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Department of Applied Electronics &
Instrumentation
DEPARTMENT OF APPLIED ELECTRONICS & INSTRUMENTATION
COURSE HANDOUT: S8 Page 2
RSET VISION
RSET MISSION
To evolve into a premier technological and research institution,
moulding eminent professionals with creative minds, innovative
ideas and sound practical skill, and to shape a future where
technology works for the enrichment of mankind.
To impart state-of-the-art knowledge to individuals in various
technological disciplines and to inculcate in them a high degree of
social consciousness and human values, thereby enabling them to
face the challenges of life with courage and conviction.
DEPARTMENT OF APPLIED ELECTRONICS & INSTRUMENTATION
COURSE HANDOUT: S8 Page 3
DEPARTMENT VISION
DEPARTMENT MISSION
Facilitate comprehensive knowledge transfer with latest
theoretical and practical concepts, developing good relationship
with industrial, academic and research institutions thereby
moulding competent professionals with social commitment.
To evolve into a centre of academic excellence, developing
professionals in the field of electronics and instrumentation to
excel in academia and industry.
DEPARTMENT OF APPLIED ELECTRONICS & INSTRUMENTATION
COURSE HANDOUT: S8 Page 4
PROGRAMME EDUCATIONAL OBJECTIVES
PROGRAMME OUTCOMES
PEOI: Graduates will have the fundamental and advanced knowledge in mathematics, science, electronics, instrumentation and allied engineering.
PEOII: Graduates shall pursue higher studies, or take up engineering profession in design and development or take up engineering research assignments.
PEOIII: Graduates will be conscious of the need for environment friendly engineering solutions and will be equipped with positive attitude, to help them to acquire leadership qualities as well as team spirit and get adapted to the current industrial scenario.
a) Students will be capable of applying the knowledge of mathematics,
science and engineering in the field of electronics and instrumentation
engineering.
b) Students will have the ability to design and conduct experiments, analyze
and interpret data in electronics and instrumentation engineering.
c) Students will have the ability to design electronics and instrumentation
system components or processes to meet desired needs within realistic
constraints such as health and safety, economic, environmental and
societal considerations.
d) Students will be able to work individually as well as in multidisciplinary
teams, as a member or as a leader, to accomplish the common goal.
e)
DEPARTMENT OF APPLIED ELECTRONICS & INSTRUMENTATION
COURSE HANDOUT: S8 Page 5
e) Students will be able to identify, analyze, formulate and solve engineering
problems.
f) Students will be capable of applying the knowledge of mathematics,
science and engineering in the field of electronics and instrumentation
engineering.
g) Students will have the ability to design and conduct experiments, analyze
and interpret data in electronics and instrumentation engineering.
h) Students will have the ability to design electronics and instrumentation
system components or processes to meet desired needs within realistic
constraints such as health and safety, economic, environmental and
societal considerations.
i) Students will be able to work individually as well as in multidisciplinary
teams, as a member or as a leader, to accomplish the common goal.
j) Students will be aware of the contemporary issues, which help them to
integrate advanced and sustainable solutions into the user environment.
k) Students will demonstrate skills to use modern engineering tools,
software and equipment to analyze and model complex engineering
solutions.
l) Students will demonstrate knowledge and understanding of the
management principles to estimate the requirements and to manage
projects in multidisciplinary environments.
m) Students will excel in competitive examinations like GATE, GRE and
Engineering Services Examination.
DEPARTMENT OF APPLIED ELECTRONICS & INSTRUMENTATION
COURSE HANDOUT: S8 Page 6
INDEX
1. SEMESTER PLAN 2. ASSIGNMENT SCHEDULE 3. SCHEME 4. AI010 801:INSTRUMENTATION SYSTEM DESIGN 4.1. COURSE INFORMATION SHEET 4.2. COURSE PLAN
5. AI010 802: INSTRUMENTATION IN PROCESS INDUSTRIES 5.1. COURSE INFORMATION SHEET 5.2. COURSE PLAN
6. AI010 803: COMPUTER NETWORKS 6.1. COURSE INFORMATION SHEET 6.2. COURSE PLAN
7. AI010 804 L01:NEURAL NETWORKS 7.1. COURSE INFORMATION SHEET 7.2. COURSE PLAN
8. AI010 804 L04: ARTIFICIAL INTELLIGENCE 8.1. COURSE INFORMATION SHEET 8.2. COURSE PLAN
9. AI010 805:INDUSTRIAL POLLUTION CONTROL 9.1. COURSE INFORMATION SHEET 9.2. COURSE PLAN
10. AI010 806: PROCESS CONTROL LAB 10.1. COURSE INFORMATION SHEET 10.2. COURSE PLAN
DEPARTMENT OF APPLIED ELECTRONICS & INSTRUMENTATION
COURSE HANDOUT: S8 Page 7
SEMESTER PLAN
DEPARTMENT OF APPLIED ELECTRONICS & INSTRUMENTATION
COURSE HANDOUT: S8 Page 8
ASSIGNMENT SCHEDULE
Week 5 AI010 801:INSTRUMENTATION SYSTEM DESIGN Week 5 AI010 802: INSTRUMENTATION IN PROCESS INDUSTRIES Week 6 AI010 803: COMPUTER NETWORKS Week 6 AI010 804 L01:NEURAL NETWORKS Week 6 AI010 804 L04: ARTIFICIAL INTELLIGENCE Week 7 AI010 805:INDUSTRIAL POLLUTION CONTROL
Week 10 AI010 801: INSTRUMENTATION SYSTEM DESIGN Week 10 AI010 802: INSTRUMENTATION IN PROCESS INDUSTRIES Week 11 AI010 803: COMPUTER NETWORKS Week 11 AI010 804 L01:NEURAL NETWORKS Week 11 AI010 804 L04: ARTIFICIAL INTELLIGENCE Week 12 AI010 805:INDUSTRIAL POLLUTION CONTROL
DEPARTMENT OF APPLIED ELECTRONICS & INSTRUMENTATION
COURSE HANDOUT: S8 Page 9
SCHEME
AI010 801 INSTRUMENTATION SYSTEM DESIGN S8AEI
COURSE HANDOUT: S8 Page 10
COURSE INFORMATION SHEET
PROGRAMME: APPLIED ELECTRONICS &
INSTRUMENTATION
DEGREE: BTECH
COURSE: : INSTRUMENTATION SYSTEM
DESIGN
SEMESTER: 8 CREDITS: 4
COURSE CODE: AI010 801
REGULATION: 2010
COURSE TYPE: CORE
COURSE
AREA/DOMAIN:INSTRUMENTATION
CONTACT HOURS: 3+2 (Tutorial)
hours/Week.
CORRESPONDING LAB COURSE CODE (IF
ANY): NIL
LAB COURSE NAME:NA
SYLLABUS:
UNIT DETAILS HOURS
I Sensing element : Elastic sensing elements - Cantilever and torque elements, Pillar load cell, Strain gauge accelerometer- Inductive push pull displacement sensor -Capacitive level sensor .Signal conditioning element :Design of resistive and reactive bridges for sensors. Design of the bridge Circuit for RTD- Design of reference junction compensation for thermocouple.- Linearising techniques for thermocouple and thermistor- Design of charge amplifier-Instrumentation amplifier. A.C. carrier systems.- Lock in amplifier.
9
II Current transmitters-Concept of 2 and 4 wire transmitters with 4-20mA
output- Open loop and closed loop current transmitters. Smart
transmitters- Future trends in intelligent devices- Design of pneumatic
and electronic PID controllers-Design of ON-OFF controllers with neutral
zone -Design of instrumentation servo mechanism- Design of
annunciators - Low level and high level annunciators.- Enunciators
9
III Orifice meter- Design of orifice for a given flow condition for compressible and incompressible fluids -Design of rotameter- Design of venturi meter- Bourdon gauges-Factors affecting sensitivity- Design of bourdon tubes- Design of square root extractors for variable head flow meters.
