural
network for content based image
retrieval.
8 Power-Law (Gamma)
transformations, piecewise Linear
Transformation functions;
9
Histogram Processing: Histogram
Equalization, Histogram Matching
(Specifications), Local Histogram
Processing, Using Histogram
Statistics for Image Enhancement,
spatial filtering:
Lesson Plan
Name of the Faculty: Mr.Pintu
Discipline: M.Tech –ECE
Semester: 2nd
Subject: Advance Optical Communication
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
4th week
10 Spatial Correlation and Convolution,
Vector Representation of Linear filtering, Generating Spatial Filter Masks, Smoothing
4 Write a program for image
enhancement
11 Spatial Filters: Smoothing Linear Filters, Order Statistics (Nonlinear) Filters; Sharpening Spatial
12 Filters: Using the second derivative for Image Sharpening-The Laplacian; Unsharp Masking and Highboost Filtering
5th week
13
Image Filtering in Frequency Domain,Wavelets and MultiResolution Processing Filtering in Frequency Domain:
Relationship between the sampling
and Frequency intervals, 5
Write a program for image
compression
14 2-D Impulse and shifting Properties,
15 2-D Sampling & 2-D Sampling Theorem,
6th week
16 Aliasing in Images, 2-D Discrete-Fourier Transform and its Inverse, Properties of 2-D DFT,
6
Write a program for color image
processing
17 Additional Characteristics & Filtering Fundamentals in the frequency domain, correspondence between filtering in the spatial and frequency domains;
18 Smoothing frequency domain filters: Ideal Lowpass Filters, Butterworth
Lowpass Filters, Gaussian Lowpass Filters;
Lesson Plan
Name of the Faculty: Mr.Pintu
Discipline: M.Tech –ECE
Semester: 2nd
Subject: Advance Optical Communication
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
7th week
19 sharpening frequency domain filters: Ideal Highpass Filters, Butterworth Highpass Filters, Gaussian Highpass Filters
7
Write a program for image
segmentation
20 Lapalacian in Frequency Domain; Unsharp Masking, Highboost Filtering, and High Frequency Emphasis Filtering, Homomorphic filtering,
21 Implementation of DFT: computing 2-D DFT using 1-D DFT Algorithm, Computing IDFT using DFT Algorithm.
8th week
22
Wavelets and MultiResolution
Processing: Introduction,
Multiresolution Expansions,
Wavelet Transforms in One
Dimension:
8 Write a program for image morphology
23 Wavelet Series Expansion, Discrete Wavelet Transform, Continuous wavelet transform,
24 The Fast Wavelet Transform,
Wavelet Transforms in two
Dimensions, Wavelet Packets.
9th week
25
Image Restoration and
Reconstruction- Restoration in
presence of Noise only: A model of
the image degradation/ restoration
process, Noise models:
9
Write a program for Image
Restoration
26 Spatial and frequency properties of noise, some important noise probability density functions,
27
Periodic Noise, Estimation of Noise
Parameters; Restoration presence
of noise only spatial filtering
Lesson Plan
Name of the Faculty: Mr.Pintu
Discipline: M.Tech –ECE
Semester: 2nd
Subject: Advance Optical Communication
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
10th week
28 Mean Filters, Order Statistic Filters, Adaptive Filters; Periodic noise reduction by
10 Write a program for Edge
detection
29 frequency domain filtering: Bandreject Filters, Bandpass Filters, Notch Filters
30 Restoration in presence of Degradations: Linear, Position
Invariant Degradations,
11th week
31 Estimating the Degradation Function
11 Write a program for Blurring 8
bit color versus monochrome
32 : Estimation by Image Observation, Estimation by Experimentation,
33 Estimation by Modeling; Inverse Filtering, Minimum Mean Square Error
(Wiener) Filtering
12th week
34 Image Compression: Fundamentals: Coding Redundancy, Spatial and Temporal Redundancy,
12
35 Irrelevant Information, measuring Image Information, Fidelity
36 Criteria, Image Formats, Containers,
Lesson Plan
Name of the Faculty: Mr.Pintu
Discipline: M.Tech –ECE
Semester: 2nd
Subject: Advance Optical Communication
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
13th week
37 Compression Standards; Basic Compression Methods: Huffman
Coding, Arithmatic Coding, LZW Coding,
13 38 Run length Coding, Symbol Based
Coding, Bit Plane Coding,
39 Block Transform Coding, Predictive Coding, Wavelet Coding, Digital Image Watermarking
14th week
40 Image Segmentation: Detection of Discontinuities: Point, Line, and Edge detection, Boundary detection,
Thresholding:
14
41 Role of Illumination, basic global
thresholding, Optimum global thresholding using Otsus method,
42
Using Image Smoothing to improve
global thresholding, Using Edges to improve global thresholding, Multiple thresholds, Variable Thresholding, Multivariable Thresholding,
15th
43 Regional Based segmentation: Region growing, region splitting and merging, Segmentation Using Morphological
15 44
Watersheds: Background, Dam Construction, Watershed Segmentation Algorithm, Use of Markers,.
