vii semester scheme - ssit
TRANSCRIPT
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
DEPARTMENT OF TELECOMMUNICATION ENGINEERING
VII SEMESTER SCHEME
Sl.N
o
Sub. Code Name of Subject LH T PR S C
1 TC7T01 WIRELESS COMMUNICATION 4 0 0 0 4
2 TC7T02 OPTICAL FIBER
COMMUNICATION 4 0 0 0 4
3 TC7T03 DATA COMMUNICATION
NETWORKS 4 0 0 0 4
4 TC7PE4XX ELECTIVE B 3 0 0 0 3
5 TC7PE5YY ELECTIVE C 3 0 0 0 3
6 TC7L01 DATA COMMUNICATION
NETWORKS LAB 0 0 3 0 1.5
7 TC7L02 COMMUNICATION LAB-II 0 0 3 0 1.5
8 TC7PW01 PROJECT WORK PHASE-I 0 8 3 0 4
Total 18 8 06 0 25
LH=Lecture Hour T = Tutorial Hour
XX = CV/ ME/ EE/ EC/ CS/ Board PR= Practical Hour
PE= Professional Elective S=Self-study Hour Y=1/2/3
C= Credit L = Laboratory PW = Project Work
Professional Elective –B Credits 3-0-0-0-3 Sub.Code Name of the Subject
TC7PE411 ADVANCED EMBEDDED SYSTEM DESIGN
TC7PE412 SPEECH PROCESSING
TC7PE413 RF CIRCUIT DESIGN
Professional Elective – C Credits 3-0-0-0-3 Sub.Code Name of the Subject
TC7PE511 NETWORK SECURITY AND COVERT
COMMUNICATION
TC7PE512 WAVELET TRANSFORM
TC7PE513 DSP ARCHITECTURE
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Syllabus for the Academic Year – 2020-21
Department: Telecommunication Engineering Semester: 7th
Subject Name: Wireless Communication
Subject Code: TC7T01 L-T-P-S-C: 4-0-0-0-4
Course Objectives:
Course Outcomes:
Sl.No Course Objectives
1
The course has been introduced to make the students understand the principles
basing the architecture of different wireless communication systems and
technologies
2
To enable them to identify the tradeoff between frequency responses, signal to
interference ratio, capacity and spectral efficiency.
3
The Course aims to expose students to characterize different types of large scale
and small scale path losses.
4
To make them analyse the performance of truncated radio systems and error
probabilities.
Course outcome
Descriptions
CO1
Comprehend and identify the fundamental operational and design problems of
wireless communication systems.
CO2 Discuss and distinguish basic cellular communication Standards.
CO3
Characterize large scale path loss, shadowing and small fading in terms of
Doppler spectrum.
CO4
Describe different types of multiple access techniques and diversity techniques to
interpret how they improve performance for mobile radio channels.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
UNIT Description Hours
I
Introduction to Wireless communication System: Evolution of mobile radio
communications, Mobile radio telephony, Examples of wireless
communication Systems, Second Generation (2G), Third Generation (3G),
WLANS, Bluetooth and Personal Area Networks. (Text 1: Chapter
1:1.1,1.2,1.3,1.4, Chapter 2: 2.1, 2.2, 2.4, 2.5)
10
Hours
II
Mobile Radio Propogation and Small Scale Fading: Introduction to Radio
Wave Propogation, Free Space Propogation Models, Outdoor and Indoor
propagation models, Signal penetration into buildings, Small Scale Multipath
Propagation, Parameters of Mobile Multipath channels, Types of Small Scale
fading, Fading due to Doppler Spread. (Text 1: Chapter 4: 4.1, 4.2, 4.10, 4.11,
4.12, Chapter 5: 5.1, 5.4, 5.5.)
10
Hours
III
Equalisation and Speech coding: Introduction, Fundamentals of
Equalization, Training a generic adaptive equaliser, Equalizers in a
communication receiver, linear equalizers, non linear equalizers, algorithms
for adaptive equalizers.
Speech coding: Introduction, charecteristics of speech signals, quantization
techniques, ADPCM, Frequency domain coding of speech, vocoders, linear
predictive coders.
(Chapter 7: 7.1- 7.8 and chapter 8: 8.1-8.7)
12
Hours
IV
Wireless Networking:
Introduction, differences between wireless and fixed phone networks,
development of wireless networks, fixed phone transmission hierarchy, traffic
routing in wireless networks, wireless data services, common channel
signalling, Integrated services digital network, Signalling system No 7,
Signaling Traffic in SS7, SS7 Services, Performance of SSL7.
(Chapter 10)
10
Hours
V
5G Technology:
Introduction, Broadband transmission, Application Innovation, Internet of
Things, Video Streaming, Cloud Computing, 5G data drivers, 5G Data drivers,
Global Mobile adaptation, 4G LTE Advances, 1G to 5G Evolution, 5G
Technical objectives, 5G Concepts and architecture, 5G New Radio, Expected
5G Performance, Multiple cell types, Small cells and heterogeneous networks,
Neutral host small cell, Unlicensed Spectrum integration, Internet of things
and machine to machine, Smart antenna and MIMO, Virtualization, Multi
access edge computing, Multicast and Broad cast, Remote sim provisioning.
(Text 2: few headings of chapter 1, 2 and 3)
10
Hours
Question paper Pattern:
Each unit consists of two questions with a choice
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Text Books:
Sl. No.
Text Book title Author Publisher Volume / Issue
Year of Edition
1 Wireless Communication Theodore S
Rappaport
Pearson
Education
Second
edition 2003.
2
White paper on LTE to
5G:Cellular and Broad band
innovation
Written for 5G
Americans by
Rysavy
Research
- - August
2017
Reference Book:
Sl. No.
Text Book title Author Publisher Volume / Issue
Year of Edition
1 GSM– Architecture,
Protocols and
Services
Jorg Eberspacher, Hans-
Jorg Vogel, Christian
Bettstetter, Christian
Hartmann
Wiley 3rd
Edition 2009
2 Introduction To
Wireless
Telecommunications
Systems and
Networks
Gary J Mullet Cengage
Learning. - -
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Syllabus for the Academic Year 2020-21
Department: Telecommunication Engineering Semester: 7th
Subject Name: Optical Fiber Communication
Subject Code: TC7T02 L-T-P-S-C: 4-0-0-0-4
Course Objectives: To study the basics of various types of:
Course Outcomes: At the end of this course, students will be able to
Sl.
No. Course Objectives
1 Optical fibers, signal transmission characteristics.
2 Optical sources, photo detectors, optical components and amplifiers.
Course
outcome Descriptions
CO1 Understand basic properties and various transmission losses of optical
fibers.
CO2 Apply the knowledge of mathematics to solve problems involved in
optical fiber communication.
CO3 Analyze the behavior of optical sources, photo detectors, optical
components and amplifiers.
CO4 Select and employ operational techniques of optical fiber for various
applications.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Question paper Pattern:
Each unit consists of two questions with a choice
UNIT Description Hours
I
Overview of optical fiber communications
Motivations for light wave communications, optical spectral bands, key
elements of optical fiber systems, basic optical laws and definitions, optical
fiber modes and configurations, mode theory for circular waveguides, single
mode fibers, graded-index fiber structure, fiber materials, photonic crystal
fibers, fiber optic cables.
Text 1: 1.1, 1.2, 1.6, 2.2, 2.3, 2.4, 2.5, 2.6, 2.7, 2.8, 2.11
12Hrs
II
Attenuation and Dispersion
Attenuation: absorption, scattering losses, bending losses, core and cladding
losses, signal dispersion in fibers
Text1: 3.1, 3.2
10Hrs
III
Optical sources and Photo detectors
Topics from semiconductor physics, light-emitting diodes, laser diodes,
physical principles of photo diodes, photo detector noise.