9
IV Piping and instrumentation diagrams – ISA symbols – Process and instrumentation (PI)diagram of typical process plant – Preparation of instrumentation project – Documents to be produced- Process flow sheet – mechanical flow sheets- Instrument index sheet – Instrument specification sheet – Process information required- process information – Bid documents – project procedures – Project schedule – Vendor drawings – Work coordination – Project manager – process engineer – Equipment engineer – Job execution – planning hints- scheduling- Project checklist – equipment delivery - Conclusion Instrument specification sheet for pressure – Choice of temperature – flow – level – analytical instruments and control panels.
9
V Signals and noise in instrument systems – Statistical representation – pdf 9
AI010 801 INSTRUMENTATION SYSTEM DESIGN S8AEI
COURSE HANDOUT: S8 Page 11
– psd – Auto correlation function – Effects of noise and interference – Series and common mode – Noise sources and coupling mechanisms – Multiple earths – Methods of reduction of noise – Shielding – Screening – Filtering – Modulation – Averaging – Auto correlation.
TOTAL HOURS 45
TEXT/REFERENCE BOOKS:
T/R BOOK TITLE/AUTHORS/PUBLICATION
T1 John P. Bentley : Principles of measurement systems, Longman 1983
T2 Johnson C.D: Process control instrumentation technology, 4/e, PHI, 1995
T3 D. Patranabis : Principles of Industrial Instrumentation, Tata McGraw Hill Publishing Ltd. New Delhi, 1999
T4 Sheingold D. H.: Transducer interfacing hand book – a guide to analog signal conditioning, analog devices Incmasschusetts, 1980.
T5 Anderson N. A. : Instrumentation for process measurement and control :Chilton book company 1980.
T6 Andrew W.: Applied Instrumentation in process Industries; Vol. II. Gulf publications, 1990.
T7 Doebelin E. O., Measurement systems applications and design, McGraw Hill, 1975.
T8 Tattamangalam R. Padmanabhan : Industrial Instrumentation Principles and Design, Springer International
T9 E. Radhakrishnan : Instrumentation, measurements and Experiments in Fluids, Boca Raton, FL : CRC Press
COURSE PRE-REQUISITES:
C.CODE COURSE NAME DESCRIPTION SEM
AI 010
601
Process Control
Instrumentation
To have a basic idea about
instrumentation systems
S6
COURSE OBJECTIVES:
1 Design of instrumentation systems for various applications
2 Design of electronic and pneumatic controllers
3 Piping and instrumentation diagrams
4 Procedures for the preparation of an instrumentation project
5 Noise and noise reduction techniques in measurement
COURSE OUTCOMES:
SNO DESCRIPTION PO
MAPPING
1 Graduates will be able to maintain a process control system a, h, e
2 Graduates will be able to design a process control system c
3 Graduates will be able to do projects in process control industry a, h, f
4 Graduate can become consultants to small scale industries e
5 Graduates will be able to contribute to professional society and
standards
g
AI010 801 INSTRUMENTATION SYSTEM DESIGN S8AEI
COURSE HANDOUT: S8 Page 12
GAPS IN THE SYLLABUS - TO MEET INDUSTRY/PROFESSION REQUIREMENTS:
SNO DESCRIPTION PROPOSED
ACTIONS
1 Documentation details internship
in
industries
2 Safety instrumented systems Industrial
visit PROPOSED ACTIONS: TOPICS BEYOND SYLLABUS/ASSIGNMENT/INDUSTRY VISIT/GUEST LECTURER/NPTEL ETC
TOPICS BEYOND SYLLABUS/ADVANCED TOPICS/DESIGN:
1 Hazardous area classification
2 Cable schedule, loop diagrams, and itergraph software
WEB SOURCE REFERENCES:
1 www.engineering toolbox.com
2 www.IEC.org
3 www.ISA .org
4 www.controlengineering.com
5 www.plantwebunversity.com
DELIVERY/INSTRUCTIONAL METHODOLOGIES:
☐ CHALK & TALK ☐ STUD. ASSIGNMENT ☐ WEB RESOURCES
☐ LCD/SMART
BOARDS
☐ STUD. SEMINARS ☐ ADD-ON COURSES
ASSESSMENT METHODOLOGIES-DIRECT
☐ ASSIGNMENTS ☐ STUD.
SEMINARS
☐ TESTS/MODEL
EXAMS
☐ UNIV.
EXAMINATION
☐ STUD. LAB
PRACTICES
☐ STUD. VIVA ☐ MINI/MAJOR
PROJECTS
☐ CERTIFICATIONS
☐ ADD-ON
COURSES
☐ OTHERS
AI010 801 INSTRUMENTATION SYSTEM DESIGN S8AEI
COURSE HANDOUT: S8 Page 13
ASSESSMENT METHODOLOGIES-INDIRECT
☐ ASSESSMENT OF COURSE OUTCOMES (BY
FEEDBACK, ONCE)
☐ STUDENT FEEDBACK ON FACULTY
(TWICE)
☐ ASSESSMENT OF MINI/MAJOR PROJECTS
BY EXT. EXPERTS
☐ OTHERS
Prepared by Approved by
Ms. Mary Hexy Ms. Liza Annie Joseph
(Faculty) (HOD)
AI010 801 INSTRUMENTATION SYSTEM DESIGN S8AEI
COURSE HANDOUT: S8 Page 14
COURSE PLAN
Module 1
Sl. No. Topic No. of lecture hours Reference Books
1 Introduction Instrumentation System
Design 1
1. John P. Bentley : Principles of
measurement systems
2. Sheingold D. H.: Transducer
interfacing hand book – a
guide to analog signal
conditioning.
2 Sensing element : Elastic sensing
elements, Cantilever and torque
elements
1
3 Pillar load cell, Strain gauge
accelerometer. 1
4 Inductive push pull displacement
sensor, Capacitive level sensor. 1
5 Signal conditioning element: Design
of resistive and reactive bridges for
sensors.
1
6 Design of the bridge Circuit for RTD. 1
7 Design of reference junction
compensation for thermocouple 1
8 Linearizing techniques for
thermocouple and thermistor. 1
9 Design of charge amplifier-
Instrumentation amplifier, A.C. carrier
systems.- Lock in amplifier
1
Total hours : 9
AI010 801 INSTRUMENTATION SYSTEM DESIGN S8AEI
COURSE HANDOUT: S8 Page 15
Module 2
Module 3
Sl. No. Topic No. of lecture hours Reference Books
1 Current transmitters -Concept of 2 and
4 wire transmitters with 4-20mA
output
1
1. John P. Bentley : Principles of
measurement systems
2. Sheingold D. H.: Transducer
interfacing hand book – a
guide to analog signal
conditioning.
2 Open loop and closed loop current
transmitters. 1
3 Smart transmitters. 1
4 Future trends in intelligent devices. 1
5 Design of pneumatic and electronic
PID controllers. 1
6 Design of ON-OFF controllers with
neutral zone. 1
7 Design of instrumentation servo
mechanism. 1
8 Design of annunciators, Low level and
high level annunciators, Enunciators. 1
Total hours : 9
Sl. No. Topic No. of lecture hours Reference Books
1 Orifice meter- Design of orifice for a
given flow condition for compressible
and incompressible fluids
2 1. Tattamangalam R.
Padmanabhan : Industrial
Instrumentation Principles
and Design
2. Sheingold D. H.: Transducer
interfacing hand book – a
guide to analog signal
conditioning.