45 use of motion in segmentation: Spatial Techniques, Frequency Domain Techniques
Lesson Plan
Name of the Faculty: Mr.Pintu
Discipline:M.Tech –ECE
Semester: 2nd
Subject: Advance Optical Communication
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
1st week
1 Introduction to ray theory,
1 Study of optical devices.
2
theory of optical wave
propagation ,
3 optical fiber attenuation ,
2nd week
4 optical fiber absorption,
2 Study of fiber optical detector.
5 ,scattering and band losses
6 classification of optical fiber
,dispersion
3rd week
7 dispersion shifted fiber ,dispersion modified fibers,
3 Study of fiber optical
transmitters
8 Dispersion compensated fibers,.
9 optical fiber non linear effects
Lesson Plan
Name of the Faculty: Mr.Pintu
Discipline: M.Tech –ECE
Semester: 2nd
Subject: Advance Optical Communication
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
4th week
10 Types of optical amplifier, Raman optical amplifiers, ,
4 Determination of numerical aperture of optical fiber
11 semiconductor optical amplifier,
Erbium doped fiber amplifier
12 Application:155Mb/s
sonnet/OC3-stm transducer
amplifier.
5th week
13 Introduction to multiplexer,32:1 2.488Gb/s multiplexer with
clock generator (VSC 8131)
5 Study of characteristics of LED. 14 external modulated laser diode
15 the effect of noise and power
supply noise rejection
6th week
16 10Gb /s DWDM optical transmitter Introduction , ,
6 Study of characteristics of
LASER diode.
17 Data pattern ,photo detector
diodes, classification of optical receiver,
18 optical receiver performance characteristics
Lesson Plan
Name of the Faculty: Mr.Pintu
Discipline: M.Tech –ECE
Semester: 2nd
Subject: Advance Optical Communication
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
7th week
19 Optical transreceivers:
Introduction ,LED
transreceivers,
7 Setting a fiber optic analog link.
20 LASER diode Trans receiver,
design guide lines for optical
channel transreceivers,.
21 high speed optical channel
transreceivers
8th week
22 Optical modulation:
Introduction, The mach zander
interferometer ,
8 Setting a fiber optic digital link.
23 , The mech zander
(LINBO3)Optical modulator
24 The MZLIBNO, design process
9th week
25 .
modulator drivers
9
Study of modulation demodulation of light source by
direct amplitude modulation
techniques.
26 DSB laser diode with PMFs for
external modulator
27 Multiplexing : Introduction ,
Lesson Plan
Name of the Faculty: Mr.Pintu
Discipline: M.Tech –ECE
Semester: 2nd
Subject: Advance Optical Communication
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
10th week
28 WDM
10
Forming a PC to PC
communication link using
optical fiber & RS 232.
29 future optical devices for
DWDM schemes,
30 DWDM multiplexing
11th week
31 AWG
multiplexer/demultiplexers for DWDM system
11 Setting up a fiber optic voice link.
32
add/drop multiplexer/demultiplexers,
33 2.5 Gb/s 16:1 multiplexer.