Text1: 4.1, 4.2, 4.3, 6.1, 6.2
10Hrs
IV
Fiber jointing
Mechanical misalignments, fiber spicing, optical fiber connectors.
Text1:5.3.1(excluding analysis), 5.5, 5.5.1, 5.6, 5.6.1
WDM concepts and Optical components
Overview of WDM, passive optical couplers: 2x2 fiber coupler, star coupler,
Mach-Zehnder interferometer multiplexers, isolators and circulators, fiber
grating filters, dielectric thin-film filters, dynamic gain equalizers, OADM
Text1:10.1, 10.2, 10.2.1, 10.2.4, 10.2.5, 10.3, 10.4, 10.5, 10.8.4, 10.8.5
10Hrs
V
Optical amplifiers
Basic applications and types of optical amplifiers, semiconductor optical
amplifiers, erbium-doped fiber amplifiers, amplifier noise.
Text1:11.1, 11.2, 11.3, 11.4
SONET/SDH
Transmission formats and speeds, Optical interfaces, SONET/SDH rings,
SONET/SDH networks
Text1:13.3
10Hrs
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Text Book:
Sl.
No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1 Optical Fiber
Communications
Gerd
Keiser
McGraw Hill
Education 5
th edition 2013
Reference Books:
Sl. No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1 Fiber Optic Communication John M.
senior
Pearson
education
4th
edition
2
Optical Fiber
Communications Principles
and Practice
Joseph C
Palais
Pearson
education
Third
edition
2010
reprint
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Syllabus for the Academic Year – 2020-21
Department: Telecommunication Engineering Semester: 7th
Subject Name: Data Communication Networks
Subject Code: TC7T03 L-T-P-SC-: 4-0-0-0-4
Course Objectives:
Course Outcomes
Sl.No. Course Objectives
1 Expose students to basic principles of computer networking.
2
To provide an Overview to the main technologies and models used in
computer networks.
3
Give students the knowledge of internetworking principles and how the
Internet protocols, routing, and applications operate and allow them to
practice in this field forming foundation for more advanced courses in
networking
Course outcome
Descriptions
CO1
Understand principles of computer networking, architectures, and
reference models. (L1)
CO2 Acquire knowledge of techniques: framing, switching, LAN, DLL and
channel allocation..(L2)
CO3 Analyze network addressing ,data handling, fragmentation, network layer
protocols performance (L4)
CO4 Apply the basic principles of error control, routing, flow control, and
congestion control mechanisms for real time networks. (L3)
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
UNIT Description Hours
I
Data communication and network models: Layered tasks, OSI Model,
Layers in OSI model, TCP-IP protocol suite, addressing
Multiplexing: Introduction to multiplexing, FDM and TDM; Synchronous
and asynchronous multiplexing.
Telephone and cable networks for data communication: Dial up modem,
DSL, ADSL, Cable TV networks, circuit switching, message switching and
packet switching.
1.1 to 1.4, 2.1 to 2.5, 6.1, 9.2 to 9.5.
10
Hours
II
DATA LINK CONTROL: CRC, Framing, Flow and error control, Protocols,
Noiseless channels and noisy channels, HDLC.
MULTIPLE ACCESSES: Random access, Controlled access.
10.4, 11.1 to 11.6, 12.1 to 12.2.
10
Hours
III
Wired LAN: Ethernet, IEEE standards, Standard Ethernet, Changes in the
standards, Fast Ethernet, Gigabit Ethernet, Wireless LAN IEEE 802.11.
Connecting LANs, Connecting devices, Backbone networks and Virtual
LANs.
13.1 to 13.5, 14.1, 15.1 to 15.3.
10
Hours.
IV
Network Layer: Logical addressing-Ipv4 addresses, Ipv6 addresses,
Network layer: Internet protocol-Ipv4 and Ipv6, Transition from Ipv4 to
Ipv6
19.1 to 19.2, 20.1 to 20.4
.
10
Hours
V
Network layer: Delivery, forwarding, Routing-Hierarchical routing, Unicast
Routing-Distance vector routing Protocols (instability not considered), Link
state routing.
Congestion and QOS: Open loop and closed loop control, Techniques to
improve QOS.
22.1 to 22.3, 24.1 to 24.3, 24.5 to 24.6.
12
Hours
Question paper Pattern:
Each unit consists of two questions with a choice
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Text Books:
Sl. No.
Text Book title Author Publisher Volume / Issue
Year of Edition
1
Data communications and
Networking
Behrouz .A.
Forouzan
Tata McGraw-
Hill
4th Ed 2010
Reference Book:
Sl. No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1 Computer Networks
James F.
Kurose, Keith
W. Ross
Pearson
education
2nd
Edition 2003
2
Introduction to Data
communication and
networking
Wayne
Tomasi
Pearson
education 2007
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Syllabus for the Academic Year – 2020-21
Department: Telecommunication Engineering Semester: 7th
Subject Name: Advanced Embedded System Design
Subject Code: TC7PE411 L-T-P-S-C: 3-0-0-0-3
Course Objectives:
Course Outcomes
Sl.No. Course Objectives
1 Impart the concepts and architecture of embedded systems
2 To make the students capable of designing embedded systems.
3 Set the required background in embedded firmware concepts and RTOS.
4
Familiarizing the students in industry popular 32-bit Microcontroller,
Embedded System Development Environment.
Course outcome
Descriptions
CO1
Know about embedded system and realize the characteristics of an
Embedded System.
CO2
Understand the crucial aspects of embedded systems, sensors & actuators,
communication protocols
CO3
Understand the Firmware circuits like brownout protection and watchdog
timer.
CO4 Know about the development environment for embedded systems including
disassembler, simulator and emulator
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
UNIT Description Hours
I
Introduction and examples of embedded systems
Introduction to Embedded Systems Definition of Embedded System,
Embedded Systems Vs General Computing Systems, History of Embedded
Systems, Classification, Major Application Areas, Characteristics and Quality
Attributes of Embedded Systems.
(Chapter 1:1.1-1.5, Chapter 3: 3.1-3.2) .
7Hrs
II
Typical Embedded System: Core of the Embedded System: General Purpose and Domain Specific
Processors, ASICs, PLDs, Commercial Off-The-Shelf Components (COTS),
Memory: ROM, RAM, Memory Shadowing, Sensors and Actuators,
Communication Interface: Onboard and External Communication Interfaces
(Chapter 2:2.1-2.4)
9Hrs
III
Embedded Firmware: Reset Circuit, Brown-out Protection Circuit, Oscillator Unit, Real Time Clock,
Watchdog Timer, Embedded Firmware Design Approaches and Development
Languages. (Chapter 2:2.6 Chapter 9:9.1-9.2)
7Hrs
IV
Real-Time Operating System (RTOS) based Embedded System Design: Operating System Basics, Types of OS, Tasks, Process and Threads,
Multiprocessing and Multitasking, Task Scheduling, Threads, Processes and
Scheduling, Task Communication, Task Synchronization, Device Drivers,
How to Choose an RTOS.
(Chapter 10: 10.1-10.10)
8Hrs
V
Embedded System Development Environment The Integrated Development Environment (IDE), Types of Files Generated on
Cross compilation, Disassembler/ELDompiler, Simulators, Emulators and
Debugging, Target Hardware Debugging, Boundary Scan.
(Chapter 13: 13.1-13.6)
8Hrs
Question paper Pattern:
Each unit consists of two questions with a choice
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Text Book:
Sl. No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1 Introduction to Embedded
Systems Shibu K.V Mc Graw Hill.
