department of electronics & telecommunication engineering · modern television practice-...

B.E. (E&TC)-Semester-VIII

Department of Electronics & Telecommunication Engineering

Fourth Year Engineering

Semester – VIII

Course Structure

SR.

NO

Subject

Teaching Scheme

(Hrs)

Examination Scheme

(Marks)

L T P Total Paper TW POE OE Total

1. Video Engg. 4 - 2 6 100 25 50 - 175

2. Mobile & Wireless

Communication 4 - 2 6 100 25 -- -- 125

3. Image Processing 4 - 2 6 100 25 - 50 175

4. Elective-II 4 - - 4 100 25 - - 125

5. Project Phase - II - - 8 8 - 100 - 100 200

TOTAL 16 - 14 30 400 200 50 150 800

Index

Sr. No. Subject Subject code Page No.

1 Video Engg. ETC410 02

2 Mobile & Wireless Communication ETC411 14

3 Image Processing ETC412 24

4 Elective-II

Mechatronics ETC413 34

Pattern Recognition ETC414 -

Operating System ETC415 42

Real Time Systems ETC416 -

5 Project Phase - II ETC417 49


Course Plan

Course Video Engineering Course Code ETC410

Examination

Scheme Theory Term Work POE Total

Max. Marks 100 25 50 175

Contact

Hours/ week 4 0 2 6

Prepared by Mrs. Deshmukh S.C. Date 08/11/2017

Prerequisites This course requires the students to know the basic concepts of Analog and

Digital Electronics, Analog and Digital Communication.

Course Outcomes

At the end of the course the students should be able to:

CO410.1 Discuss2 picture and sound transmission and reception.

CO410.2 Demonstrate3 color composite video signal.

CO410.3 Describe1 principle of digital TV system.

CO410.4 Explain2 high definition television system.

CO410.5 Describe1 advanced TV system like LCD, plasma, LED,CCTV, etc.

CO410.6 Illustrate3 concept of video conferencing and videophone.

Mapping of COs with POs

POs

COs a b c d e f g h i j k l

CO410.1 2 1

CO410.2 2 1

CO410.3 2 1

CO410.4 2 1

CO410.5 2 1

CO410.6 1

1 Mild correlation 2 Moderato correlation 3 Strong correlation


Course Contents

Unit No. Title No. of

Hours

1.

Fundamentals of Television System

Picture and sound transmission and reception ,aspect ratio, horizontal and

vertical resolution, video bandwidth and interlaced scanning , composite

video, signal, H & V sync details, CCIR-B standards, VSB transmission

and channel bandwidth

09

2.

Color signal transmission and reception

Color TV camera , Color Picture Tubes, picture tubes

purity & convergence, automatic degaussing , Composite color signals,

compatibility considerations, frequency interleaving process, color mixing

theory, characteristics of color, color difference signals, chromaticity

diagram , color signal transmission- bandwidth and modulation of color

difference signals, color TV system :NTSC , PAL – D & SECAM,

09

3.

Digital TV Transmission and Reception

Digital system hardware, Signal quantization and encoding, Digital signals

and parameters, Digital Satellite Television, Digital T.V. Receiver system,

Merits of Digital TV receiver.

08

4.

High Definition TV

Component coding ,MAC signals ,MAC encoding format ,scanning

frequencies D2-MAC Packet Signal , Duo binary Coding ,HDTV

Standards & compatibility ,colorimetric characteristics & parameters of

HDTV systems

08

5. Digital video system

Video conferencing, Interactive video and multimedia, Videophone, 3D

TV

07

6.

Advanced TV systems

LCD TV System :LCD Technology , LCD Matrix types & operations ,

Plasma TV System : Plasma & conduction of charge ,Plasma TV screen

,Signal processing in Plasma TV, Plasma color Receiver, LED TV, DTH

Receiver System ,CCTV, working of block converter,: IR Remote control.

07


Text Books:

Sr. No. Title of Book Author Publisher/Edition Topics

1. Monochrome and Colour TV

R.R.Gulati New Age International

Publication, 2002 1,2

2. Modern television Practice-

Principles, Technology and

Service

R.R.Gulati New Age International

Publication, Edition III,

2006

1,2,3,6

3. Color Television Theory and

Practice S.P.Bali

TMH, 1994 1,2,6

4. Television and Video

Engineering, 2nd

Edition A.M.Dhake -- ALL

Reference Books:


1. Digital Video Processing-

A. Murat Tekalp,

Prentice Hall Signal

Processing Series, BS

publications.

4

2. Audio-Video Engineering R.C.Jaiswal -- ALL

3. Basic Television and Video

Systems-

B.Grob and

C.E.Herndon ,McGraw Hill 1999

ALL

Scheme of Marks

Unit No. Title Marks with options

01 Fundamentals of television system 16

02 Color signal transmission and reception 16

03 Digital TV Transmission and Reception 18

04 High Definition TV 16

05 Digital video system 16

06 Advanced TV systems 18


Course Unitization

Unit Course

Outcomes No. of Questions in

No

. Title CAT-I CAT-II CAT-III

01 Fundamentals of television system CO410.1 3

02 Color signal transmission and reception CO410.2 3

03 Digital TV Transmission and Reception CO410.3 3

04 High Definition TV CO410.4 3

05 Digital video system CO410.5 3

06 Advanced TV systems CO410.6 3

Unit wise Lesson Plan

Unit No 01 Unit Title Fundamentals of television system Planned

Hrs. 09

a. Explain transmission and reception of picture and sound. CO410.1

b. Discuss CCIR-B standards. CO410.1

c. Explain composite video signal & H/V sync details. CO410.1

Lesson schedule

Class

No. Details to be covered

1 Picture and sound transmission and reception.

2 CCIR-B standards,

3 Horizontal & Vertical scanning, aspect ratio.

4 Interlaced scanning, horizontal and vertical resolution.

5 Composite video signal

6 Horizontal and vertical sync details.

7 VSB transmission

8 Video and channel bandwidth.

9 Modulation of picture and sound, positive/negative modulation.

Review Questions

Q1 Give CCIR-B standards. CO410.1

Q2 Illustrate composite video signal. CO410.1

Q3 What is vertical resolution and horizontal resolution and derive

expression for maximum video bandwidth?

CO410.1

Q4 Illustrate H & V sync details. CO410.1

Q5 Evaluate video bandwidth and interlaced scanning. CO410.1


Q6 How picture and sound transmission and reception take place? CO410.1

Q7 Give details of VSB transmission. CO410.1

Q8 Describe +ve and –ve modulation. CO410.1

Unit No 02 Unit Title Color signal transmission and reception Planned

Hrs. 09

Explain working of TV camera tube and Picture tube. CO410.2

Explain Color TV transmitter and receiver block diagram. CO410.2

Explain coders and decoders of NTSC, PAL-D & SECAM. CO410.2

Lesson schedule

Class


1 TV camera tubes

2 Composite color signal..

3 Compatibility considerations and frequency interleaving process.

4 Color TV transmitter and receiver block diagram.

5 Color mixing theory and chromaticity diagram, BW and modulation of color

difference signals.