2 Design of rotameter. 2
3 Design of venturi meter 2
4 Design of Bourdon gauges-Factors
affecting sensitivity. 1
AI010 801 INSTRUMENTATION SYSTEM DESIGN S8AEI
COURSE HANDOUT: S8 Page 16
Module 4
5 Design of bourdon tubes 1
6 Design of square root extractors for
variable head flow meters 1
Total hours : 9
Sl. No. Topic No. of lecture hours Reference Books
1 Piping and instrumentation diagrams,
ISA symbols. 1
1. Anderson N A:
Instrumentation for
process measurement and
control
2
Process and instrumentation
(PI)diagram of typical process plant,
Preparation of instrumentation
project.
1
3 Documents to be produced, Process
flow sheet. 1
4 Mechanical flow sheets, Instrument
index sheet. 1
5 Instrument specification sheet Process
information required. 1
6 Process information, Bid documents 1
7 Project procedures, Project schedule. 1
8 Vendor drawings, Work coordination. 1
9 Project manager, process engineer,
Equipment engineer. 1
10 Job execution, planning hints,
scheduling 1
11 Project checklist, equipment delivery. 1
12 Conclusion Instrument specification
1
AI010 801 INSTRUMENTATION SYSTEM DESIGN S8AEI
COURSE HANDOUT: S8 Page 17
Module 5
sheet for pressure.
13 Choice of temperature, flow, level
analytical instruments and control
panels
1
Total hours : 13
Sl. No. Topic No. of lecture hours Reference Books
1 Signals and noise in instrument
systems – Statistical representation,
pdf, psd
2
1. Tattamangalam R.
Padmanabhan : Industrial
Instrumentation Principles
and Design.
2. Sheingold D. H.: Transducer
interfacing hand book – a
guide to analog signal
conditioning
2 Auto correlation function, Effects of
noise and interference 2
3 Series and common mode, Noise
sources and coupling mechanisms 1
4 Multiple earths, Methods of reduction
of noise. 1
5 Shielding, Screening, And Filtering. 2
6 Modulation, Averaging, Auto
correlation 1
Total hours : 9
AI010 802 INSTRUMENTATION IN PROCESS INDUSTRIES S8AEI
COURSE HANDOUT: S8 Page 18
COURSE INFORMATION SHEET
PROGRAMME: APPLIED ELECTRONICS &
INSTRUMENTATION
DEGREE: BTECH
COURSE: : INSTRUMENTATION IN PROCESS
INDUSTRIES
SEMESTER: 8 CREDITS: 4
COURSE CODE: AI010 802
REGULATION: 2010
COURSE TYPE: CORE
COURSE
AREA/DOMAIN:INSTRUMENTATION
CONTACT HOURS: 2+2 (Tutorial)
hours/Week.
CORRESPONDING LAB COURSE CODE (IF
ANY): NIL
LAB COURSE NAME:NA
SYLLABUS:
UNIT DETAILS HOURS
I Basic concepts and principles of commonly used unit operations – Reactors – batch reactors – distillation towers – refrigeration units – steam boilers – furnaces – dryers – crystallizers – centrifuges – heat exchangers – pumps – compressors – evaporators – extruders.
9
II Instrumentation in the Food industry : Description of the process –
Measurement hardware in the food industries – Analyzers in the food
industry – Valves and feeders in the food industry – Controllers and
displays in the food industry – Computer applications in the food
industry – Typical control systems in the food industry.
9
III Instrumentation in the iron and steel industry: Description of the process – Measurement hardware – analyzers – valves - Controllers and displays in the iron and steel industry – Computer applications in the iron and steel industry – Typical control systems in the iron and steel industry
8
IV Instrumentation in the Paper industry : Description of the process – Measurement hardware in the Paper industry – Analyzers in the Paper industry – Valves and feeders in the Paper industry – Controllers and displays in the Paper industry – Computer applications in the Paper industry – Typical control systems in the Paper industry. Instrumentation in the Nuclear industry: Description of the process- Measurement hardware in the nuclear industry – Analysers in the nuclear industry – Valves and control rodes in the nuclear industry – Control panels and displays – Computer applications – Typical control system.
10
V Instrumentation in the pharmaceutical industry : Description of the process – Measurement hardware in the pharmaceutical industry – Analyzers in the pharmaceutical industry – Valves and feeders in the pharmaceutical industry – Controllers and displays in the pharmaceutical industry – Computer applications in the pharmaceutical industry – Typical control systems in the pharmaceutical industry.
9
TOTAL HOURS 45
AI010 802 INSTRUMENTATION IN PROCESS INDUSTRIES S8AEI
COURSE HANDOUT: S8 Page 19
TEXT/REFERENCE BOOKS:
T/R BOOK TITLE/AUTHORS/PUBLICATION
T1 Instrumentation in the Processing Industries , Bela G Liptak (ed.), Chilton Book Company
R1 Unit operation in chemical Engg. McCabe Smith 4/e Mcgrans Hill
R2 Chemical reaction Engineering O levenspielJ. Wiley & sons
R3 Chemical Engineering Hand book Peiry, McGrans Hill
R4 Outline Chemical Technology M GopalRao&M Sitting 3/E East West 1973
COURSE PRE-REQUISITES:
C.CODE COURSE NAME DESCRIPTION SEM
AI 010
705
Industrial
Instrumentation-II
To understand the different
meters in the industry
S7
AI 010
603
Industrial
Instrumentation-I
To know the use of different
instrument in the industry
S6
COURSE OBJECTIVES:
1 To give a basic knowledge about unit operations
2 To provide exposure to the process and instrumentation applications in different industries
COURSE OUTCOMES:
SNO DESCRIPTION PO
MAPPING
1 Graduates will be able to understand the basic principles and concepts of commonly used unit operations in the process industry.
c, d, e, g, j,
k, l, m
2 Graduates will be able to Analyze the overall instrumentation in a food industry.
d, e, i, j, k,
l, m
3 Graduates will be able to model the overall instrumentation systems used in iron and steel industry.
c, d, e, k
4 Graduates will be able to get a general idea about paper and nuclear industry.
e, i, j, k, l,
m
5 Graduates will be able to design multidisciplinary instrumentation
systems used in pharmaceutical industry
c, d, i, j, k,
l, m
GAPS IN THE SYLLABUS - TO MEET INDUSTRY/PROFESSION REQUIREMENTS:
SNO DESCRIPTION PROPOSED
ACTIONS
1 P & I diagrams basics Assignments PROPOSED ACTIONS: TOPICS BEYOND SYLLABUS/ASSIGNMENT/INDUSTRY VISIT/GUEST LECTURER/NPTEL ETC
TOPICS BEYOND SYLLABUS/ADVANCED TOPICS/DESIGN:
1 PLC and SCADA Exercises
AI010 802 INSTRUMENTATION IN PROCESS INDUSTRIES S8AEI
COURSE HANDOUT: S8 Page 20
WEB SOURCE REFERENCES:
1 http://www.gobookee.org/search.php?q=instrumentation+in+processing+industrie
s+liptak
2 http://nptel.iitm.ac.in/syllabus/syllabus_pdf/103105064.pdf
DELIVERY/INSTRUCTIONAL METHODOLOGIES:
☐ CHALK & TALK ☐ STUD. ASSIGNMENT ☐ WEB RESOURCES
☐ LCD/SMART
BOARDS
☐ STUD. SEMINARS ☐ ADD-ON COURSES
ASSESSMENT METHODOLOGIES-DIRECT
☐ ASSIGNMENTS ☐ STUD.
SEMINARS
☐ TESTS/MODEL
EXAMS
☐ UNIV.