- 2009
Reference Books:
Sl. No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1 Embedded Systems Raj Kamal TMH. - -
2 Embedded System
Design
Frank Vahid,
Tony Givargis,
John Wiley. - -
3 Embedded Systems Lyla, Pearson,
- 2013
4 An Embedded Software
Primer
David E. Simon, Pearson
Education
- -
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Syllabus for the Academic Year – 2020-21
Department: Telecommunication Engineering Semester: 7th
Subject Name: Speech Processing
Subject Code: TC7PE412 L-T-P-S-C: 3-0-0-0-3
Course Objectives:
Course Outcomes
Sl.No. Course Objectives
1
To provide students with the knowledge of basic characteristics of speech signal in
relation to production and hearing of speech by humans
2 To describe basic algorithms of speech analysis common to many applications
3 To give an overview of applications(recognition, synthesis and coding)
4 To inform about practical aspects of speech algorithms implementation
Course outcome
Descriptions
CO1 Model speech production system and describe the fundamentals of speech.
CO2 Extract and compare different speech parameters.
CO3 Choose an appropriate statistical speech model for a given application.
CO4 Design a speech recognition system.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Question paper Pattern:
Each unit consists of two questions with a choice
UNIT Description Hours
I
Basic Concepts: Speech Fundamentals: Articulatory Phonetics – Production
and Classification of Speech Sounds; Acoustic Phonetics – acoustics of
speech production; Review of Digital Signal Processing concepts; Short-
Time Fourier Transform, Filter-Bank and LPC Methods.
8 HRS
II
Speech Analysis: Features, Feature Extraction and Pattern Comparison
Techniques: Speech distortion measures – mathematical and perceptual –
Log Spectral Distance, Cepstral Distances, Weighted Cepstral Distances and
Filtering, Likelihood Distortions, Spectral Distortion using a Warped
Frequency Scale, LPC, PLP and MFCC Coefficients, Time Alignment and
Normalization – Dynamic Time Warping, Multiple Time – Alignment Paths.
8 HRS
III
Speech Modeling: Hidden Markov Models: Markov Processes, HMMs –
Evaluation, Optimal State Sequence – Viterbi Search, Baum-Welch
Parameter Re-estimation, and Implementation issues.
8 HRS
IV
Speech Recognition: Large Vocabulary Continuous Speech Recognition:
Architecture of a large vocabulary continuous speech recognition system –
acoustics and language models – ngrams, context dependent sub-word units;
Applications and present status.
7 HRS
V
Speech Synthesis: Text-to- speech synthesis concatenative and waveform
synthesis methods, subword units for TTS, intelligibility and naturalness –
role of prosody, Applications and present status.
8 HRS
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Text Book:
Sl. No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1 Fundamentals of
Speech Recognition
Lawrence Rabiner and Biing-Hwang Juang
Pearson
Education, - 2003
Reference Books:
Sl. No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1
The Scientist and Engineer’s Guide to Digital Signal Processing
Steven W. Smith
California Technical Publishing
2 Discrete-Time Speech Signal Processing – Principles and Practice
Thomas F Quatieri
Pearson Education
3 Speech Recognition
Claudio Becchetti and Lucio Prina Ricotti
John Wiley and Sons,
1999.
4
Speech and audio signal processing- processing and perception of speech and music
Ben gold and Nelson Morgan
Wiley- India Edition
2006 Edition
5 Statistical Methods of Speech Recognition
Frederick Jelinek
MIT Press
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Syllabus for the Academic Year – 2020-21
Department: Telecommunication Engineering Semester: 7th
Subject Name: RF Circuit Design
Subject Code: TC7PE413 L-T-P-S-C: 3-0-0-0-3
Course Objectives: The objectives of this course are to make the students
Course Outcomes: At the end of the course, students will be able to:
Sl.No Course Objectives
1 Analyze and design basic RF Electronic Circuits.
2 Design and Study the RF Transmission Lines, Active and Passive Circuits.
3 Design the RF Transistors.
4 Study the RF Mixers.
Course outcome
Descriptions
CO1 Describe general RF Circuits, Components and Systems.
CO2 Design impedance matching networks and passive RF Filters.
CO3
Understand RF Receiver front end systems: RF amplifier, Mixer and Local
oscillator for wireless communication Systems.
CO4 Conduct Experiments using Simulation tools for RF Circuit design.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Question paper Pattern:
Each unit consists of two questions with a choice
UNIT Description Hours
I
INTRODUCTION TO RF ELECTRONICS
The Electromagnetic Spectrum, Microwave bands, RF behavior of passive
components, Tuned resonant circuits, vectors, Inductors and capacitors- voltage
and current in capacitor circuits, Tuned resonant circuits, Vectors, Inductors and
capacitors- voltage and current in capacitor circuits, Tuned RF/ IF Transformers,
High frequency limitations of BJT, MOSFET.
8
II
TRANSMISSION LINE ANALYSIS: Examples of transmission lines,
Transmission line equations, Micro strip Transmission Lines, Special
Termination conditions- Sourced and Loaded Transmission Lines.
7
III
RF PASSIVE & ACTIVE COMPONENTS: Filter Basics, Lumped filter
design, Distributed Filter Design, Diplexer Filters, Crystal and Saw filters,
Tunable filters, power combiners/ Dividers, Directional Couplers, Hybrid
couplers, Isolators, RF Diodes, BJTS, FETS, HEMTS and Models.
8
IV
RF TRANSISTOR AMPLIFIER DESIGN: Characteristics of Amplifiers,
Amplifier Circuit Configurations, Amplifier Matching Basics, Distortion and
noise products, stability considerations, small signal amplifier design, power
amplifier design, MMIC amplifiers, Broadband High power multistage
amplifiers, Low noise amplifiers, VGA Amplifiers.
8
V RF MIXERS: Basic characteristics of a mixer, Active mixers, Image Reject
and Harmonic mixers, Frequency domain considerations. 7
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Text Book:
Sl. No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1 RF Circuit design: Theory
and applications
Reinhold
Ludwing, Pavel
Bretchko
Pearson
Education
Asia
Publication,
New Delhi
- 2001.
Reference Books:
Sl. No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1
Radio Frequency and
Microwave
Communication
Circuits- Analysis and
Design
Devendra K Misra,
Wiley student
Edition, John
Wiley & Sons.
2 RF Circuit Design
Christopher Bowick,
Cheryl Aljuni and
John Biyler,
Elsevier
science
2008
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Syllabus for the Academic Year – 2020 - 2021
Department: Telecommunication Engineering Semester: 7th
Subject Name: Network Security and Covert Communication
Subject Code: TC7PE511 L-T-P-S-C: 3-0-0-0-3
Course Objectives:
Course Outcomes
Sl.No Course Objectives
1 Identify the security concerns in Email and internet protocol.
2 Understand cyber security concepts.
3
Classify the threats (problems) and develop a security model to prevent, detect
and recover from the attacks.
4 Discuss the various covert communication frame work.
Sl.No Descriptions
CO1
Analyse network security protocols and understand the basic concepts of
covert communication. (L4)
CO2 Analyse the Network security problems. (L4)
CO3 Analyse Network Security Framework. (L4)
CO4
Apply concept of Covert Communication framework in computer system
administration. (L3)
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
UNIT Description Hours
I
Transport Level Security: Web Security Considerations, Secure Sockets
Layer, Transport Layer Security, HTTPS, Secure Shell (SSH) E-mail Security:
Pretty Good Privacy, S/MIME, domain keys identified mail.