6 Coders and decoders of NTSC.

7 Coders and decoders of PAL-D

8 Coders and decoders of SECAM

9 Color picture tubes and automatic degaussing.

Review Questions

Q1 How TV camera tube works. CO410.2

Q2 Make clear the frequency interleaving. CO410.2

Q3

Explain how frequency interleaving is useful for reverse

compatibility of color information transmission. Draw suitable

sketches.

CO410.2

Q4 Make clear Chromaticity Diagram. CO410.2

Q5 Define the following terms: i) Luminance ii) Hue

iii) Saturation iv) Automatic degaussing

CO410.2

Q6 Illustrate colour TV Receiver. CO410.2

Q7 Make clear about SECAM. CO410.2

Q8 Explain PAL decoder in brief. CO410.2

Q9 Compare NTSC and PAL. CO410.2

Q10 State requirement of RF Tuner. CO410.2


Unit No 03 Unit Title Digital TV Transmission and Reception Planned

Hrs. 08

a. Explain working principle of Digital TV. CO410.3

b. Explain digital satellite TV system. CO410.3

Lesson schedule

Class


1 Introduction to Digital TV.

2 Principle of Digital TV.

3 Digital system hardware

4 Signal quantization and encoding

5 Digital TV signals and parameters.

6 Explain digital satellite TV system.

7 Digital TV receiver.

8 Merits of digital TV receiver

Review Questions

Q1 Explain how digital television work. Differentiate digital TV and

analog TV.

CO410.3

Q2 Enlighten the working of Digital T.V. Receiver. CO410.3

Q3 Write a note on digital TV signals and parameters CO410.3

Q4 Explain digital satellite TV system. CO410.3

Unit No 04 Unit Title High Definition TV Planned

Hrs. 08

a. Explain component coding in HDTV. CO410.4

b. Explain characteristics, standards and parameters of HDTV. CO410.4

Lesson schedule

Class


1 Component coding.

2 MAC signals and MAC encoding format.

3 D2 MAC packet signal and scanning frequencies.

4 Duobinary coding.

5 HDTV standards & compatibility.

6 Colorimetric characteristics of HDTV.

7 & 8 Parameters of HDTV system.


Review Questions

Q1 Explain scanning frequencies D2-Mac packet signal. CO410.4

Q2 Explain colorimetric characteristics and parameters of HDTV. CO410.4

Q3 Explain Duo-binary coding. CO410.4

Q4 Define MAC signals. Express D2-MAC packet signal. CO410.4

Q5 Clarify MAC encoding format. CO410.4

Unit No 05 Unit Title Digital video system Planned

Hrs. 07

a. Explain Video conferencing. CO410.5

b. Explain Interactive video and multimedia. CO410.5

Lesson schedule

Class


1 Introduction to digital Video system.

2 Explain concept of video conferencing

3 Discuss examples on video conferencing

4 Interactive video system

5 Concept of multimedia

6 Videophone

7 3D TV

Review Questions

Q1 Write a note on video conferencing CO410.5

Q2 Explain concept of multimedia CO410.5

Q3 Write a note on videophone CO410.5

Q4 Write a note on 3D TV CO410.5


Unit No 06 Unit Title Advanced TV systems Planned

Hrs. 07

a. Explain LCD TV Technology. CO410.6

b. Explain Plasma TV system. CO410.6

Lesson schedule

Class


1 LCD TV system

2 LCD MATRIX type and operation

3 LCD screen for LCD color receiver

4 Plasma TV System.

5 Signal processing and plasma color receiver,

6 Satellite TV,DTH receiver,

7 CCTV, CATV, block converter & IR remote control.

Review Questions

Q1 Explain LCD technology. CO410.6

Q2 Explain Plasma T.V. screen and conduction of charge. CO410.6

Q3 Explain Satellite TV. CO410.6

Q4 Give details of DTH receiver system. CO410.6

Q5 Express CATV with block diagram. CO410.6

Q6 How does block converter works? Explain. CO410.6

Q7

Draw block schematic diagram of a typical remote control unit

provided with T.V. recievers. Describe simply its basic mode of

operation and the manner in which infrared waves are used to

transmit various command signals.

CO410.6


Model Question Paper

Course Title : VIDEO ENGINEERING

Duration Instructions: 1) All questions are compulsory. Max.

Marks

03 Hours 2) Figures to the right indicates full marks.

100Marks 3) Assume suitable data if necessary.

1 Solve any two 16

a Give CCIR-B standards. 08

b Evaluate video bandwidth and interlaced scanning. 08

c Explain frequency interleaving process. 08

2 Solve any two 16

a Illustrate color TV Receiver. 08

b How color picture tube operates. 08

c Make clear about SECAM. 08

3 Solve any two 18

a Explain how digital television work. Differentiate digital TV and

analog TV. 09

b Enlighten the working of Digital T.V. Receiver. 09

c Write a note on digital TV signals and parameters 09

4 Solve any two 16

a Explain Duo-binary coding. 08

b Explain scanning frequencies D2-Mac packet signal. 08

c Define MAC signals. Express D2-MAC packet signal. 08

5 Solve any two 16

a Write a note on video conferencing 08

b Explain concept of multimedia 08

c Write a note on videophone 08

6 Solve any two 18

a Explain LCD technology. 09

b How does block converter works? Explain. 09

c

Draw block schematic diagram of a typical remote control unit

provided with T.V. recievers. Describe simply its basic mode of

operation and the manner in which infrared waves are used to

transmit various command signals.

09


Assignments

List of experiments/assignments to meet the requirements of the syllabus

Assignment No. 1

Assignment Title Fundamentals of Television System CO410.1

Batch I Give CCIR-B standards.

Evaluate video bandwidth and interlaced scanning.

Batch II Illustrate composite video signal.

How picture and sound transmission and reception takes place?

Batch III

What is vertical resolution and horizontal resolution and derive expression

for maximum video bandwidth?

Give details of VSB transmission.

Batch IV Illustrate H & V sync details.

Describe +ve and –ve modulation.

Assignment No. 2

Assignment Title Colour signal transmission and reception CO410.2

Batch I

How TV camera tube works.

Define the following terms: i) Luminance ii) Hue ii) Saturation iv)

Automatic degaussing

State requirement of RF Tuner.

Batch II

Make clear the frequency interleaving.

Illustrate color TV Receiver.

Compare NTSC and PAL.

Batch III

Explain how frequency interleaving is useful for reverse compatibility of

color information transmission. Draw suitable sketches.

Make clear about SECAM.

Batch IV

Make clear Chromaticity Diagram.

Explain PAL decoder in brief.

Write a note on color picture tube.

Assignment No. 3

Assignment Title Digital TV Transmission and Reception CO410.3

Batch I Explain how digital television work. Differentiate digital TV and

analog TV.

Batch II Enlighten the working of Digital T.V. Receiver.

Batch III Explain digital TV recording technique.

Batch IV How digital TV Broadcasting takes place?


Assignment No. 4

Assignment Title High Definition TV CO410.4

Batch I Explain scanning frequencies D2-Mac packet signal.

Batch II Explain colorimetric characteristics and parameters of HDTV.