EXAMINATION
☐ STUD. LAB
PRACTICES
☐ STUD. VIVA ☐ MINI/MAJOR
PROJECTS
☐ CERTIFICATIONS
☐ ADD-ON
COURSES
☐ OTHERS
ASSESSMENT METHODOLOGIES-INDIRECT
☐ ASSESSMENT OF COURSE OUTCOMES (BY
FEEDBACK, ONCE)
☐ STUDENT FEEDBACK ON FACULTY
(TWICE)
☐ ASSESSMENT OF MINI/MAJOR PROJECTS
BY EXT. EXPERTS
☐ OTHERS
Prepared by Approved by
Ms. Priya S. Ms. Liza Annie Joseph
(Faculty) (HOD)
AI010 802 INSTRUMENTATION IN PROCESS INDUSTRIES S8AEI
COURSE HANDOUT: S8 Page 21
COURSE PLAN
Module 1
Module 2
Sl. No. Topic No. of lecture hours Reference Books
1 Introduction 1
1. George Stephenopoulos:
Chemical Process Control,.
2. Instrumentation in the
Processing Industries ,Bela
G Liptak (ed.), Chilton Book
Company .
3. Unit operation in chemical
Engg. McCabe Smith 4/e
McgrawsHill
2
Basic concepts and principles of
commonly used unit operations –
Reactors – batch reactors –distillation
towers
2
3 Refrigeration units – steam boilers –
furnaces 1
4 Dryers – crystallizers – centrifuges –
heat exchangers 2
5 Pumps – compressors – evaporators 2
6 Extruders 1
Total hours : 9
Sl. No. Topic No. of lecture hours Reference Books
1 Description of the process in the food
industries 1
1. Instrumentation in the
Processing Industries , Bela
G Liptak (ed.), Chilton Book
Company
2. Unit operation in chemical
Engg. McCabe Smith 4/e
Mcgraws Hill
2 Measurement hardware in the food
industries 2
3 Analyzers in the food industry 1
4 Valves and feeders in the food industry 2
5 Controllers and displays in the food
industry 1
6 Computer applications in the food
industry 1
AI010 802 INSTRUMENTATION IN PROCESS INDUSTRIES S8AEI
COURSE HANDOUT: S8 Page 22
Module 3
Module 4
7 Typical control systems in the food
industry 1
Total hours : 9
Sl. No. Topic No. of lecture hours Reference Books
1 Description of the process in the iron
and steel industry 1
1. Instrumentation in the
Processing Industries , Bela
G Liptak (ed.), Chilton Book
Company
2. Unit operation in chemical
Engg. McCabe Smith 4/e
Mcgraws Hill
2 Measurement hardware -analyzers –
valves in the iron and steel industry 2
3 Controllers and displays in the iron
and steel industry 2
4 Computer applications in the iron and
steel industry 2
5 Typical control systems in the iron and
steel industry 1
Total hours : 8
Sl. No. Topic No. of lecture hours Reference Books
1 Description of the process in food
industry 1
1. Instrumentation in the
Processing Industries , Bela
G Liptak (ed.), Chilton Book
Company
2. Unit operation in chemical
Engg. McCabe Smith 4/e
Mcgraws Hill
2 Measurement hardware in the Paper
industry 1
3 Analyzers in the Paper industry –
Valves and feeders in the Paper
industry 1
4 Controllers and displays in the Paper
industry 1
5 Computer applications in the Paper 1
AI010 802 INSTRUMENTATION IN PROCESS INDUSTRIES S8AEI
COURSE HANDOUT: S8 Page 23
Module 5
industry
6 Typical control systems in the Paper
industry. 1
7 Description of the process in the
Nuclear industry 1
8 Measurement hardware in the nuclear
industry 1
9 Analyzers Valves and control in the
nuclear industry 1
10 Control panels and displays –
Computer applications. Typical
control system 1
Total hours : 10
Sl. No. Topic No. of lecture hours Reference Books
1 Description of the process in the
pharmaceutical industry 1
1. Instrumentation in the
Processing Industries , Bela
G Liptak (ed.), Chilton Book
Company
2. Unit operation in chemical
Engg. McCabe Smith 4/e
Mcgraws Hill
2 Measurement hardware in the
pharmaceutical industry 2
3 Analyzers in the pharmaceutical
industry Valves and feeders in the
pharmaceutical industry
1
4 Controllers and displays in the
pharmaceutical industry 1
5 Computer applications in the
pharmaceutical industry 1
6 Typical control systems in the
Pharmaceutical industry 2
Total hours : 8
AI010 803 COMPUTER NETWORKS S8AEI
COURSE HANDOUT: S8 Page 24
COURSE INFORMATION SHEET
PROGRAMME: APPLIED ELECTRONICS &
INSTRUMENTATION
DEGREE: BTECH
COURSE: : COMPUTER NETWORKS SEMESTER: 8 CREDITS: 4
COURSE CODE: AI010 803
REGULATION: 2010
COURSE TYPE: CORE
COURSE AREA/DOMAIN:COMPUTER
SCIENCE
CONTACT HOURS: 3+1 (Tutorial)
hours/Week.
CORRESPONDING LAB COURSE CODE (IF
ANY): NIL
LAB COURSE NAME:NA
SYLLABUS:
UNIT DETAILS HOURS
I Network requirements, Network Architecture –layering and protocol, OSI
Architecture, Internet Architecture, Performance-bandwidth and latency ,
Delay x bandwidth product, high speed networks .
8
II Direct Link Network, Hardware Building Block, Framing-Byte Oriented
Protocol, Bit Oriented Protocol , Clock Based Framing, Reliable
Transmission-Stop and Wait, Sliding Window, Ethernet(802.3)-Physical
properties, Access protocol, Wireless-Bluetooth, WiFi, Wimax
9
III Packet Switching-Switching and Forwarding- Datagram, virtual circuit switching, Source routing Bridges and LAN Switches-Learning Bridges, Spanning tree Algorithms, Broadcast and Multicast, Limitations of bridges, Simple Internetworking-Service Model, Global Address, Datagram Forwarding in IP, address translation, Routing-network as graph, distance vector, link state, matrix
10
IV End to End Protocol, Simple de-multiplexer, Reliable Byte stream, TCP-Issues, segment format, connection establishment and termination sliding window revisited, triggering transmission, adaptive retransmission, RPC-fundamentals ,TCP Congestion control – additive increase, slow start, fast retransmit and fast recovery, congestion avoidance mechanism, DEC bit, Random Early Detection bit, Source Based Congestion avoidance
13
V Applications -WWW, E-mail, Name Service, Network Management, Web Services Custom Application protocol, Generic Application Protocol ,Overlay Networks-Peer to Peer Networks.
5
TOTAL HOURS 45
TEXT/REFERENCE BOOKS:
T/R BOOK TITLE/AUTHORS/PUBLICATION
R1 Computer Networks: Andrew S Tannenbaum, Pearson Education.
R2 Computer Networking: A Top Down Approach: Kurose Pearson Education.
R3 Local Area Networks: William Stallings, Pearson Education.
R4 Understanding Data Communication and networks- 2nd ed-William A Shay (Vikas
AI010 803 COMPUTER NETWORKS S8AEI
COURSE HANDOUT: S8 Page 25
Thomson Learning) R5 An Engineering Approach to Computer Networking: Keshav, Pearson Education.
COURSE PRE-REQUISITES:
C.CODE COURSE NAME DESCRIPTION SEM
EN 010
109
Basic Electronics
Engineering &
Information Technology
Concepts of Networking-Network
Topologies-WAN-LAN-MAN,
Protocol-Internet-working
concept, Internet Architecture, IP
addresses, Routing, Domain Name
System(Basic concepts only)
S1S2
COURSE OBJECTIVES:
1 To develop basic knowledge on the mode of operation of different types of computer networks those are used to interconnect a distributed community of computers and various interfacing standards and protocols.