Text [1]: chapter 17.1, 17.2, 17.3, 17.4, 17.5, 19.1, 19.2, 19.3
8
II
IP Security: IP Security Overview, IP Security Policy, Encapsulation
Security, Payload (ESP), combining security Associations, Internet Key
Exchange. Text [1]: chapter 20.1, 20.2, 20.3, 20.4, 20.5
8
III
Digital Watermarking: Information Hiding, History of Watermarking,
Notation, Communications, Components of Communications Systems, Classes
of Transmission Channels, Secure Transmission, Communication-Based
Models of Watermarking, Basic Model, Watermarking as Communications
with Side Information at the Transmitter, Watermarking as Multiplexed
Communications, Geometric Models of Watermarking, Distributions and
Regions in Media Space, Marking Spaces, Modeling Watermark Detection by
Correlation, Linear Correlation, Normalized Correlation, Correlation
Coefficient, Summary. Text [2]: chapter 1.1, 1.2, 3.1, 3.2, 3.3, 3.4, 3.5
8
IV
Steganography and its applications: Steganographic Communication,
History of Steganography, Importance of Digital Watermarking. Importance of
Steganography The Channel, The Building Blocks, Notation and Terminology,
Information-Theoretic Foundations of Steganography.
Text [2]: chapter 1.3, 1.4, 1.5, 12.1, 12.2, 12.3
8
V
Steganalysis : Steganalysis Scenarios, Detection, Forensic Steganalysis, The
Influence of the Cover Work on Steganalysis, Some Significant Steganalysis
Algorithms, LSB Embedding and the Histogram Attack, Sample Pairs
Analysis, Blind Steganalysis of JPEG Images Using Calibration, Blind
Steganalysis in the Spatial Domain.
Text [2]: chapter 13.1, 13.2
8
Question paper Pattern:
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Each unit consists of two questions with a choice
Text Books:
Sl. No.
Text Book title Author Publisher Volume / Issue
Year of Edition
1 Cryptography and
Network Security
Principles and Practice
William Stallings Pearson
Education Inc.
6th
Edition 2014
2 Digital
Watermarking and
Steganography
Ingemar J. Cox,
Matthew L. Miller,
Jeffrey A. Bloom,
Jessica Fridrich, and
Ton Kalker
Morgan
Kaufmann
Publishers
2nd
Edition 2008
Reference Book:
Sl. No.
Text Book title Author Publisher Volume / Issue
Year of Edition
1
Network Security:
Private
communication in a
Public World
Kaufman, Radia
Perlman, Mike
Speciner Charlie
Pearson
Education Asia
Second
Edition 2002
2
Cryptography and
Network Security
Atul Kahate Tata
McGrawHill. 2003
3
Information Systems
Security: Security
Management, Metrics,
Frameworks and Best
Practices
Nina Godbole, Wiley
Publications.
2nd
Edition
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Syllabus for the Academic Year – 2020-21
Department: Telecommunication Engineering Semester: 7th
Subject Name: Wavelet Transform
Subject Code: TC7PE512 L-T-P-S-C: 3-0-0-0-3
Course Objectives:
Course Outcomes
Sl.No. Course Objectives
1 To understand the basic concepts of wavelet functions and wavelet transforms.
2 To construct various ortho normal MRA wavelets.
3
To understand MRA Ortho-normal wavelets and their relationships to filter banks
and Bi-orthogonal Wavelets
4 To understand the applications of wavelet transforms
Course outcome
Descriptions
CO1
Describe Continuous Wavelet Transform (CWT) and Discrete Wavelet Transform
(DWT).
CO2 Explain the properties and application of wavelet transform.
CO3 Classify various wavelet transform and explain importance of it.
CO4
Develop and realize computationally efficient wavelet based algorithms for signal
and image processing
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Question paper Pattern:
Each unit consists of two questions with a choice
UNIT Description Hours
I
Introduction:
Origin of wavelets and its history, Different communities of wavelet,
Classification: continuous and discrete wavelet transforms, Developments in
wavelet theory applications.
8
II
Continuous Wavelet Transform:
Introduction, Continuous time wavelets, Definition of CWT, Constant Q
factor filtering interpretation and Time Frequency Resolution, CWT as an
operator, Inverse CWT.
8
III
Introduction to the Discrete Wavelet Transform and orthogonal
Wavelet decomposition:
Approximations of vectors in nested linear vector subspaces, Multi-
resolution Analysis of L2 (R), Haar Scaling function, Haar wavelet, Haar
wavelet decomposition, Haar wavelet packets and application.
8
IV
MRA Ortho-normal wavelets and their relationships to filter banks and
Bi-orthogonal Wavelets:
Construction of an ortho-normal MRA, Wavelet basis for the MRA, Digital
filtering interpretation, Examples of orthogonal basis generating wavelets,
Interpreting ortho-normal MRA for discrete time signals, Generating scaling
functions and wavelets from filter coefficients, Bi-orthogonal Wavelet bases,
Filtering relationship for Bi-orthogonal filters, Bi-orthogonal scaling
functions and wavelets, Two dimensional wavelets, Non separable Multi-
dimensional wavelets, Wavelet Packets.
7
V
Wavelength Transform and applications:
Transform coding, DTWT for image compression, audio compression,
Wavelet based audio coding, video coding and multi resolution Techniques,
Wavelet de-noising, Speckle removal, Edge detection and object isolation,
Image fusion, Object detection, discrete wavelet multi-tone modulation.
8
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Text Books:
Sl. No.
Text Book title Author Publisher Volume / Issue
Year of Edition
1
Wavelet Transforms –
Introduction and
applications
Raguveer M.Rao and
Ajit S.Bopardikar
Pearson
Education, 2008
Reference Books:
Sl. No.
Text Book title Author Publisher Volume / Issue
Year of Edition
1 A Wavelet Tour of
Signal Processing S. Mallat
Academic
Press
2nd
edition 1999
2 Wavelets and Sub
band Coding
M. Vetterli and J.
Kovacevic Prentice Hall 1995
3
Fundamentals of
Wavelets: Theory,
Algorithms, and
Applications
J.C. Goswami and A.K.
Chand Wiley 2nd ed. 2011.
4 Wavelets and their
Applications
Michel Misiti, Yves
Misiti, Georges
Oppenheim, Jean Michel
Poggi
John Wiley
& Sons, 2010
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Syllabus for the Academic Year – 2020-21
Department: Telecommunication Engineering Semester: 7th
Subject Name: DSP Architecture
Subject Code: TC7PE513 L-T-P-S-C: 3-0-0-0-3
Course Objectives: The students will be able to
Course Outcomes
Sl.No. Course Objectives
1 Describe the architectural features of DSP processor.
2 Analyse various addressing modes of TMS320C54xx DSP processor
3 Compare the architectural features of different fixed point DSPs.
4 Interface Memory and Parallel I/O Peripherals and CODEC to Programmable DSP
Device
Course outcome
Descriptions
CO1 Explain basic requirements and features of programmable DSP devices.
CO2 Describe the importance of McBSP, CODEC interfaces.
CO3 Analyse and develop simple programs to implement different DSP algorithms.
CO4 Design interfaces for digital signal processors with memory and I/O peripherals.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Question paper Pattern:
Each unit consists of two questions with a choice
UNIT Description Hours
I
INTRODUCTION TO DIGITAL SIGNAL PROCESSING: Introduction,
A Digital Signal-Processing System, Linear Discrete Fourier Transform and
Fast Fourier Transform Time-Invariant Systems, Decimation and
Interpolation.
8
II
ARCHITECTURES FOR PROGRAMMABLE DIGITAL SIGNAL-
PROCESSING DEVICES: Introduction, Basic Architectural Features, DSP
Computational Building Blocks, Bus Architecture and Memory, Data
Addressing Capabilities, Address Generation Unit, Programmability an
Program Execution, Features for External Interfacing .
8
III
PROGRAMMABLE DIGITAL SIGNAL PROCESSORS: Introduction,
Commercial Digital Signal-processing Devices, Data Addressing Modes of
TMS320C54xx, Memory Space of TMS320C54xx Processors, Program
Control, TMS320C54xx Instructions and Programming, On-Chip
peripherals, Interrupts of TMS320C54xx Processors, Pipeline Operation of
TMS320C54xx Processors.