Batch III Explain Duo-binary coding.

Batch IV Define MAC signals. Express D2-MAC packet signal.

Clarify MAC encoding format.

Assignment No. 5

Assignment Title Digital video system CO410.5

Batch I Write a note on video conferencing

Batch II Explain concept of multimedia

Batch III Write a note on videophone

Batch IV Write a note on 3D TV

Assignment No. 6

Assignment Title Advanced TV systems CO410.6

Batch I Explain LCD technology.

Express CATV with block diagram.

Batch II Explain Plasma T.V. screen and conduction of charge.

How does block converter works? Explain.

Batch III

Explain Satellite TV.

Draw block schematic diagram of a typical remote control unit provided

with T.V. receivers. Describe simply its basic mode of operation and the

manner in which infrared waves are used to transmit various command

signals.

Batch IV Give details of DTH receiver system.


List of Experiments

Exp. No. 1 To Study of composite video signal from pattern generator.

Exp. No. 2 To study RF Tuner section

Exp. No. 3 To study VIF section of color TV receiver

Exp. No. 4 To study Horizontal sync ,Vertical sync & sync separator

Exp. No. 5 To study horizontal section of colour TV receiver

Exp. No. 6 To study vertical section of colour TV receiver

Exp. No. 7 To study colour composite video signal

Exp. No. 8 To study chroma section of colour TV receiver

Exp. No. 9 To study digital TV receiver

Exp. No. 10 To study CCTV

Exp. No. 11 To study theory of LCD. LED & plasma technology


Mobile and Wireless Communication - Course Plan

Course Mobile & Wireless Communication Course Code ETC411

Examination Scheme

Theory Term Work POE Total

Max. Marks 100 25 -- 125

Contact Hours/ week

Theory Tutorial Practical Total

4 - 2 6

Prepared by Mr. Abhaysingh B. Patil and

Mr. Sharan R. R. Date 11/11/2017

Prerequisites Knowledge of basic communication systems and types. Electromagnetic field and wave theory.

Course Outcomes

At the end of the course the graduate should be able to:

CO411.1 Explain

2 large scale path loss and find practical link budget design for path loss

models for mobile radio propagation.

CO411.2 Define

2 small scale fading and multipath and describe statistical model for

multipath channel for mobile radio propagation.

CO411.3 Demonstrate

3 the knowledge of wireless networks and describe cellular

concepts.

CO411.4 Compare

5 and contrast

5 between different multiple access techniques like

FDMA, TDMA, SSMA and SDMA.

CO411.5 Demonstrate

3 knowledge of Wireless communication network structures,

components and Services.

CO411.6 State

1 different wireless communication standards worldwide and their

evolution.


Unit No. Title No. of Hours

Section I

1.

Mobile Radio Propagation.( Large Scale Propagation Model) Large Scale Path Loss: Introduction to Radio Wave propagation, Free Space propagation model, Relating Power to Electric Field, The three Basic Propagation Mechanisms, Reflection, Ground Reflection (Two-Ray) Model, Diffraction, Scattering, Practical Link Budget Design Using Path Loss Models, Outdoor Propagation Models, Indoor Propagation Models, Signal Penetration into Buildings, Ray Tracing And Site Specific Modelling,

08

2.

Mobile Radio Propagation.( Small Scale Propagation Model) Small-Scale Fading and Multipath : Small-Scale Multipath Propagation, Impulse Response Model of a Multipath Channel, Small-Scale Multipath Measurements, Parameters of Mobile Multipath Channels, Types of small-Scale Fading, Rayleigh and Ricean Distributions, Statistical Models for Multipath Fading Channels.

08

3.

Wireless Networking: Introduction to wireless Networks Difference Between Wireless and Fixed Telephone Networks, Development of Wireless Networks, Fixed Network Transmission Hierarchy, Traffic Routing in Wireless Networks, Wireless Data Services, Common Channel Signalling (CCS), Architecture of B-ISDN & services, Signalling System No. 7 (SS7), An Example of SS7-Global Cellular Network Interoperability,

09

Section II

4.

Introduction to Mobile Communication & Multiple Access Technique Mobile and Personal Communication, mobile and wireless devices, Specialized packet and mobile radio networks, circuit switched data services on cellular networks, packet switched data services on cellular networks, Multiple Access Technique-FDMA, TDMA, SDMA, CDMA, spread spectrum multiple access

08

5.

Wireless LAN Introduction, Infrared radio transmission infrastructure and ad-hoc networks, Detailed study of IEEE 802.11, HIPER LAN, Bluetooth, Wireless ATM

07

6.

Mobile Network & Transport Layer Mobile IP, DHCP (Dynamic Host Control Protocol), Mobile ad hoc networks, Bluetooth & Wi-Fi network Traditional TCP, Indirect TCP, Snooping TCP, Mobile TCP, Fast and Selective retransmission and recovery, Transaction oriented TCP, TCP over 2.5/3G wireless networks.

08


Reference Books/Text Books:


1. Wireless Communications Principals & Practice

Theodore S. Rappaport

Pearson 1,2,3

2. Wireless Networks

P. Nicopolitidis, M. S. Obaidat, G. I.

Papadimitriou, A. S. Pomportsis

John Wiley 3,4,5,6

3. Mobile Communication Jachen Schiller Addison Westy 4,5,6

4. Wireless and Mobile Network Manvi Wiley India 3,5

Scheme of Marks

Section Unit No. Title Marks with options

I

01 Mobile Radio Propagation.( Large Scale Propagation Model)

16 to

02 Mobile Radio Propagation.( Small Scale Propagation Model)

18 to 27

03 Wireless Networking: Introduction to Wireless Networks

18 to 27

II

04 Introduction to Mobile Communication & Multi Access Technique

16 to 24

05 Wireless LAN 18 to 27

06 Mobile Network & Transport Layer 18 to 27

Course Unitization

Section

Unit Course

Outcomes No. of Questions in

No. Title CAT-I CAT-II CAT-III

I

01 Mobile Radio Propagation CO411.1 2

02 Mobile Radio Propagation CO411.2 2

03 Wireless Networking: Introduction to Wireless Networks

CO411.3

2

II

04 Introduction to Mobile Communication & Multi Access Technique

CO411.4 2

05 Wireless LAN CO411.5

2

06 Mobile Network & Transport Layer CO411.6 2


Unit Wise Lesson Plan

Section I

Unit No 01 Unit Title Mobile Radio Propagation ( Large

Scale Propagation Model) Planned

Hrs. 08

Lesson schedule

Class No. Details to be covered

1 Large Scale Path Loss: Introduction to Radio Wave propagation, Free Space propagation model, Relating Power to Electric Field

2 Large Scale Path Loss: The three Basic Propagation Mechanisms, Reflection, Ground Reflection (Two-Ray) Model

3 Diffraction, Scattering, Practical Link Budget Design Using Path Loss Models

4 Outdoor Propagation Models, Indoor Propagation Models

5 Signal Penetration into Buildings

6 Ray Tracing

7 Ray Tracing

8 Site Specific Modelling

Review Questions

Q1 Explain three basic Propagation Mechanisms CO411.1

Q2 Explain in detail Ground Reflection Model. CO411.1

Q3 Write a short note on Ray Tracing and Site Specific Modelling CO411.1

Unit No 02 Unit Title Mobile Radio Propagation( Small Scale Propagation Model)

Planned Hrs.