COURSE OUTCOMES:
SNO DESCRIPTION PO
MAPPING
1 Enable students to understand the computer network layered model and it’s importance. Understanding the concepts of computer networks in wired and wireless technologies and to succeed into the industry recruitments in the field of computer networks
c, d, e, g, j,
m
2 Analyze the different layers in detail d, e, i, j, l,
m
3 Have a basic knowledge of the use of cryptography and WAP k
4 Develop familiarity for networking and security problems, technical issues, and routing
e, i, j, m
5 The student’s seminars organized from some of the topics in the application programs and protocols to increase the presentation skills and enhance the communication skills, confidence and self learning
a, d, i, j, m
GAPS IN THE SYLLABUS - TO MEET INDUSTRY/PROFESSION REQUIREMENTS:
SNO DESCRIPTION PROPOSED
ACTIONS
1 Network Simulator Tool Discussion
PROPOSED ACTIONS: TOPICS BEYOND SYLLABUS/ASSIGNMENT/INDUSTRY VISIT/GUEST LECTURER/NPTEL ETC
TOPICS BEYOND SYLLABUS/ADVANCED TOPICS/DESIGN:
1 Routing algorithms
WEB SOURCE REFERENCES:
1 http://www.isi.edu/nsnam/ns/tutorial/
AI010 803 COMPUTER NETWORKS S8AEI
COURSE HANDOUT: S8 Page 26
2 http://nptel.iitm.ac.in
DELIVERY/INSTRUCTIONAL METHODOLOGIES:
☐ CHALK & TALK ☐ STUD. ASSIGNMENT ☐ WEB RESOURCES
☐ LCD/SMART
BOARDS
☐ STUD. SEMINARS ☐ ADD-ON COURSES
ASSESSMENT METHODOLOGIES-DIRECT
☐ ASSIGNMENTS ☐ STUD.
SEMINARS
☐ TESTS/MODEL
EXAMS
☐ UNIV.
EXAMINATION
☐ STUD. LAB
PRACTICES
☐ STUD. VIVA ☐ MINI/MAJOR
PROJECTS
☐ CERTIFICATIONS
☐ ADD-ON
COURSES
☐ OTHERS
ASSESSMENT METHODOLOGIES-INDIRECT
☐ ASSESSMENT OF COURSE OUTCOMES (BY
FEEDBACK, ONCE)
☐ STUDENT FEEDBACK ON FACULTY
(TWICE)
☐ ASSESSMENT OF MINI/MAJOR PROJECTS
BY EXT. EXPERTS
☐ OTHERS
Prepared by Approved by
Ms. Liza Annie Joseph Ms. Liza Annie Joseph
(Faculty) (HOD)
AI010 803 COMPUTER NETWORKS S8AEI
COURSE HANDOUT: S8 Page 27
COURSE PLAN
Module 1
Module 2
Sl. No. Topic No. of lecture hours Reference Books
1 Network requirements 1
1. Computer Networks A
Systems Approach-Larry L.
Peterson and Bruce S.
Davie,4th Edition.
2. Introduction to data
communication and
networking, Behrouz
Forozan TMH.
3. Computer networks,
Andrew S Tanenbaum, PHI
2 Network Architecture 1
3 layering and protocol 1
4 OSI Architecture 1
5 Internet Architecture 1
6 Performance-bandwidth and latency 1
7 Delay x bandwidth product 1
8 high speed networks 1
Total hours : 8
Sl. No. Topic No. of lecture hours Reference Books
1 Direct Link Network 1
1. Computer Networks A
Systems Approach-Larry L.
Peterson and Bruce S.
Davie,4th Edition.
2. Introduction to data
communication and
networking, Behrouz
Forozan TMH.
3. Computer networks,
Andrew S Tanenbaum, PHI
2 Hardware Building Block 1
3 Framing-Byte Oriented Protocol 1
4 Bit Oriented Protocol 1
5 Clock Based Framing 1
6 Reliable Transmission-Stop and Wait 1
7 Sliding Window 1
8 Ethernet(802.3)-Physical properties,
Access protocol 1
AI010 803 COMPUTER NETWORKS S8AEI
COURSE HANDOUT: S8 Page 28
Module 3
Module 4
9 Wireless-Bluetooth, WiFi, WiMAX 1
Total hours : 9
Sl. No. Topic No. of lecture hours Reference Books
1 Packet Switching-Switching and
Forwarding 1
1. Computer Networks A
Systems Approach-Larry L.
Peterson and Bruce S.
Davie,4th Edition.
2. Introduction to data
communication and
networking, Behrouz
Forozan TMH.
3. Computer networks,
Andrew S Tanenbaum, PHI
2 Datagram, virtual circuit switching 1
3 Source routing Bridges and LAN
Switches-Learning Bridges 1
4 Spanning tree Algorithms 1
5 Broadcast and Multicast 1
6 Limitations of bridges, Simple
Internetworking-Service Model 1
7 Global Address 1
8 Datagram Forwarding in IP 1
9 address translation 1
10 Routing-network as graph, distance
vector, link state, matrix 1
Total hours : 10
Sl. No. Topic No. of lecture hours Reference Books
1 End to End Protocol, Simple de-
multiplexer 2
1. Computer Networks A
Systems Approach-Larry L.
Peterson and Bruce S.
Davie, 4th Edition.
2. Introduction to data
communication and
2 Reliable Byte stream, TCP-Issues 2
3 segment format, connection
2
AI010 803 COMPUTER NETWORKS S8AEI
COURSE HANDOUT: S8 Page 29
Module 5
establishment and termination sliding
window revisited
networking, Behrouz
Forozan TMH.
3. Computer networks,
Andrew S Tanenbaum, PHI 4 triggering transmission, adaptive
retransmission 2
5 RPC-fundamentals, TCP Congestion
control, additive increase 3
6 congestion avoidance mechanism,
DEC bit, Random Early Detection bit,
Source Based Congestion avoidance
2
Total hours : 13
Sl. No. Topic No. of lecture hours Reference Books
1 Applications -WWW 1 1. Computer Networks A
Systems Approach-Larry L.
Peterson and Bruce S.
Davie, 4th Edition.
2. Introduction to data
communication and
networking, Behrouz
Forozan TMH.
3. Computer networks,
Andrew S Tanenbaum, PHI
2 E-mail, Name Service 1
3 Network Management, Web Services
Custom Application protocol 1
4 Generic Application Protocol 1
5 Overlay Networks-Peer to Peer
Networks 1
Total hours : 5
AI010 804 L01 NEURAL NETWORKS S8AEI
COURSE HANDOUT: S8 Page 30
COURSE INFORMATION SHEET
PROGRAMME: APPLIED ELECTRONICS &
INSTRUMENTATION
DEGREE: BTECH
COURSE: NEURAL NETWORKS SEMESTER: 8 CREDITS: 4
COURSE CODE: AI010 804L01
REGULATION: 2010
COURSE TYPE: ELECTIVE
COURSE AREA/DOMAIN:SELF LEARNING
SYSTEMS
CONTACT HOURS: 2+2 (Tutorial)
hours/Week.
CORRESPONDING LAB COURSE CODE (IF
ANY): NIL
LAB COURSE NAME:NA
SYLLABUS:
UNIT DETAILS HOURS
I Fundamentals of Neural Networks – Human Brain – Model of an artificial neuron - activation functions – Typical architectures – Training and learning methods – Perceptron - Linear separability – XOR problem- Perceptron convergence theorem - Adaline and Madaline Network – Applications of ANNs.
9
II Back Propagation – The Single layer ANNs – Multi layered feed forward
ANNs – Back propagation network architecture and algorithm – Method
of steepest descent – local and global minima - Effect of learning rate –
Adding a momentum term - Applications.
9
III Associative Memory – Auto associative memory – Storage capacity- Hetero associative memory – Kosko’s discrete BAM –- Recurrent networks – Discrete Hopfield network stability - Adaptive resonance theory – Vector quantization – ART1 and ART2 architecture.
9
IV Competitive Networks – Kohonen’sself organizing maps – architecture and algorithm – LVQ – architecture and algorithm - Counter Propagation networks: - Full CPN – Forward only CPN.