8
IV
IMPLEMENTATIONS OF BASIC DSP ALGORITHMS AND FFT
ALGORITHMS: The Q-notation, FIR Filters, IIR Filters, Adaptive filters,
An FFT Algorithm for 8 point DFT Computation, A Butterfly Computation,
Overflow and Scaling, Bit-Reversed Index Generation, FFT Implementation
on the TMS320C54xx, Computation of the Signal Spectrum .
7
V
INTERFACING MEMORY AND PARALLEL I/O PERIPHERALS TO
PROGRAMMABLE DSP DEVICES: Introduction, Memory Space
Organization, External Bus Interfacing Signals, Memory Interface, Parallel
I/O Interface, Programmed I/O
Interfacing Serial Converters to a Programmable DSP Device:
Introduction, Synchronous Serial Interface, A multi-channel Buffered Serial
Port (McBSP), A CODEC Interface Circuit.
8
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Text Book:
Sl. No.
Text Book title Author Publisher Volume / Issue
Year of Edition
1 Digital Signal
Processing
Avatar Singh and S
Srinivasan
Thomson
Learning 2004.
Reference Books:
Sl. No.
Text Book title Author Publisher Volume / Issue
Year of Edition
1
Digital Signal
Processors
B Venkataramani
and M Bhaskar TMH
2nd
edition 2011
2
Digital Signal
Processing – A
Practical approach
E.C.Ifeachor and
B.W.Jervis Pearson Education
Second
edition 2002.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Syllabus for the Academic Year – 2020-21
Department: Telecommunication Engineering Semester: 7th
Subject Name: Data Communication Networks Lab
Subject Code: TC7L01 L-T-P-S-C: 0-0-3-0-1.5
Course Objectives:
Course Outcomes
Sl.No Course Objectives
1 Expose students to basic principles of computer networking.
2
To provide an Overview to the main technologies and models used in
computer networks.
3
Give students the knowledge of internetworking principles and how the
Internet protocols, routing, and applications operate and allow them to
practice in this field forming foundation for more advanced courses in
networking
Course outcome
Descriptions
CO1 Understand principles and protocols of computer networking layers(L3)
CO2 Acquire knowledge of techniques: framing, routing, security (L3)
CO3 Design algorithms for chained layers (L4)
CO4 Communication on real time networks. (L3)
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
SL. NO.
LIST OF EXPERIMENTS
1. Write a C program to simulate Bit-stuffing in HDLC.
2. Write a C program to simulate Bit De-stuffing in HDLC.
3. Write a C program for Encryption of a given message using Substitution
method.
4. Write a C program for Decryption of a given message using Substitution
method.
5. Write a C program for Encryption of a given message using Transposition
method.
6. Write a C program for Decryption of a given message using Transposition
method.
7. Write a C program to simulate Shortest Path Algorithm for the given graph.
8. Write a C program to compute polynomial code Checksum for CRC-CCITT :
i) Without error ii) With error
9. Implement the following operations using DOS interrupts
i) Create and delete a directory ii) Create and delete a file.
10. Using RS 232 cable carry Asynchronous communication between two systems
11. Using NS2 carry out communication between two nodes.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Syllabus for the Academic Year 2020-21
Department: Telecommunication Engineering Semester: 7th
Subject Name: Communication Lab - II
Subject Code: TC7L02 L-T-P-S-C: 0-0-3-0-1.5
Course Objectives:
Course Outcomes: At the end of this course, students will be able to
Sl.No. Course Objectives
1
To conduct experiments on optical fiber communication kit, antennas,
coupler, phase shifter, resonator and digital modulation techniques.
Course outcome
Descriptions
CO1 Measure the various optical fiber communication losses.
CO2 Analyze various concepts related to microwave bench.
CO3 Understand various concepts related to micro strip components.
CO4 Demonstrate digital modulation techniques.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Sl. No.
LIST OF EXPERIMENTS
1. Conduct an experiment on optical fiber kit to set up the following:
i) Analog Link ii) Digital Link
2. Conduct an experiment on optical fiber kit to measure the following:
i) Numerical aperture ii) Acceptance angle iii) Attenuation iv) Bending loss
3.
Conduct an experiment on Horn Antenna to plot the Radiation Pattern and to determine
the following: i) Half Power Beam Width (HPBW) ii) Directivity iii) Gain
iv) Efficiency
4. Conduct an experiment using slotted line carriage to measure unknown impedance of
given Load using smith chart.
5. Conduct an experiment on Phase shifter to determine the amount of Phase shift for the
given load.
6. Conduct an experiment to plot radiation pattern of Micro strip antennas:
i) Yagi antenna ii) Patch antenna.
7. Conduct an experiment to measure power division of Micro strip Directional couplers
and power dividers.
8. Conduct an experiment to measure resonance of Micro strip ring Resonator and plot
resonance graph.
9. Conduct an experiment to demonstrate modulation and demodulation of TDM.
10. Conduct an experiment to demonstrate modulation and demodulation of DPSK.
11. Conduct an experiment to demonstrate modulation and demodulation of BPSK.
12. Conduct an experiment to demonstrate modulation and demodulation of QAM
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Department Of Telecommunication Engineering.
VIII SEMESTER SCHEME
Sl.
No.
Sub. Code Name of Subject LH T PR S C
1 TC8T01 MOBILE COMMUNICATION 4 0 0 0 4
2 TC8T02 SATELLITE COMMUNICATION 4 0 0 0 4
3 TC8PE31X ELECTIVE-D 3 0 0 0 3
4 TC8PE41X ELECTIVE-E 3 0 0 0 3
5 TC8PW02 PROJECT WORK PHASE-II 2 4 12 0 10
6 TC8TS01 TECHNICAL SEMINAR 0 0 0 1 1
Total 16 04 12 01 25
LH=Lecture Hour T = Tutorial Hour
XX = CV/ ME/ EE/ EC/ CS-Board PR= Practical Hour
PE= Professional Elective S=Self-study Hour y = 1/2/3
C= Credit L = Laboratory PW = Project Work TS=Technical Seminar
Professional Elective –IV Credits 3-0-0-0-3 Sub. Code Name of the Subject
TC8PE311 IoT AND WIRELESS SENSOR NETWORKS
TC8PE312 MULTIRATE SYSTEMS AND FILTER BANKS
TC8PE313 BIOMEDICAL SIGNAL PROCESSING
Professional Elective –V Credits 3-0-0-0-3
Sub. Code Name of the Subject
TC8PE411 PATTERN RECOGNITION
TC8PE412 MEMS
TC8PE413 ARTIFICIAL INTELLIGENCE
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Syllabus for the Academic Year – 2020-21
Department: Telecommunication Engineering Semester: 8th
Subject Name: Mobile Communication
Subject Code: TC8T01 L-T-P-S-C: 4-0-0-0-4
Course Objectives:
Course Outcomes
Sl.No Course Objectives
1 Understand the developments in mobile communication field..
2
Understanding Principles of Cellular system and call establishment,
Mobility management.
3
Understanding the CDMA concepts and its operations, numbering
scheme, new and emerging air-interface technologies.
Course outcome
Descriptions
CO1
Understand evolution and development of different generations of wireless
Telecommunication systems and CDMA ( L1)
CO2
Acquire knowledge of cellular and CDMA components, system
architecture, channels and resource management techniques (L2)
CO3
Acquire knowledge of techniques : cellular and CDMA channel concepts
for call establishment ,mobility management and handoff .(L4)
CO4 Acquire knowledge of Cellular and CDMA emerging technologies.( L3)
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
UNIT Description Hours
I
Introduction to wireless telecommunication systems and Networks:
History and Evolution Different generations of wireless cellular networks 1G,
2G, 3G and 4G networks.