08

Lesson schedule


1 Small-Scale Fading and Multipath : Small-Scale Multipath Propagation,

2 Impulse Response Model of a Multipath Channel,

3 Small-Scale Multipath Measurements

4 Parameters of Mobile Multipath Channels,

5 Types of small-Scale Fading,

6 Rayleigh Distributions

7 Ricean Distributions

8 Statistical Models for Multipath Fading Channels.


Review Questions

Q1 Explain parameters of mobile multipath channels. CO411.2

Q2 Explain following fading distributions : i) Rayleigh ii) Ricean CO411.2

Q3 Explain statistical models for multipath fading channel. CO411.2

Unit No 03 Unit Title Wireless Networking: Introduction to

Wireless Networks Planned

Hrs. 09

Lesson schedule


1 Difference Between Wireless and Fixed Telephone Networks

2 Development of Wireless Networks,

3 Development of Fixed Network

4 Transmission Hierarchy,

5 Traffic Routing in Wireless Networks

6 Wireless Data Services, Common Channel Signalling (CCS)

7 Architecture of B-ISDN & services,

8 Signalling System No. 7 (SS7)

9 An Example of SS7-Global Cellular Network Interoperability

Review Questions

Q1 Explain difference between Wireless and Fixed Telephone networks CO411.3

Q2 Explain CCS and SS7 CO411.3

Q3 Explain Cellular Network Interoperability CO411.3

Section II

Unit No 04 Unit Title Introduction to Mobile

Communication and Multi Access Technique

Planned Hrs.

08

Lesson schedule

Class No. Detail s to be covered

1 Mobile and Personal Communication

2 Mobile and wireless devices

3 Specialized packet and mobile radio networks

4 Circuit switched data services on cellular networks, packet switched data services on cellular networks

5 Multiple Access Technique- FDMA, TDMA

6 Multiple Access Technique- CDMA

7 Multiple Access Technique- SDMA, Packet Radio,

8 Spread spectrum multiple access


Review Questions

Q1 Explain following multiple access methods i) FDMA ii)TDMA iii) SSMA CO411.4

Q2 With neat schematic explain SDMA. CO411.4

Q3 Comp are different concepts of multiple access in communication CO411.4

Unit No 05 Unit Title Wireless LAN Planned

Hrs. 07

Lesson schedule


1 Introduction to Wireless LAN

2 Infrared radio transmission infrastructure

3 Ad-hoc networks

4 Detailed study of IEEE 802.11

5 HIPER LAN

6 Bluetooth

7 Wireless ATM

Review Questions

Q1 Explain in detail IEEE 802.11 CO411.5

Q2 Write a short note on HIPER LAN CO411.5

Q3 Explain Wireless ATM CO411.5

Unit No 06 Unit Title Mobile Network and Transport layer Planned

Hrs. 08

Lesson schedule


1 Mobile IP

2 DHCP (Dynamic Host Control Protocol)

3 Mobile ad hoc networks, Bluetooth & Wi-Fi network

4 Traditional TCP, Indirect TCP,

5 Snooping TCP, Mobile TCP

6 Fast and Selective retransmission and recovery

7 Transaction oriented TCP

8 TCP over 2.5/3G wireless networks


Review Questions

Q1 Compare Bluetooth and WiFi networks CO411.6

Q2 Explain Indirect and Traditional TCP CO411.6

Q3 Write a short note on i) Mobile TCP. ii ) Snooping TCP CO411.6

Q4 Explain Transaction oriented TCP CO411.6

Q5 Explain TCP over 2.5/3G wireless networks CO411.6


Course Title : Mobile & Wireless Communication

Duration Instructions: 1) All questions are compulsory. Max. Marks

03 Hours 2) Figures to the right indicate full marks.

100 Marks 3) Assume suitable data if necessary.

Section-I 50

1 Solve any two 16

a Explain basic propagation mechanism in mobile radio propagation. 08

b Explain in detail B-ISDN. 08

c Explain budget design using path loss models. 08

2 Solve any two 16

a Compare CCS and SS7. 08

b Explain parameters of mobile multipath channels. 08

c Explain free space propagation model. 08

3 Write notes on any three 18

a Impulse response in multipath channel. 06

b Rayleigh fading distribution. 06

c Cellular communication. 06

d Signal penetration into Buildings. 06


Section-II 50

4 Solve any two 16

a Explain multiple access technique for wireless communication. 08

b Draw & explain protocol architecture of IEEE 802.11. 08

c Explain Frequency division multiple access (FDMA). 08

5 Solve any two 16

a Explain traffic routing mechanism in wireless network. 08

b Explain Bluetooth and WIFI networks 08

c Explain the space division multiple Access (SDMA). 08

6 Write notes on any three 18

a Capacity of cellular system. 06

b ISDN. 06

c Traditional TCP 06

d TCP over 2.5/3G Wireless networks 06

Assignments

Assignment No. 1

Assignment Title.

Mobile Radio Propagation(Large Scale Propagation model) CO411.1

1 Explain basic propagation mechanism in mobile radio propagation.

2

Assume a receiver is located 10KM from a 50W transmitter. The carrier frequency is 6GHz and free space propagation is assumed, Gt=1 and Gr=1. a) Find the power at receiver. B) Find the magnitude of the E-field at the receiver antenna. c) Find the RMS voltage applied to the receiver input, assuming that receiver antenna has a purely real impedance of 50Ω and is matched to the receiver.

3 Discuss ray tracing and site specific modeling techniques.

4 Explain indoor and outdoor propagation model in detail.


Assignment No. 2

Assignment Title

Mobile Radio Propagation (Small Scale Propagation model) CO411.2

1 Explain the various parameters of mobile multipath channels.

2 Explain in detail Rayleigh and Ricean distribution.

3 Explain Fading effects due to Doppler spread.

4 Explain statistical model for multipath fading channels.

Assignment No. 3

Assignment Title

Wireless Networking: Introduction to wireless network’s CO411.3

1 What are the advantages of CCS?

2 What is SS7? Explain SS7 layered architecture.

3 Explain B-ISDN.

4 Explain difference between Wireless and Fixed Telephone networks

5 What is traffic routing? Explain traffic routing in wireless networks.

Assignment No. 4

Assignment Title

Introduction to Mobile Communication & Multi Access Technique CO411.4

1 Differentiate between FDMA,TDMA and CDMA

2 Explain Space Division Multiple Access (SDMA)

3 Why are packet radio protocols required? Explain CSMA/CA

4 Give standard/typical specifications used for different multiple access techniques.

5 Write short note different mobile and wireless devices.

Assignment No. 5

Assignment Title

Wireless LAN CO411.5

1 Write a short note on Infrared Radio transmission.

2 Explain IEEE 802.11


3 Write a short note on HIPER LAN

4 Explain Wireless ATM & Bluetooth

5 Differentiate between infrastructure based and ad-hoc wireless networks.

Assignment No. 6

Assignment Title

Mobile Network & Transport Layer CO411.6

1 What is COA and explain mechanisms for receiving call when mobile is in foreign network

2 Describe the mechanism for dynamic IP address allocation to a mobile station.

3 Explain Traditional TCP and Compare with Mobile TCP

4

Write short note on following:

a) Snooping TCP b) Indirect TCP c) TCP over 2.5/3G


Image Processing - Course Plan

Course Image Processing Course Code ETC412

Contact

Hours/ week 4 2 -- 6

Prepared by MR.P.B.Nikam and Mr. P. S. Bidkar Date 20/11/2017

Prerequisites Matrix manipulation of two dimensional coordinate system, basic knowledge

of MATLAB instruction.