9
V Simulated Annealing - Boltzmann’s Machine - Applications to traveling salesman problem. Simulating ANN using Matlab/Labview – Simple neuron model using hardware, Neural network hardware and VLSI implementation.
9
TOTAL HOURS 45
TEXT/REFERENCE BOOKS:
T/R BOOK TITLE/AUTHORS/PUBLICATION
T1 Neural Networks, Fuzzy Logic and Genetic Algorithms: Synthesis and Applications - S.
Rajasekaran, G. A. VijayalakshmiPai, PHI Learning Pvt. Ltd.
T2 Fundamentals of Neural Networks: Architectures, Algorithms and Applications LaureneFausett, Pearson Education Inc.
T3 1. Neural Networks: A Classroom Approach – Satish Kumar, TMH Education Pvt. Ltd.
R1 Neural Networks: A Comprehensive Foundation- Simon Haykins, Prentice Hall
AI010 804 L01 NEURAL NETWORKS S8AEI
COURSE HANDOUT: S8 Page 31
R2 Introduction to Artificial Neural Systems - J.M. Zurada, Jaico Publishing House
R3 ArtificialNeuralNetworks-RobertJ.Schalkoff, McGrawHill
R4 ArtificialNeuralNetworks - B.Yegnanarayana, Prentice Hall India
R5 Neural Computing: Theory & Practice - Philip D. Wasserman.
COURSE PRE-REQUISITES:
C.CODE COURSE NAME DESCRIPTION SEM
EN 010
101
Engineering
Mathematics I
Basic Knowledge of Vectors,
Matrices and Vector Spaces
S1S2
COURSE OBJECTIVES:
1 Students will learn the theory of Artificial Neural Networks and its applications to
Engineering Problems
2 Students will learn about the various different architectures of artificial neural
networks
COURSE OUTCOMES:
SNO DESCRIPTION PO
MAPPING
1 Students will have knowledge about the fundamental features and
functions of ANNs
a, b, e
2 Students will acquire knowledge about BackPropagationNetworks and
its applications.
a, b, e, k
3 Students will acquire knowledge on Associative Memory Models a, b, e, k
4 Students will acquire knowledge on various types of Competitive, SOM,
CPN Networks.
a, b, e, k
5 Students will acquire knowledge on statistical machines, use Matlab,
Labview for Artificial Neuron representation.
a, b, e, k
GAPS IN THE SYLLABUS - TO MEET INDUSTRY/PROFESSION REQUIREMENTS:
SNO DESCRIPTION PROPOSED
ACTIONS
1 Matlab programs Demos will
be added PROPOSED ACTIONS: TOPICS BEYOND SYLLABUS/ASSIGNMENT/INDUSTRY VISIT/GUEST LECTURER/NPTEL ETC
TOPICS BEYOND SYLLABUS/ADVANCED TOPICS/DESIGN:
1 Matlab demonstrations of various ANN models
2 Video demonstrations on application examples of ANNs
AI010 804 L01 NEURAL NETWORKS S8AEI
COURSE HANDOUT: S8 Page 32
WEB SOURCE REFERENCES:
1 http://nptel.iitm.ac.in/video.php?subjectId=117105084
2 http://www-cs-faculty.stanford.edu/~eroberts/courses/soco/projects/neural-
networks/Sources/index.html
3 http://cns-web.bu.edu/ (Department of Cognitive and Neural Systems,
BostonUniversity)
4 http://ocw.mit.edu/courses/brain-and-cognitive-sciences/9-641j-introduction-to-
neural-networks-spring-2005/index.htm
DELIVERY/INSTRUCTIONAL METHODOLOGIES:
☐ CHALK & TALK ☐ STUD. ASSIGNMENT ☐ WEB RESOURCES
☐ LCD/SMART
BOARDS
☐ STUD. SEMINARS ☐ ADD-ON COURSES
ASSESSMENT METHODOLOGIES-DIRECT
☐ ASSIGNMENTS ☐ STUD.
SEMINARS
☐ TESTS/MODEL
EXAMS
☐ UNIV.
EXAMINATION
☐ STUD. LAB
PRACTICES
☐ STUD. VIVA ☐ MINI/MAJOR
PROJECTS
☐ CERTIFICATIONS
☐ ADD-ON
COURSES
☐ OTHERS
ASSESSMENT METHODOLOGIES-INDIRECT
☐ ASSESSMENT OF COURSE OUTCOMES (BY
FEEDBACK, ONCE)
☐ STUDENT FEEDBACK ON FACULTY
(TWICE)
☐ ASSESSMENT OF MINI/MAJOR PROJECTS
BY EXT. EXPERTS
☐ OTHERS
Prepared by Approved by
Mr. Anish T. Ms. Liza Annie Joseph
(Faculty) (HOD)
AI010 804 L01 NEURAL NETWORKS S8AEI
COURSE HANDOUT: S8 Page 33
COURSE PLAN
Module 1
Module 2
Sl. No. Topic No. of lecture hours Reference Books
1 Fundamentals of Neural Network 1 1. Neural Networks, Fuzzy
Logic and Genetic
Algorithms: Synthesis and
applications - S.
Rajasekaran, G. A.
Vijayalakshmi Pai, PHI
Learning Pvt. Ltd.
2. Neural Networks: A
Comprehensive Foundation
- Simon Haykins, Prentice
Hall
3. Fundamentals of Neural
Networks: Architectures,
Algorithms and Applications
- Laurene Fausett, Pearson
Education Inc.
2 Human Brain – Model of an artificial neuron - activation functions
1
3 Activation functions 1
4 Typical architectures 1
5 Training and learning methods – Perceptron
1
6 Linear separability – XOR problem
1
7 Perceptron convergence theorem 1
8 Adaline and Madaline Network 1
9 Applications of ANNs
1
Total hours : 9
Sl. No. Topic No. of lecture hours Reference Books
1 Back Propagation - The Single layer ANN
2
1. Neural Networks, Fuzzy
Logic and Genetic
Algorithms: Synthesis and
applications - S.
Rajasekaran, G. A.
Vijayalakshmi Pai, PHI
Learning Pvt. Ltd.
2. Neural Networks: A
Comprehensive Foundation
- Simon Haykins, Prentice
Hall
2 Multi layered feed forward ANNs 1
3 Back propagation network architecture and algorithm
1
4 Method of steepest descent 1
5 local and global minima 1
6 Effect of learning rate
1
7 Adding a momentum term - Applications
2
Total hours : 9
AI010 804 L01 NEURAL NETWORKS S8AEI
COURSE HANDOUT: S8 Page 34
Module 3
Module 4
Sl. No. Topic No. of lecture hours Reference Books
1 Associative Memory – Auto associative
memory 1
1. Neural Networks, Fuzzy
Logic and Genetic
Algorithms: Synthesis and
applications - S.
Rajasekaran, G. A.
Vijayalakshmi Pai, PHI
Learning Pvt. Ltd.
2. Fundamentals of Neural
Networks: Architectures,
Algorithms and Applications
- Laurene Fausett, Pearson
Education Inc.
2 Storage capacity- Hetero associative
memory 1
3 Kosko’s discrete BAM 1
4 Recurrent networks 1
5 Discrete Hopfield network stability 2
6 Adaptive resonance theory 1
7 Vector quantization – ART1 and ART2 architecture.
2
Total hours : 9
Sl. No. Topic No. of lecture hours Reference Books
1 Competitive Networks 1 1. Neural Networks, Fuzzy
Logic and Genetic
Algorithms: Synthesis and
applications - S.
Rajasekaran, G. A.
Vijayalakshmi Pai, PHI
Learning Pvt. Ltd.