Chapter 1:1.1 to 1.6, Chapter 2: 2.1 to 2.6
10Hrs
II
Common Cellular System components: Common cellular networks
components, Hardware and software, views of cellular networks, 3G cellular
systems components and Cellular component identification Call establishment.
Chapter 3: 3.1 to 3.5
10Hrs
III
Wireless network architecture and operations: Cellular concept Cell
fundamentals, Capacity expansion techniques, Cellular backbone networks,
Mobility management, Radio resources and power management Wireless
network security.
Chapter 4: 4.1 to 4.6
10Hrs
IV
CDMA technology: CDMA overview, CDMA channels concepts, CDMA
operations.
Chapter 6: 6.1 to 6.4
10Hrs
V
Wireless Modulation techniques and Hardware: Characteristics of air
interface, Path loss models, wireless coding techniques, Digital modulation
techniques, OFDM, UWB radio techniques, Diversity techniques, New and
emerging air interface technologies-Cognitive radio technology, multiple input
and multiple output wireless, Ultra-wideband wireless technology, free space
optics, wireless semiconductor technology, wireless sensor networks.
Chapter 8: 8.1 to 8.7, Chapter 13:13.1 to 13.2,13.3
12Hrs
Question paper Pattern:
Each unit consists of two questions with a choice
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Text Book:
Sl. No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1
Introduction to Wireless
Telecommunications Systems
and networks
Mullet Thomson
Learning
2010.
Reference Book:
Sl. No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1
Mobile Cellular
Telecommunication Lee W.C.Y MGH 2002.
2 Wireless
communication D P Agrawal Thomson learning
2nd
Edition 2007
3
Fundamentals of
Wireless
Communication
David Tse,
Pramod
Viswanath,
Cambridge 2005.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Syllabus for the Academic Year – 2020-21
Department: Telecommunication Engineering Semester: 8th
Subject Name: Satellite Communication
Subject Code: TC8T02 L-T-P-S-C: 4-0-0-0-4
Course Objectives:
Course Outcomes
Sl.No Course Objectives
1 Understand orbital mechanics and orbital elements.
2 Discuss various satellite subsytems and study of launch vehicles.
3 Understand the satellite access schemes.
4 Discuss the concepts of GPS.
Course
outcome
Descriptions
CO1
Understand the concept of VSAT systems and GPS working principles.
[L2]
CO2
Determine the system noise temperature, look angles for practical
applications. (L3)
CO3
Analyze the orbital mechanics, different types of satellite subsystems, and
multiple access technologies. (L4)
CO4 Design the satellite link budget. (L5)
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
UNIT Description Hours
I
Orbital Mechanics and Launchers - Orbital mechanics, Look angle
Determination, Orbital perturbations, Orbit determination, Launches and
Launch Vehicles, Orbital effects in communications Systems performance.
(Text1: chapter2 – 2.1, 2.2, 2.3, 2.4, 2.5, 2.6)
10
II
Satellites- Satellite subsystems, Attitude and orbit control systems (AOCS),
Telemetry, Tracking, Command and Monitoring, Power systems,
Communications subsystems and Satellite antennas.
(chapter3 – 3.1, 3.2, 3.3, 3.4, 3.5, 3.6)
10
III
Satellite Link Design- Introduction, Basic Transmission Theory, System
Noise Temperature and G/T Ratio, Design of Downlinks, Satellite Systems
using Small Earth Stations, Uplink Design, Design for Specified C/N.
(chapter4 – 4.1, 4.2, 4.3, 4.4, 4.5, 4.6, 4.7)
10
IV
Multiple Access&VSAT systems- Introduction, Code Division Multiple
Access, FDMA, TDMA, Error Control for Digital Satellite Links:
Implementation of Error Detection on satellite Links. VSAT System:
Introduction, Overview of VSAT systems.
(chapter6 – 6.1, 6.2, 6.3, 6.8 and chapter9 – 9.1, 9.2)
10
V
Satellite Navigation and the Global Positioning System - Introduction,
Radio and Satellite Navigation, GPS position Location Principles, GPS
receivers and Codes, Satellite Signal Acquisition, GPS Navigation Message,
GPS Signal Levels, Time Accuracy, GPS Receiver Operation, GPS C/A code
accuracy.
(chapter12 – 12.1 – 12.11)
10
Question paper Pattern:
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Each unit consists of two questions with a choice
Text Book:
Sl.
No. Text Book title Author Publisher
Volume
/ Issue
Year of
Edition
1 Satellite
Communications
Timothy Pratt, Charles
Bostian, Jeremy Allnutt
John Wiley &
Sons
Second
edition
-
Reference Book:
Sl. No.
Text Book title Author Publisher Volume / Issue
Year of Edition
1 Satellite Communications Dennis Roody McGraw Hill
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Syllabus for the Academic Year – 2020-21
Department: Telecommunication Engineering Semester: 8th
Subject Name: IoT and Wireless Sensor Networks
Subject Code: TC8PE311 L-T-P-S-C: 3-0-0-0-3
Course Objectives:
Course Outcomes:
Sl.No Course Objectives
1
The course has been introduced to make the student be aware about the
concepts of Internet of things.
2 To be aware of the basics of wireless sensor networks.
3
To enable them to have a brief idea about how to grow with the
advancing technologies
4
The course also aims at inculcating the ideas and concepts of Sensor
networks which may be considered as the basic building blocks of any
IoT system.
Course outcome
Descriptions
CO1 Describe the OSI Model for the IoT/M2M Systems.
CO2 Understand the architecture and design principles for IoT.
CO3 Learn the programming for IoT Applications.
CO4 Identify the communication protocols which best suits the WSNs.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
UNIT Description Hours
I
Overview of Internet of Things: IoT Conceptual Framework, IoT
Architectural View, Technology Behind IoT, Sources of IoT,M2M
communication, Examples of IoT. Modified OSI Model for the IoT/M2M
Systems, data enrichment, data consolidation and device management at
IoT/M2M Gateway, web communication protocols used by connected
IoT/M2M devices, Message communication protocols (CoAP-SMS, CoAP-
MQ, MQTT,XMPP) for IoT/M2M devices.
8 Hours
II
Architecture and Design Principles for IoT: Internet connectivity, Internet-
based, communication,IPv4, IPv6,6LoWPAN protocol, IP Addressing in the
IoT, Application layer protocols: HTTP, HTTPS,FTP,TELNET and ports.
Data Collection, Storage and Computing using a Cloud Platform:
Introduction, Cloud computing paradigm for data collection, storage and
computing, Cloud service models, IoT Cloud- based data collection, storage
and computing services using Nimbits.
8
Hours
III
Prototyping and Designing Software for IoT Applications: Introduction,
Prototyping Embedded device software, Programming Embedded Device
Arduino Platform using IDE, Reading data from sensors and devices, Devices,
Gateways, Internet and Web/Cloud services software development.
Programming MQTT clients and MQTT server. Introduction to IoT privacy
and security. Vulnerabilities, security requirements and threat analysis, IoT
Security Tomography and layered attacker model.
8
Hours
IV
Overview of Wireless Sensor Networks:
Challenges for Wireless Sensor Networks, Enabling Technologies for Wireless
Sensor Networks. Architectures: Single-Node Architecture - Hardware
Components, Energy Consumption of Sensor Nodes, Operating Systems and
Execution Environments, Network Architecture-Sensor Network Scenarios,
Optimization Goals and Figures of Merit, Design principles for WSNs, Service
interfaces of WSNs Gateway Concepts.