Course Outcomes


CO412.1 Classify1 fundamental steps in image processing and distinguish between

different types of images and its properties.

CO412.2 Formulate2 solutions to general image processing problems using various

transformations

CO412.3 Apply3 different image filtering techniques in spatial and frequency domain.

CO412.4 Analyze4 different types of morphological image processing transformations.

CO412.5 Examine3 various image segmentation transformations.

CO412.6 Differentiate3 between various types of redundancies and also various types

of image compression models.


POs

COs

PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12

CO412.1 1 3

CO412.2 1 2 2

CO412.3 1 2

CO412.4 1 2

CO412.5 1 2 2

CO412.6 1 2 1 2


Course Contents


Hours

Section I

1

Digital Image Fundamentals.

Fundamentals steps in DIP, Components of image processing system,

Elements of Visual Perception, Image sensing and acquisition, image

sampling and quantization, basic relations between pixels.

8 Hrs

2

Image Transforms

Basic intensity transformation: image negation, Log transformation,

power law transformation, Piecewise linear transformation functions,

arithmetic and Logic operation, 08

Histogram processing (equalization and matching), sine cosine,

Hadamard, Haar, Slant transform .

8 Hrs

3

Image filtering Fundamentals of spatial filtering, smoothening and

Sharpening in spatial domain, smoothening and Sharpening in

frequency domain.

7 Hrs

Section II

4

Morphological image processing Dilation & erosion, opening and

closing operation, Hit- or –miss transformation. Basic morphological

algorithms: Boundary extraction, region filling, thinning and thickening,

skeletons.

8 Hrs

5

Image segmentation Detection of discontinuities: Point detection, line

detection, edge detection, (Sobel, Prewitt, Laplacian), global and

adaptive thresholding, Region based segmentation (region growing,

region splitting and merging).

8 Hrs

6

Image Compression

Fundamentals, Coding redundancy , interpixel redundancy, fidelity

criteria , image compression model, lossless predictive coding, Lossy

predictive coding

Color Image Processing

Color fundamentals, Color models , psudocolor, image processing, full

color image processing, Color transformations

9 Hrs


Reference Books:


1 Digital image processing

Rafael C

Gonzalez ,

Richard E. Woods

Pearson

Publication 1 to 6

2 Image Processing analysis and

Machine vision

Milan sonka ,

Vaclav Hlavac

Thomson

Publication 1,3,6


S. Jayraman, S

Esakkiaraja,

Veerakumar

MGH 1,2

4 Digital image processing and

Analysis

B. Chanda, D.

Datta, Majnudar PHI 1,2,4


using Matlab

Rafael C

Gonzalez 1 to 6

Evaluation scheme

Examination


Max. Marks 100 25 -- 125

Contact


Scheme of Marks

Section Unit No. Title Marks

I 1. Digital Image Fundamentals. 16

I 2. Digital Image Fundamentals. 16

I 3. Image filtering 18

II 4. Morphological image processing 16

II 5. Image segmentation 16

II 6. Image compression 18


Course Unitization

Section Unit Course

Outcomes

No. of Questions in

No. Title CAT-I CAT-II CAT-III

I

1. Digital Image

Fundamentals. CO412.1 02

2. Digital Image

Fundamentals. CO412.2 02

3. Image filtering CO412.3

02

II

4. Morphological

image processing CO412.4

02

5. Image

segmentation CO412.5 02

6. Image

compression CO412.6

02


Section I

Unit

No 1.

Unit

Title Digital Image Fundamentals

Planned

Hrs. 8

Lesson schedule

Class


1 Fundamentals steps in DIP

2 Components of image processing system

3 Elements of Visual Perception

4 Image sensing and acquisition

5 Image sampling and quantization

6 Basic relations between pixels

Review Questions

Q1 What is meant by digital image? CO412.1

Q2 With neat diagram discuss various steps in digital image processing CO412.1

Q3 Explain binary level image with example. CO412.1

Q4 Explain basic concept of sampling & quantization. CO412.1


Unit

No 2

Unit

Title Image Transforms

Planned

Hrs. 5

Lesson schedule

Class


1 Basic intensity transformation: image negation

2 Log transformation

3 Power law transformation

4 Piecewise linear transformation functions

5 Arithmetic and Logic operation

6 Histogram processing (equalization and matching)

7 Sine cosine, Hadamard transform

8 Haar, Slant transform

Review Questions

Q1 Explain log transformation of image. CO412.2

Q2 With example explain image negation. CO412.2

Q3 Mention the significance features of wavelet transform CO412.2

Unit

No 3.

Unit

Title Image filtering

Planned

Hrs. 6

Lesson schedule

Class


1 Fundamentals of spatial filtering

2 Smoothening in spatial domain

3 Sharpening in spatial domain

5 Smoothening in frequency domain

6 Sharpening in frequency domain

Review Questions

Q1 Explain basic properties of filtering CO412.3

Q2 Explain smoothing linear filter. CO412.3

Q3 With the help of block diagram explain how filtering can be done in

frequency domain.

CO412.3


Section II

Unit

No 4

Unit

Title Morphological Image Processing

Planned

Hrs. 6

Lesson schedule

Class


1 Dilation & erosion

2 Opening and closing operation

3 Hit- or –miss transformation

4 Basic morphological algorithms: Boundary extraction

5 Region filling

6 Thinning

7 Thickening

8 Skeletons

Review Questions

Q1 Explain in detail opening and closing operation. CO412.4

Q2 Write note on Hit or miss transform. CO412.4

Q3 Explain in detail Region filling, thinning and thickening. CO412.4

Unit

No 5.

Unit

Title Image Segmentation

Planned

Hrs. 6

Lesson schedule

Class


1 Point, Line and Edge detection.

2 Sobel and Prewitt and Laplacian filters

3 Thresholding and Role of Illumination.

4 Globle and adaptive thresholding.

5 Region growing

6 Region splitting and merging.

Review Questions

Q1 Describe various filters for image segmentation? CO412.5

Q2 Explain role of illumination. CO412.5

Q3 Explain region splitting and merging? CO412.5


Unit

No 6

Unit

Title Image Compression

Planned

Hrs. 6

Lesson schedule

Class


1 Fundamentals, Coding redundancy

2 Interpixel redundancy, fidelity criteria

3 Image compression model

4 Lossless predictive coding, Lossy predictive coding

5 Color fundamentals, Color models

6 Psudocolor, image processing

7 Full color image processing

8 Color transformations

Review Questions

Q1 What is coding redundancy? Explain interpixal redundancy. CO412.6

Q2 Explain lossless and lossy predictive coding? CO412.6

Q3 Write a note on DCT compression. CO412.6


Course Title : Image Processing Total

Marks

Duration 3 Hours 100

Instructions All questions are compulsory.