2. Neural Networks: A
Comprehensive Foundation
- Simon Haykins, Prentice
Hall
2 Kohonen’s self organizing maps 2
3 architecture and algorithm – LVQ 2
4 Counter Propagation networks: - Full CPN
2
5 Forward only CPN. 2
Total hours :9
AI010 804 L01 NEURAL NETWORKS S8AEI
COURSE HANDOUT: S8 Page 35
Module 5
Sl. No. Topic No. of lecture hours Reference Books
1 Simulated Annealing 1
1. Neural Networks, Fuzzy
Logic and Genetic
Algorithms: Synthesis and
applications - S.
Rajasekaran, G. A.
Vijayalakshmi Pai, PHI
Learning Pvt. Ltd.
2. Neural Networks: A
Comprehensive Foundation
- Simon Haykins, Prentice
Hall.
2 Boltzmann’s Machine 1
3 Applications to travelling salesman
problem. 2
4 Simulating ANN using Matlab/Labview 2
5 Simple neuron model using hardware 1
6 Neural network hardware and VLSI
implementation 2
Total hours : 9
AI010 804 L04 ARTIFICIAL INTELLIGENCE S8AEI
COURSE HANDOUT: S8 Page 36
COURSE INFORMATION SHEET
PROGRAMME: APPLIED ELECTRONICS &
INSTRUMENTATION
DEGREE: BTECH
COURSE: : ARTIFICIAL INTELLIGENCE SEMESTER: 8 CREDITS: 4
COURSE CODE: AI010 804 L04
REGULATION: 2010
COURSE TYPE: ELECTIVE
COURSE AREA/DOMAIN: MACHINE
LEARNING
CONTACT HOURS: 2+2 (Tutorial)
hours/Week.
CORRESPONDING LAB COURSE CODE (IF
ANY): NIL
LAB COURSE NAME:NA
SYLLABUS:
UNIT DETAILS HOURS
I Introduction to AI: Intelligent agents – Perception – Natural language processing Problem – Solving agents – Searching for solutions: Uniformed search strategies – Informed search strategies.
9
II Adversarial search – Optimal and imperfect decisions – Alpha, Beta
pruning – Logical agents: Propositional logic – First order logic – Syntax
and semantics – Using first order logic – Inference in first order logic.
9
III Uncertainty – Acting under uncertainty – Basic probability notation – Axioms of probability – Baye’s rule – Probabilistic reasoning – Making simple decisions.
9
IV Planning: Planning problem – Partial order planning – Planning and acting in non deterministic domains – Learning: Learning decision trees – Knowledge in learning –Neural networks – Reinforcement learning – Passive and active.
9
V Definition – Features of an expert system – Organization – Characteristics – Prospector. Knowledge Representation in expert systems – Expert system tools – MYCIN – EMYCIN.
9
TOTAL HOURS 45
TEXT/REFERENCE BOOKS:
T/R BOOK TITLE/AUTHORS/PUBLICATION
T1 Stuart Russel and Peter Norvig, ‘Artificial Intelligence - A Modern Approach’, Second Edition, Pearson Education, 2003 / PHI.
T2 Donald A. Waterman, ‘A Guide to Expert Systems’, Pearson Education.
R1 George F. Luger, ‘Artificial Intelligence – Structures and Strategies for Complex Problem Solving’, Fourth Edition, Pearson Education, 2002.
R2 Elain Rich and Kevin Knight, ‘Artificial Intelligence’, Second Edition Tata McGraw Hill, 1995.
R3 W. Patterson, ‘Introduction to Artificial Intelligence and Expert Systems’, Prentice Hall of India, 2003.
AI010 804 L04 ARTIFICIAL INTELLIGENCE S8AEI
COURSE HANDOUT: S8 Page 37
COURSE PRE-REQUISITES:
C.CODE COURSE NAME DESCRIPTION SEM
EN010
401
Engineering Mathematics III
Statistics and probability
distribution
S4
COURSE OBJECTIVES:
1 To study the idea of intelligent agents and search methods.
2 To study about representing knowledge.
3 To study the reasoning and decision making in uncertain world.
4 To construct plans and methods for generating knowledge.
5 To study the concepts of expert systems.
COURSE OUTCOMES:
SNO DESCRIPTION PO
MAPPING
1 Graduates will be able to understand the basics of Artificial intelligence a, b, i
2 Graduates will be able to apply the knowledge of AI to controller system b, m
3 Graduates will be able to apply the knowledge of AI to instrument data analysis
e, h, i
4 Graduates will be able to apply the knowledge of AI to built intelligence
systems h
5 Graduates will be able to apply the knowledge of AI to higher studies m
GAPS IN THE SYLLABUS - TO MEET INDUSTRY/PROFESSION REQUIREMENTS:
SNO DESCRIPTION PROPOSED
ACTIONS
1 Evolutionary algorithms Extra class
2 K -means clustering algorithms Extra class PROPOSED ACTIONS: TOPICS BEYOND SYLLABUS/ASSIGNMENT/INDUSTRY VISIT/GUEST LECTURER/NPTEL ETC
TOPICS BEYOND SYLLABUS/ADVANCED TOPICS/DESIGN:
1 Interactive Tools for Learning Artificial Intelligence
WEB SOURCE REFERENCES:
1 http://www.aihorizon.com/resources/links.htm
2 http://codesters.org/resource/topic/artificial-intelligence/
3 www.nptel.iitm.ac.in/.../Artificial%20intelligence/New_index1.html
DELIVERY/INSTRUCTIONAL METHODOLOGIES:
☐ CHALK & TALK ☐ STUD. ASSIGNMENT ☐ WEB RESOURCES
☐ LCD/SMART
BOARDS
☐ STUD. SEMINARS ☐ ADD-ON COURSES
AI010 804 L04 ARTIFICIAL INTELLIGENCE S8AEI
COURSE HANDOUT: S8 Page 38
ASSESSMENT METHODOLOGIES-DIRECT
☐ ASSIGNMENTS ☐ STUD.
SEMINARS
☐ TESTS/MODEL
EXAMS
☐ UNIV.
EXAMINATION
☐ STUD. LAB
PRACTICES
☐ STUD. VIVA ☐ MINI/MAJOR
PROJECTS
☐ CERTIFICATIONS
☐ ADD-ON
COURSES
☐ OTHERS
ASSESSMENT METHODOLOGIES-INDIRECT
☐ ASSESSMENT OF COURSE OUTCOMES (BY
FEEDBACK, ONCE)
☐ STUDENT FEEDBACK ON FACULTY
(TWICE)
☐ ASSESSMENT OF MINI/MAJOR PROJECTS
BY EXT. EXPERTS
☐ OTHERS
Prepared by Approved by
Mr. Krishna Kumar K. P. Ms. Liza Annie Joseph
(Faculty) (HOD)
AI010 804 L04 ARTIFICIAL INTELLIGENCE S8AEI
COURSE HANDOUT: S8 Page 39
COURSE PLAN
Module 1
Module 2
Module 3
Sl. No. Topic No. of lecture hours Reference Books
1 Introduction to AI: Intelligent agents 2 1. Stuart Russel and Peter
Norvig, ‘Artificial
Intelligence - A Modern
Approach’, Second Edition,
Pearson Education, 2003 /
PHI.
2. Donald A. Waterman, ‘A
Guide to Expert Systems’,
Pearson Education.
2 Perception
1
3 Natural language processing 1
4 Problem Solving agents 1
5 Searching for solutions: Uniformed search strategies
2
Total hours : 9
Sl. No. Topic No. of lecture hours Reference Books
1 Adversarial search
1
1. Stuart Russel and Peter
Norvig, ‘Artificial
Intelligence - A Modern
Approach’, Second Edition,
Pearson Education, 2003 /
PHI.
2. Donald A. Waterman, ‘A
Guide to Expert Systems’,
Pearson Education.