8 Hours
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
V
Communication Protocols:
Physical Layer and Transceiver Design Considerations, MAC Protocols for
Wireless Sensor Networks, Low Duty Cycle Protocols And Wakeup Concepts
- S-MAC, The Mediation Device Protocol, Wakeup Radio Concepts,
Contention based protocols(CSMA,PAMAS), Schedule based protocols
(LEACH, SMACS, TRAMA) Address and Name Management in WSNs,
Assignment of MAC Addresses, Routing Protocols- Energy-Efficient Routing,
Geographic Routing, Hierarchical networks by clustering.
7
Hours
Question paper Pattern:
Each unit consists of two questions with a choice
Text Books:
Sl. No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1
Internet of Things-
Architecture and design
principles
Raj Kamal McGraw Hill
Education
1st
Edition
2
Protocols And Architectures
for Wireless Sensor
Networks
Holger Karl &
Andreas Willig John Wiley 2005
3
Wireless Sensor Networks-
An Information Processing
Approach
Feng Zhao &
Leonidas J.
Guibas
Elsevier 2007
Reference Books:
Sl. No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1
Wireless Sensor Networks-
Technology, Protocols,
And Applications
Kazem
Sohraby,
Daniel Minoli,
& Taieb Znati
John Wiley 2007
2 Wireless Sensor Network
Designs
Anna Hac John Wiley 2003
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Syllabus for the Academic Year – 2020-21
Department: Telecommunication Engineering Semester: 8th
Subject Name: Multirate Systems and Filter Banks
Subject Code: TC8PE312 L-T-P-S-C: 3-0-0-0-3
Course Objectives:
Course Outcomes: At the end of the course the student will be to:
Sl.No Course Objectives
1 To enable the students to understand the fundamentals of multirate systems.
2 To enable the students to understand the maximally decimated filter banks.
3
To enable the students to understand the para-unitary perfect reconstruction filter
banks.
4
To enable the students to understand the linear phase perfect reconstruction QMF
banks and cosine modulated filter banks.
Course outcome
Descriptions
CO1 Understand the concept of Decimation , Interpolation and their applications
CO2 Analyze various filter banks
CO3 Design Various filter banks
CO4 Discuss the applications of filter banks
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Question paper Pattern:
Each unit consists of two questions with a choice
UNIT Description Hours
I
Fundamentals of Multi-rate Systems: Basic multi-rate operations,
interconnection of building blocks, poly-phase representation, , applications
of multi-rate systems,.
Chapter 4-4.1.1,4.1.2,4.2,4.3,4.3.1,4.5.1,4.5.2,4.5.4
8 HRS
II
Maximally decimated filter banks: Errors created in the QMF bank, alias-
free QMF system, power symmetric QMF banks, M-channel filter banks,
poly-phase representation, perfect reconstruction systems, trans-multiplexers.
Chapter 5-5.1.1,5.1.2,5.2,5.2.1,5.3,5.3.1,5.4,5.4.1,5.4.2,5.6,5.6.3,5.9
9 HRS
III
Para-unitary Perfect Reconstruction Filter Banks: Lossless transfer
matrices, filter bank properties induced by paraunitariness, two channel Para-
unitary lattices, transform coding.
Chapter 6 - 6.0,6.1.1,6.1.2,6.2,6.2.1,6.2.2,6.3,6.3.1,6.5
8 HRS
IV
Linear Phase Perfect Reconstruction QMF Banks: Necessary conditions,
lattice structures for linear phase FIR PR QMF banks, formal synthesis of
linear phase FIR PR QMF lattice.
Chapter 7-7.1,7.2,7.3
6 HRS
V
Cosine Modulated Filter Banks: Pseudo-QMF bank and its design,
efficient poly-phase structures, properties of cosine matrices, cosine
modulated perfect reconstruction systems.
Chapter 8-8.0,8.1,8.1.1,8.1.2,8.3,8.4,8.5,8.5.5
8 HRS
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Text Books:
Sl. No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1 Multirate Systems
and Filter Banks P.P. Vaidyanathan
Pearson
Education
(Asia) Pvt. Ltd,
2004.
Reference Book:
Sl. No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1
Wavelets and Filter
Banks
Gilbert Strang and
Truong Nguyen,
Wellesley-
Cambridge
Press
1996
2 Multirate Digital
Signal Processing N. J. Fliege,
John Wiley &
Sons, USA,
2000.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Syllabus for the Academic Year – 2020-21
Department: Telecommunication Engineering Semester: 8th
Subject Name: Biomedical Signal Processing
Subject Code: TC8PE313 L-T-P-S-C: 3-0-0-0-3
Course Objectives:
Course Outcomes
Sl.No Course Objectives
1 Understand the basic signals in the field of biomedical.
2
Study origins and characteristics of some of the most commonly used biomedical
signals, including ECG.
3 Understand Sources and characteristics of noise and artifacts in bio signals.
4
Understand use of bio signals in diagnosis, patient monitoring and physiological
investigation.
Course outcome
Descriptions
CO1 Understand various methods of acquiring and processing bio signals.
CO2 Model a biomedical system.
CO3 Understand various sources of bio signal distortions and its remedial techniques.
CO4 Analyze ECG and EEG signal with characteristic feature points.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Question paper Pattern:
Each unit consists of two questions with a choice
UNIT Description Hours
I
INTRODUCTION TO BIOMEDICAL SIGNALS: The nature of
biomedical signals, examples of biomedical signals, objectives and
difficulties in biomedical signal analysis. (Chapter 1)
ECLECTROCARDIOGRAPHY: Basic electrocardiography, ECG leads
systems, ECG signal characteristics. (Chapter 2: 2.1-2.3)
8 HRS
II
BASICS OF DIGITAL FILTERING: Digital filters, the z transform,
Elements of a digital filter, Types of digital filters, Transfer function of a
difference equation, the z-plane pole-zero plot, the rubber membrane
concept. (Chapter 4: 4.1-4.7)
ADAPTIVE FILTERS: Principal noise canceller model, 60-Hz adaptive
canceling using a sine wave model, other applications of adaptive filtering.
(Chapter 8: 8.1- 8.3)
8 HRS
III
SIGNAL AVERAGING: Basics of signal averaging, Signal averaging as a
digital filter, a typical average, Software for signal averaging, Limitations of
signal averaging. (Chapter 9: 9.1-9.5)
8 HRS
IV
DATA REDUCTION TECHNIQUES: Turning point algorithm, AZTEC
algorithm, Fan algorithm, Huffman coding. (Chapter 10: 10.1-10.4) 7 HRS
V
ECG QRS DETECTION AND ANALYSIS SYSTEMS: Power spectrum
of the ECG, Band pass filtering techniques, Differentiation techniques,
Template matching techniques, A QRS detection algorithm, ECG
interpretation , ST-segment analyzer, Portable arrhythmia monitor. (Chapter
12: 12.1-12.5, Chapter 13: 13.1-13.3)
8 HRS
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Text Book:
Sl. No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1 Biomedical Signal
Processing Willis J. Tompkins
Prentice-Hall
of India,
2001.
Reference Book:
Sl. No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1 Biomedical Signal
Analysis
Rangaraj M.
Rangayyan
John Wiley
and sons, Inc.
2002
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Syllabus for the Academic Year – 2020-21
Department: Telecommunication Engineering Semester: 8th
Subject Name: Pattern Recognition
Subject Code: TC8PE411 L-T-P-S-C: 3-0-0-0-3
Course Objectives:
Course Outcomes
Sl.No Course Objectives
1 Understand the fundamentals of pattern recognition techniques
2 Learn and understand statistical and non-parametric models of pattern recognition
3 Understand pattern recognition theories such as Bayes classifier, linear discriminant
analysis
4 Understand the principles of clustering approaches to pattern recognition
Course outcome
Descriptions
CO1
Describe the fundamental concepts in pattern recognition (Bayesian decision
theory, maximum likelihood estimation and Bayesian estimation).