Section-I Marks

1

Attempt any three

A Draw & explain the block diagram of image processing system 6

B Explain the use of image sampling and quantization for digital for

digital image representation. 6

C Give the conversion formula for HIS to RGB model. 6

D Explain various application of digital image processing. 6

2

Attempt any three

A Explain Piecewise linear transformation functions. 6

B Explain Log transformation. 6

C Explain power law transformation 6

D Explain Enhancement using arithmetic. 6

3

A Explain different types of sharpening spatial filters. 8

OR

A Explain types of smoothing frequency domain filters. 8

B What do you mean by histogram? Explain histogram equalization

technique. 8


Section-II

4

Attempt any three Marks

A Explain with neat diagram dilation and erosion operation? 6

B Explain region filling, thinning and thickening process. 6

C Explain Hit or miss transform. 6

D Write note on Role of illumination. 6

5

Attempt any three

A Explain masks for edge detection. 6

B Write a note on thresholding. 6

C Explain region growing, splitting and merging. 6

D Explain in detail lossy predictive coding also explain DCT

compression technique. 6

6

Solve any one

A Explain with proper diagram opening, closing and Hit or miss

transform. 9

B Compare point, line and edge detection. 9

Assignments

List of assignments to meet the requirements of the syllabus

Assignment No. 1

Assignment Title CO

Batch I Explain the process of image formation in human eye. CO412.1

Batch II Discuss a simple image formation model CO412.2

Batch III What is purpose of a color model? Explain RGB model. CO412.2

Batch IV Write & explain various variants of first order derivative

masks for image enhancement CO412.3

Assignment No. 2

Assignment Title CO

Batch I With suitable diagram explain opening and closing

operation. CO412.3

Batch II Explain boundary extraction and region filling. CO412.4

Batch III Write a note on Hit or miss Transform. CO412.4

Batch IV What is thresholding explain with suitable examples. CO412.5

List of additional assignments


Assignment No. 1

Assignment Title CO

Batch I What is meant by Histogram of an image? Discuss the

significance of histogram equalization. CO412.4

Batch II Explain gray level transformation technique: CO412.5

Batch III Explain various applications of digital image processing. CO412.6

Batch IV With suitable diagram explain opening and closing

operation. CO412.4

List of open ended assignments

Assignment No. 2

Assignment Title CO

Batch I Explain Laplacian mask operation. CO412.5

Batch II What is thresholding explain with suitable examples. CO412.3

Batch III Explain DCT compression. CO412.6

Batch IV Explain coding redundancy. CO412.4

List of Experiments

List of experiments to meet the requirements of the syllabus

Experiment No. Experiment title CO

1. Study of Reading & displaying of image (various image file

format) CO412.1

2. Study of Simple gray level transformation. CO412.2

3. Study of Histogram processing. CO412.2

4. Study of Image smoothening operation. CO412.3

5. Study of Edge detection. CO412.4

6. Study of Morphological operation. CO412.4

7. Study of Segmentation using Thresholding. CO412.5

8. Study of Image compression using DCT. CO412.6

List of additional experiments


Experiment No. Experiment Title CO

1. Study of Hit and Miss transform CO412.6

2. Study of DFT and IDFT on images CO412.2

3. Study of masks for edge detection. CO412.3

List of open ended experiments

Experiment No. Experiment Title CO

1. Study of Lossy predictive coding CO412.5

2. Compare point, line and edge detection. CO412.5


Mechatronics -Course Plan

Course Mechatronics Course Code ETC413

Prepared by Mr.M.P.Mattada Date 12/11/2017

Prerequisites Basic understating of mathematical calculations and control engineering,

basic understating of actuators and Process Controller

Course Outcomes


CO413.1 Analyze3

mechanical operations & Processes

CO413.2 Explain2 actuators according to need

CO413.3 Explain2 principles of process controllers

CO413.4 Explain2 PLC programming and its operation

CO413.5 Analyze4 CNC machines and its machine mechanism

CO413.6 Analyze5 and Design Mechatronics System

Mapping of COs with POs and PSO

POs,

PSOs

COs

PO

1

PO

2

PO

3

PO

4

PO

5

PO

6

PO

7

PO

8

PO

9

PO1

0

PO1

1

PO1

2

PSO

1

CO413.

1 2 3

CO413.

2 2

CO413.

3 1

1

CO413.

4 2 1

CO413.

5 2

CO413.

6 2 2

1 2

1 – Low correlation, 2 – Moderate correlation, 3 – High correlation


Course Contents


Hours

Section –I

1

Introduction to mechatronics

What is mechatronics, design of process, systems, measurement of

system, Control system, Programmable logic controllers

6 Hrs

2

Actuators and Mechanisms

Introduction, Actuators Types and Application Areas, Eletro-mechnical

Actuators, DC motor, AC motor, Piezoelectric Actuators, Chemical

Actuator, Bearings, Gears.

7 Hrs

3

Process Controllers :

Controller Principles, Two position controller (ON/OFF controller),

Proportional controller,Integral controller, Derivative controller,

Pneumatic controllers ,PID controller tuning.

6 Hrs

Section –II

4

Programmable Logic Controllers:

Introduction to PLC, Basic structure of a PLC, Principle of Operation

,PLCs versus computer ,PLC programming.

6 Hrs

5

Introduction to CNC machines:

CNC machines, NC machines, CNC machines, DNC machines,

machine structure, Robotics.

6 Hrs

6

Design of Mechatronics system:

Introduction, Mechatronics approach into design, Case Examples,

Future Trends-smart homes. .

5 Hrs

Reference Books:


1

Mechtronics

principles,conceptsand

application

Nitaigour

Preamchand

Mahalik

MCGraw hill 2nd

edition 1 to 6

2 Mechatronics Integrated

mechanical electronic systeam

K.P Ramachandan

G.K

Vijayaraghavan

Wiley India 1,2,3

3 Mechatronics W Bolton Pearson 1,4,6


Evaluation scheme

Examination


Max. Marks 100 25 - 125

Contact


Scheme of Marks


I 1. Introduction to Mechatronics 15

I 2. Actuators and Mechanisms 18

I 3. Process Controllers 17

II 4. Programmable Logic Controllers 17

II 5. Introduction to CNC Machines 17

II 6. Design of Mechatronics System 17

Course Unitization

CO Evaluation Notes

CO413.1 CAT- 1

3 questions with mixing of sub questions from

chapters 1,2, May includes OR questions CO413.2

CO413.3 CAT -2


chapters 3,4 CO413.4

CO413.5

CAT-3 3 questions with mixing of sub questions from




Section I

Unit

No 1. Unit Title Introduction to Mechatronics

Planned

Hrs. 6

Lesson schedule

Class


1 What is mechatronics?

2 Design of process, systems and its measurement

3 Design of process, systems and its measurement

4 Control System

5 PLC

6 PLC

Review Questions

Q1 What is meant by Mechatronics? CO413.1

Q2 Discuss various types of process and systems? CO413.1

Q3 Explain Control System? CO413.1

Q4 Explain PLC? CO413.1

Unit

No 2 Unit Title Actuators & Mechanisms

Planned

Hrs. 7

Lesson schedule

Class


1 Introduction to Actuators and Mechanisms

2 Actuator Types and Application Areas

3 Electromechanical Actuators

4 DC & AC motors

5 Piezoelectric Actuators

6 Chemical Actuators

7 Bearings and Gears

Review Questions

Q1 Explain Actuators and its types? CO413.2

Q2 Explain electromechanical & Chemical Actuators CO413.2

Q3 Discuss Bearings and Gears CO413.2


Unit

No 3. Unit Title Process Controllers

Planned

Hrs. 6

Lesson Schedule

Class


1 Basics of Controller principles

2 Two position Controller

3 Proportional Controller

5 Integral & derivative Controller

6 Pneumatic Controller, PID Controller tuning

Review Questions

Q1 Explain basics of Controllers CO413.3

Q2 Explain Two position Controller and Integral Controller? CO413.3

Q3 Discuss PID Controller tuning CO413.3

Section II

Unit

No 4 Unit Title Programmable Logic Controllers

Planned

Hrs. 6

Lesson Schedule

Class


1 Introduction to PLC

2 Basic structure of PLC

3 Operation of PLC

4 PLC vs Computer

5 PLC programming

6 PLC programming

Review Questions

Q1 Explain in detail PLC and its basic structure CO413.4

Q2 Write note on Principle Operation of PLC CO413.4

Q3 Explain in detail PLC programming CO413.4


Unit

No 5. Unit Title Introduction to CNC Machines

Planned

Hrs. 6

Lesson schedule

Class


1 CNC Machines

2 CNC Machines

3 DNC Machines

4 NC Machines

5 NC Machines

6 Machine Structure, Robotics

Review Questions

Q1 Describe CNC machines CO413.5

Q2 Explain DNC & NC Machines CO413.5

Q3 Explain Machine structure CO413.5

Unit

No 6 Unit Title Design of Mechatronics System

Planned

Hrs. 5

Lesson schedule

Class


1 Introduction

2 Mechatronics Approach into design

3 Case examples

4 Future Trends- smart Homes

5 Other processing operation using robots

Review Questions

Q1 What is Approach & Design in Mechatronics? CO413.6

Q2 Explain different Case examples of mechatronics? CO413.6

Q3 Discuss Smart homes as an example of Mechatroncis. CO413.6



Course Title : Mechatronics Total

Marks



Section-I Marks

1

Attempt any three

A What is Mechatronics? Explain the design process in detail 6

B With neat diagram explain PLC. 6

C What is the use of control system in mechatronics? 6

D Explain types of systems and measurements of the systems in

mechatronics 6

2

Attempt any three

A Explain Actuators and Mechanisms. 6

B Explain DC & AC motor 6

C Explain Electromechanical and Chemical Actuators 6

D Discuss Pneumatic and Piezoelectric Actuator 6

A Explain Controller Principles in process controllers with an example 7

OR

A Explain in detail process controllers 7

B What do you mean by Two position controller? 7

Section-II

4


A Explain PLC and its basic structure 6

B Explain principal operation of PLC 6

C Explain CNC machines 6

D Write note on Robotics in Mechatronics 6

5

Attempt any three

A Discuss NC, CNC and DNC machines in detail 6

B Write a note on Smart home example 6

C Explain various case examples used in mechatronics. 6

D Explain in detail PLC programming 6

6 A Explain with proper diagram DNC machine

B Discuss in detail application of Mechatronics 7


Assignments


Assignment No. 1

Assignment Title CO413.1

Batch I Explain Mechatronics.

Batch II Discuss a design process, systems and measurement of system

Batch III What is Control System

Batch IV Discuss PLC

Assignment No. 2


Batch I With suitable diagram explain AC & DC Motors

Batch II Explain Actuators and its types.

Batch III Write a note on Chemical Actuators

Batch IV Explain Bearings and Gears


Assignment No. 3


Batch I Discuss Controller Principles

Batch II Explain 2 position controller

Batch III Explain Integral and Derivative Controller

Batch IV Explain pneumatic Controllers


Assignment No. 4


Batch I Explain PLC and its basic structure

Batch II What is CNC machine and its application in mechatronics

Batch III Explain DNC and NC in detail

Batch IV Explain one design example in mechatronics


Operating System - Course Plan

Course Operating System Course Code ETC415

Prepared by Mr. P. V. Kothawale Date 03/11/2017

Prerequisites Basic understating of computer systems and processes.

Course Outcomes


CO415.1 Explain3

what is operating system and it’s architecture of operating system

CO415.2 Explain2 Processes & Threading environment in operating systems

CO415.3 Analyze4 multithreading concept and deadlock

CO415.4 Explain2 memory management in operating system and associated algorithms

CO415.5 Analyze4 IO issues and file concept in operating system

CO415.6 Analyze5 different types of advanced operating systems and its comparison


POs

COs a b C d e F g h i j K

CO415.1 3 3

CO415.2 1 1 2

CO415.3

CO415.4 3 2 3

CO415.5 3

CO415.6 2 2 2 2

1 – Low correlation, 2 – Moderate correlation, 3 – High correlation


Course Contents


Hours

Section –I

1

Introduction To Operating System:

Introduction To Operating System: Introduction, Operating System:

Need, Evolution, Types, Architecture : bootloader , kernel root file

system ; Hardware Support for Operating System

6 Hrs

2

Process & Threads:

Fundamentals Of Process , Process Scheduling, Process Communication

And Synchronization, , Threads usage , Implementing threads in user

space & kernel space, Multithreading

7 Hrs

3

Process Management : Concurrency and race conditions, mutual

exclusion requirements , s/w and h/w solutions, semaphores, monitors,

classical IPC problem and solutions, Dead locks - characterization ,

detection ,recovery, avoidance and prevention.