12th week
34 Optical system: Introduction
,optical power budget analysis ,
12
Study of modulation &
Demodulation of light source by PPM technique.
35 10Mb/ soptical link designs for industrial applications
36 optical fiber link design,
Lesson Plan
Name of the Faculty: Mr.Pintu
Discipline: M.Tech –ECE
Semester: 2nd
Subject: Advance Optical Communication
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
13th week
37 dispersion effect
13
Study of modulation &
Demodulation of light source by
PWM technique.
38 wave polarization effect in optical systems under sea optical
system
39 soliton transmission
14th week
40 Network: Introduction ,
14 Study of Propagation loss &
sending loss in optical fiber.
41
optical networks review of data
communication links
42 optical networks review of data
communication links
15th
43 networks
44 LAN standards fiber channel
asynchronous transfer mode
45 Synchronous transfer mode.
Lesson Plan
Name of the Faculty: Sonia Dahiya
Discipline: M.tech ,ECE
Semester: 2nd
Subject: ADVANCED ELECTRONICS INSTRUMENTATION
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
1st week
1 Potentiometers, Differential Transformers
2 Resistance Strain Gauges,
3 Capacitance Sensors, Eddy current sensors
2nd week
4 Piezoelectric, photoelectric, RTD
5 Thermocouple Sensors
6 A/D & D/A converters & their types
3rd week
7 Data loggers, significance of 3 1/2 & 41/2 digit
8 automation in digital instruments
9 DMM, Digital frequency meter
Lesson Plan
Name of the Faculty: Sonia Dahiya
Discipline: M.tech ,ECE
Semester: 2nd
Subject: ADVANCED ELECTRONICS INSTRUMENTATION
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
4th week
10 universal counter & their applications.
11 Doubt class of unit 1
12 Digital Storage oscilloscope & its features like Roll, Refresh & sampling rate,
5th week
13 Application of DSO in communication
14 Sampling Oscilloscope, current trends in oscilloscope technology
15 Wave Analyzer & its Applications
6th week
16 FET analyzers & network analyzers: their applications
17 Introduction to special function Add on cards
18 Computer Aided Software Engineering (CASE) Tool & its use in designing,
Lesson Plan
Name of the Faculty: Sonia Dahiya
Discipline: M.tech ,ECE
Semester: 2nd
Subject: ADVANCED ELECTRONICS INSTRUMENTATION
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
7th week
19 development of Automated Measuring Systems, interfacing IEEE cards
20 Intelligent & Programmable Instruments using computers.
21 Doubt class of unit 2
8th week
22 Data acquisition system, evaluation of SCADA
23 communication technologies, monitoring and supervisory functions
24 Block diagram of PLC, programming languages
9th week
25 Ladder diagram, Functional block diagram
26 Applications, Interfacing of PLC with SCADA.
27 SCADA system components & Architecture: Schemes, Remote Terminal Unit
Lesson Plan
Name of the Faculty: Sonia Dahiya
Discipline: M.tech ,ECE
Semester: 2nd
Subject: ADVANCED ELECTRONICS INSTRUMENTATION
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
10th week
28 Intelligent Electronic Devices, Communication
29 Network, SCADA server. Various SCADA Architectures
30 Advantages and disadvantages of SCADA system.
11th week
31 Doubt class of unit 3
32 PLC Programming: Instructions, operational procedures,
33 PLC Registers: Characteristics of Registers, module addressing
12th week
34 holding registers, input registers, output registers.
35 PLC Functions: Timer functions
36 Industrial applications, counters, counter function & industrial applications
Lesson Plan
Name of the Faculty: Sonia Dahiya
Discipline: M.tech ,ECE
Semester: 2nd
Subject: ADVANCED ELECTRONICS INSTRUMENTATION
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
13th week
37 Arithmetic functions, Number comparison functions
38 Number conversion functions
39 Block diagram & architecture of Virtual Instruments
14th week
40 Data Flow Techniques,
41 Graphical programming in data flow
42 Development of virtual instruments using GUI
15th
43 Real Time Systems.
44 Doubt class of unit 4
45 Review of complete syllabus.