CO2
Calculate and explain the probability theory of events, random variables, joint
distribution and density function.
CO3
Solve and explain the statistical decision, non-parametric decision making and
clustering problems.
CO4 Compare and analyze different decision boundaries, clustering methods etc.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Question paper Pattern:
Each unit consists of two questions with a choice
Text Books:
Sl. No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1 Pattern Recognition
and Image Analysis
Earl Gose, Richard
Johnsonbaugh and Steve
Jost
Prentice-Hall
of India
2003.
Reference Book:
Sl. No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1 Pattern Recognition-
Statistical, Structural and
Neural applications
Robert J Schalkott John Willey
Publications
2 Pattern classification Richard O Duda,
Peter E. Herd and
David & Stork
John Wiley
and sons, Inc.
2nd Ed. 2001
UNIT Description Hours
I
INTRODUCTION TO PATTERN RECOGNITION: Applications of
pattern recognition, statistical decision theory, image processing and
analysis. ( Text1: 1.1 - 1.3)
7 HRS
II
PROBABILITY: Introduction, probability of events, random variables,
joint distributions and densities, moments of random variables, estimation of
parameters from samples, minimum risk estimators, problems.
( Text1: 2.1 - 2.5)
8 HRS
III
STATISTICAL DECISION MAKING: Introduction, Bayes' theorem,
multiple features, conditionally independent features, decision boundaries,
unequal costs of error, estimation of error rates, problems. (Text1: 3.1- 3.7)
8 HRS
IV
NONPARAMETRIC DECISION MAKING: Introduction, histograms,
kernel and window estimators, nearest neighbor classification techniques,
adaptive decision boundaries, adaptive discriminant functions, minimum
squared error discriminant functions, problems. (Text1: 4.1 – 4.6)
8 HRS
V
CLUSTERING: Introduction, hierarchical clustering, partitional clustering,
problems. ( Text1: 5.1 – 5.3) 8 HRS
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Syllabus for the Academic Year – 2020-21
Department: Telecommunication Engineering `Semester: 8th
Subject Name: MEMS
Subject Code: TC8PE412 L-T-P-S-C: 3-0-0-0-3
Course Objectives:
Course Outcomes:
Sl.No. Course Objectives
1 To understand need of microcontrollers in embedded system.
2 To study the essential material properties
3 To study various sensing and transduction technique
4 To know various fabrication and machining process of MEMS
Course outcome
Description
CO1 Annotate to the field of micro/Nano systems
CO2 State the knowledge of basic approaches for micro/Nano system design
CO3 Compose state-of-the-art lithography techniques for micro/Nano systems
CO4
Evaluate new materials, science and technology for micro/Nano system
applications
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
UNIT Description Hours
I
INTRODUCTION TO MEMS TECHNOLOGY: Introduction to MEMS
and motivation, Basic definitions.
SCALING IN MICRODOMAIN: How small is different- some natural
examples, Scaling laws in electrostatic, electromagnetic, rigidity of structures,
heating & cooling, Fluid viscosity and fluid interfaces, etc. Scaling in overall
system performance considering multiple physical domains.
MEMS MATERIALS: Mechanical and other properties of materials used in
MEMS
8
Hours
II
MICROFABRICATION / MICROMACHINING: Overview of micro
fabrication, Review of microelectronics fabrication processes like
photolithography, deposition, doping, etching, structural and sacrificial
materials, other lithography methods,. MEMS fabrication methods like
surface, bulk, LIGA and wafer bonding methods.
7
Hours
III
TRANSDUCTION PRINCIPLES: Transduction principles in micro domain
MEMS MODELING: Basic modeling elements in electrical, mechanical,
thermal and fluid systems, analogy between 2nd order mechanical and
electrical systems. Modeling elastic, electrostatic, electromagnetic systems.
8
Hours
IV
RADIO FREQUENCY (RF) MEMS: Introduction, Review of RF-based
communication systems, RF –MEMS like MEMS inductors, varactors, tuners,
filters, resonators, phase shifters, switches
OPTICAL MEMS: Preview, passive optical components like lenses and
mirrors, actuators for active optical MEMS.
8
Hours
V
CASE STUDIES: Case studies of microsystems including microcantilever
based sensors and actuators with appropriate selection of material properties:
thermal; mechanical properties. Static and dynamic mechanical response with
different force mechanisms: electrostatic, electromagnetic, thermal etc.
NANOTECHNOLOGY AND MEMS: Relation between micro and
nanotechnologies. Need and issues in handling nano products with the help of
8
Hours
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
MEMS
Question paper Pattern:
Each unit consists of two questions with a choice
Text Books:
Sl. No.
Text Book title Author Publisher Volume / Issue
Year of Edition
1
MEMS and
Microsystems Design
and Manufacture
Tai, Ran Hsu TMH 2002
2 Foundations of MEMS Chang Liu Pearson International
Edition 2006
Reference Book:
Sl. No.
Text Book title Author Publisher Volume / Issue
Year of Edition
1 Modeling MEMS and
NEMS
John A. Pelesko,
David
H.Bernstein
Chapman &
Hall/CRC
2 Fundamentals of Micro
fabrication Madou CRC Press 1997
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Syllabus for the Academic Year – 2020-21
Department: Telecommunication Engineering Semester: 8th
Subject Name: Artificial Intelligence
Subject Code: TC8PE413 L-T-P-S-C: 3-0-0-0-3
Course Objectives: This course will enable students to
Course Outcomes
Sl.No Course Objectives
1 To create appreciation and understanding of both the achievements of AI and the
theory underlying those achievements.
2 To impart basic proficiency in representing real life problems in a state space
representation so as to solve them using different AI techniques.
3 To create an understanding of the basic issues of knowledge representation and
heuristic search techniques.
Course outcome
Descriptions
CO1 Demonstrate the knowledge of building blocks of AI.
CO2
Analyze and formalize the problem as a state space tree, design heuristics and
solve using different search techniques.
CO3 Analyze and demonstrate knowledge representation using various techniques.
CO4
Develop AI solutions for a given problem.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
UNIT Description Hours
I
Introduction
What is Artificial Intelligence?, AI Problems, The underlying Assumption,
What is an AI Technique, Level of the Model, Criteria for Success, Some
General References, One Final Word.
Problems, problem spaces, and search
Defining the problem as a State Space Search, Production Systems, Problem
Characteristics, Production System Characteristics, Issues in the Design of
search programs, Additional Problems.
8 HRS
II
Heuristic Search Techniques
Generate-and-Test, Hill Climbing, Best-First Search, Problem Reduction,
Constraint satisfaction, Means-Ends Analysis Knowledge representation
Issues, Representation and Mappings, Approaches to knowledge
Representation, Issues in knowledge Representation, The frame Problem.
8 HRS
III
Using Predicate Logic
Representing the simple facts in logic, Representing Instance and ISa
Relationships Compute the functions and predicates, Resolution, Natural
Deduction
8 HRS
IV
Symbolic Reasoning under Uncertainty
Introduction to Non-monotonic Reasoning, Logic for Non-monotonic
Reasoning Implementation Issues, Augmenting a problem solver,
Implementation: Depth-First Search, Implementation: Breadth-First Search
8 HRS
V
Strong slot-and-Filter Structures
Conceptual Dependency, Scripts, CYC Expert Systems Representation and
Using Domain Knowledge, Expert Systems shells, Explanation, Knowledge
Acquisition.
7 HRS
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Telecommunication Engineering
Question paper Pattern:
Each unit consists of two questions with a choice
Text Book:
Sl. No.
Text Book title Author Publisher
Volume / Issue
Year of Edition
1 Artificial
Intelligence
Elaine Rich, Kevin
Knight, Shivashankar B
Nair
Tata McGraw
Hill,
3rd Edition 1991.