6 Hrs

Section –II

4

Memory Management:

Memory partitioning , swapping, paging, segmentation, virtual memory

- Concepts, Overlays, Demand paging, Performance of demand paging ,

page replacement algorithm, Allocation algorithms

5 Hrs

5

I/O SYSTEMS :

Principles of I/O hardware - I/O devices - device controller - direct

memory access Principles of I/O software –

Goals -

interrupt handlers - device drivers- device independent I/O software

Secondary-storage structure - Disk structure - Disk scheduling - Disk

Management - Swap-space management - Disk reliability - Stable

storage implementation File concept File support- Access methods-

Allocation methods- Directory systems- File Protection

6 Hrs

6

Advanced Operating Systems Distributed OS, Multiprocessor OS,

Mobile OS, RTOS , Multimedia OS Case Study : Linux , Windows ,

Android

6 Hrs

Reference Books:


1 Operating System Concepts Silberschatz ,

Galvin & Gagne Wiley Publication 1 to 6

2 Operating System: Internals &

Design Principles William Stallings

Pearson

Publication 1,2,3

3 Operating Systems Flynn /McHoes Cengage Learning 1,4,6

4 Principles of Operating Systems Naresh Chauhan Oxford 5,6

Evaluation scheme


Examination


Max. Marks 100 25 -- 125

Contact


Scheme of Marks


I 1. Introduction To Operating System 15

I 2. Process & Threads: 18

I 3. Process Management 17

II 4. Memory Management 16

II 5. I/O Systems 16

II 6. Advanced Operating Systems 18

Course Unitization

CO Evaluation Notes

CO415.1 CAT 1


chapters 1,2, May includes OR questions CO415.2

CO415.3 CAT 2



CO415.5 CAT 3 All questions are compulsory

CO415.6


Section I

Unit

No 1.

Unit

Title Introduction to Operating System

Planned

Hrs. 6

Lesson schedule

Class


1 Introduction, Operating System: Need

2 Evolution, Types

3 Architecture

4 Bootloader

5 Kernel root file system

6 Hardware Support for Operating System


Review Questions

Q1 What is meant by Operating system? CO415.1

Q2 Discuss various types of Operating system CO415.1

Q3 Explain architecture of OS CO415.1

Q4 Explain Kernel root file system CO415.1

Unit

No 2

Unit

Title Process & Threads

Planned

Hrs. 7

Lesson schedule

Class


1 Fundamentals Of Process and Threads

2 Process Scheduling

3 Process Communication And Synchronization

4 Threads usage

5 Implementing threads in user space

6 Implementing threads in Kernel space

7 Multithreading concept

Review Questions

Q1 Explain Process and thread CO415.2

Q2 Explain Synchronization and thread usage CO415.2

Q3 Discuss Multithreading CO415.2

Unit

No 3.

Unit

Title Process Management

Planned

Hrs. 6

Lesson schedule

Class


1 Concurrency and race conditions

2 Mutual exclusion requirements , s/w and h/w solutions,

3 Semaphores, monitors, classical IPC problem and solutions

5 Dead locks - characterization

6 Detection ,recovery, avoidance and prevention

Review Questions

Q1 Explain Semaphore in detail CO415.3

Q2 Explain Dead lock and its prevention CO415.3

Q3 Discuss IPC Problem and solution CO415.3

Section II


Unit

No 4

Unit

Title Memory Management

Planned

Hrs. 5

Lesson schedule

Class


1 Memory partitioning , swapping, paging

2 Segmentation, virtual memory

3 Overlays, Demand paging

4 Performance of demand paging

5 Page replacement algorithm, Allocation algorithms

Review Questions

Q1 Explain in detail Memory management. CO415.4

Q2 Write note on Demand Paging and overlays. CO415.4

Q3 Explain in detail Page replacement algorithm CO415.4

Unit

No 5.

Unit

Title I/O Systems

Planned

Hrs. 6

Lesson schedule

Class


1 Principles of I/O hardware - I/O devices - device controller -

2 Direct memory access Principles of I/O software – Goals - interrupt handlers

3 Device drivers- device independent I/O software Secondary-storage structure -

Disk structure

4 Disk scheduling - Disk Management - Swap-space management - Disk reliability -

Stable storage implementation

5 File concept File support- Access methods

6 Allocation methods- Directory systems- File Protection

Review Questions

Q1 Describe I/O devices and controller CO415.5

Q2 Explain Interrupt handles, Disk structure CO415.5

Q3 Explain File allocation methods and directory system CO415.5

Unit

No 6

Unit

Title Advanced Operating Systems

Planned

Hrs. 6

Lesson schedule

Class


1 Advanced Operating Systems Distributed OS

2 Multiprocessor OS

3 Mobile OS

4 RTOS

5 Multimedia OS

6 Case Study : Linux , Windows , Android

Review Questions


Q1 What is RTOS explain detail? CO415.6

Q2 Explain different types of operating systems? CO415.6

Q3 Discuss multimedia operating system CO415.6


Course Title : Operating System Total

Marks



Section-I

Marks

1

Attempt any three

A What is Operating System? Explain the classification of OS in detail 6

B With neat diagram explain architecture of operating system. 6

C What is the kernel? Explain kernel file system. 6

D Explain Process and Threads 6

2

Attempt any three

A Explain Process scheduling and its algorithms 6

B What is Synchronization? Explain Process Synchronization 6

C Explain multithreading in detail 6

D Discuss Kernel & user space implementation 6

3

A Draw neat diagram of Deadlock & explain deadlock detection and

prevention in detail 8

OR

A Explain in detail Concurrency & race around condition 8

B What do you mean by Mutual Exclusion? Explain its requirements. 8

Section-II

4


A Explain memory partitioning and swapping 6

B What is paging? Explain demand paging in detail. 6

C Explain page replacement algorithm 6

D Write note on Virtual memory 6

5

Attempt any three

A Discuss Principles of I/O hardware - I/O devices 6

B Write a note device controller - direct memory access 6

C Explain - Disk structure, Disk scheduling, Disk Management 6

D Explain in detail Directory systems- File Protection 6

6

Solve any one

A What is File concept? Explain file allocation method 9

B Discuss in detail advanced operating Systems 9


Assignments


Assignment No. 1

Assignment Title CO

Batch I Explain different types of OS CO415.1

Batch II Draw architecture of OS & Discuss bootloader CO415.2

Batch III What is need of OS? CO415.2

Batch IV Discuss H/W support for OS CO415.3

Assignment No. 2

Assignment Title CO

Batch I With suitable diagram explain process scheduling CO415.3

Batch II Explain multithreading CO415.4

Batch III Write a not on process synchronization CO415.4

Batch IV What is Monitor? Explain semaphore in detail CO415.5


Assignment No. 1

Assignment Title CO

Batch I Discuss the IPC problem and solution CO415.4

Batch II Explain overlays in detail CO415.5

Batch III Explain I/O devices & device controller CO415.6

Batch IV With suitable diagram explain demand paging CO415.4


Assignment No. 1

Assignment Title CO

Batch I Explain disk scheduling and disk management CO415.5

Batch II What is interrupt handler CO415.3

Batch III Explain directory structure & file protection CO415.6

Batch IV Highlight on advanced operating systems. CO415.4


Course Title – Project Phase II

Course Project Phase - II Course Code ETC417

Examination Scheme

Theory Term Work POE Total

Max. Marks -- 100 100 200125 Contact

Hours/ week --

Prepared by Mr. P.S.Bidkar Date 20/11/17

Course Outcomes


CO417.1 Build1, test

2 and troubleshoot previously designed circuit.

CO417.2 Develop

3 skill in recording of lab/field observations and effective use of

records in execution of project.

CO417.3 Use of multidisciplinary knowledge in the optimization of project.

CO417.4 Demonstrate

3 the knowledge of professional and ethical responsibilities in

the profession.

CO417.5 Measure4 an impact on society and societal responsibilities.

CO417.6 Write3 effective detailed project report.

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