2 Optimal and imperfect decisions 1
3 Alpha, Beta pruning 1
4 Logical agents: Propositional logic 2
5 First order logic 1
6 Syntax and semantics 1
7 Using first order logic, Inference in first order logic
2
Total hours : 9
Sl. No. Topic No. of lecture hours Reference Books
1 Uncertainty 1 1. Stuart Russel and Peter
Norvig, ‘Artificial
Intelligence - A Modern 2 Acting under uncertainty 1
AI010 804 L04 ARTIFICIAL INTELLIGENCE S8AEI
COURSE HANDOUT: S8 Page 40
Module 4
Module 5
3 Basic probability notation 1 Approach’, Second Edition,
Pearson Education, 2003 /
PHI.
2. Donald A. Waterman, ‘A
Guide to Expert Systems’,
Pearson Education.
4 Axioms of probability 1
5 Baye’s rule 2
6 Probabilistic reasoning 1
7 Making simple decisions 2
Total hours : 9
Sl. No. Topic No. of lecture hours Reference Books
1 Planning: Planning problem 1 1. Stuart Russel and Peter
Norvig, ‘Artificial
Intelligence - A Modern
Approach’, Second Edition,
Pearson Education, 2003 /
PHI.
2. Donald A. Waterman, ‘A
Guide to Expert Systems’,
Pearson Education.
2 Partial order planning – Planning and
acting in nondeterministic domains 2
3 Learning: Learning decision trees 2
4 Knowledge in learning –Neural networks
2
5 Reinforcement learning – Passive and active
2
Total hours :9
Sl. No. Topic No. of lecture hours Reference Books
1 Definition – Features of an expert
system 2 1. Stuart Russel and Peter
Norvig, ‘Artificial
Intelligence - A Modern
Approach’, Second Edition,
Pearson Education, 2003 /
PHI.
2. Donald A. Waterman, ‘A
Guide to Expert Systems’,
Pearson Education.
2 Organization – Characteristics 2
3 Prospector – Knowledge
Representation in expert systems 2
4 Expert system tools – MYCIN –
EMYCIN 3
Total hours : 9
AI010 805 G05 INDUSTRIAL POLLUTION CONTROL S8AEI
COURSE HANDOUT: S8 Page 41
COURSE INFORMATION SHEET
PROGRAMME: APPLIED ELECTRONICS &
INSTRUMENTATION
DEGREE: BTECH
COURSE: : INDUSTRIAL POLLUTION
CONTROL
SEMESTER: 8 CREDITS: 4
COURSE CODE: AI010 805 G05
REGULATION: 2010
COURSE TYPE: ELECTIVE
COURSE AREA/DOMAIN: CONTACT HOURS: 2+2 (Tutorial)
hours/Week.
CORRESPONDING LAB COURSE CODE (IF
ANY): NIL
LAB COURSE NAME:NA
SYLLABUS:
UNIT DETAILS HOURS
I Concept of ecosystem: Structure and function of an ecosystem, producers, consumers and decomposers, energy flow in ecosystem, ecological succession, food chains and ecological pyramids, biodiversity and its conservation. Introductory lessons on environmental pollution: Types of pollution: soil – water – air – causes - types of emissions from chemical industries - effects on environment - greenhouse gases and global warming – climate change - acid rain - ozone layer depletion - nuclear accidents and holocaust.
10
II Mathematics of Growth: Concern about future – models of population
growth – exponential growth – logistic growth – logistic human
population curve. Natural resources: renewable and non-renewable
resources - resource consumption - depletion of nonrenewable energy
sources - Concept of sustainable development.
10
III Social issues and the environment: population and pollution - consumerism and waste products - environmental ethics - social cost of pollution - ‘polluter pays principle’ and its relevance. Water pollution: Water resources- properties of water: density, melting point, boiling point, specific heat, dissolved oxygen; water as a solvent, the hydrogen cycle. Water pollutants: pathogens, oxygen demanding wastes, nutrients, salts, thermal pollutants, heavy metals, pesticides, volatile organic compounds. Air pollution: Overview of emissions– criteria pollutants – toxic air pollutants –motor vehicle emission – basic ideas of influence of air pollution on meteorology - comparison of air pollution in major cities. The carbon cycle: Importance of CO2 in climate change – green house effect and global energy balance.
10
IV Pollution monitoring: Pollution monitoring devices: paper tape sampler - bubbler systems - gas analysers. Basics of methods of measuring pollution: principle of sampling air /water/soil for pollution measurement; ambient air sampling: collection of gaseous air pollutants, collection of particulate air
8
AI010 805 G05 INDUSTRIAL POLLUTION CONTROL S8AEI
COURSE HANDOUT: S8 Page 42
pollutants; stack sampling: sampling system, particulate sampling, and gaseous sampling. Analysis of air pollutants: sulphur dioxide, nitrogen oxides, carbon monoxide, oxidants and ozone, hydrocarbons, particulate matter.
V Principles and simple methods of pollution abatement and control: Concepts of solid waste management: source reduction – recycling – disposal. Concepts of waste water treatment methods: physical treatments – biological treatments - reuse and recycle of water and waste water. Environmental impact assessment of large scale projects. Legislation and standards for Air, Water and Soil pollution – international nature of pollution and the need for international rules and regulations - air quality regulations – clean air act.
7
TOTAL HOURS 45
TEXT/REFERENCE BOOKS:
T/R BOOK TITLE/AUTHORS/PUBLICATION
T1 R. Rajagopalan, Environmental Studies, Oxford IBH Pub.
T2 Benny Joseph, Environmental Studies, McGraw Hill Pub.
T3 ErachBharucha, Text Book for Environmental Studies, Pub., UGC.
T4 Masters, Gilbert M. Introduction to Environmental Engineering and Sciences, PHI.
COURSE PRE-REQUISITES:
C.CODE COURSE NAME DESCRIPTION SEM
EN010
401
Engineering Mathematics III
Statistics and probability
distribution
S4
EN010
103
Engineering Chemistry &
Environmental Studies
Basic chemical engineering S1S2
COURSE OBJECTIVES:
1 To generate an awareness among students about the importance of, and need for pollution control.
2 To help the students internalise concern for environment.
COURSE OUTCOMES:
SNO DESCRIPTION PO
MAPPING
1 Students will have a general idea about ecosystem and an introduction to industrial pollution control
c, j
2 Students will learn about environment friendly engineering and the need for sustainable technology, use of renewable sources of energy.
c, j
3 Students will learn the social issues of pollution, like air, water etc, and how they affect the society
c, h, j
4 Students will learn about the pollution monitoring methods and analyze
the intensity of pollution.
b, e
5 Students will learn about the built-in environment, significance of urban
planning
c, h, j
AI010 805 G05 INDUSTRIAL POLLUTION CONTROL S8AEI
COURSE HANDOUT: S8 Page 43
GAPS IN THE SYLLABUS - TO MEET INDUSTRY/PROFESSION REQUIREMENTS:
SNO DESCRIPTION PROPOSED
ACTIONS
1 Rules and regulations existing in IPC Web
reference [1]
2 Pollution control measures and harmful effects of pollutants case studies PROPOSED ACTIONS: TOPICS BEYOND SYLLABUS/ASSIGNMENT/INDUSTRY VISIT/GUEST LECTURER/NPTEL ETC
TOPICS BEYOND SYLLABUS/ADVANCED TOPICS/DESIGN:
1 Case studies about some major pollution effects and how they were tackled.
2 Radioactive pollution
3 Pollution indices and standards
WEB SOURCE REFERENCES:
1 http://cpcb.nic.in/
2 http://water.epa.gov/polwaste/
DELIVERY/INSTRUCTIONAL METHODOLOGIES:
☐ CHALK & TALK ☐ STUD. ASSIGNMENT ☐ WEB RESOURCES
☐ LCD/SMART
BOARDS
☐ STUD. SEMINARS ☐ ADD-ON COURSES
ASSESSMENT METHODOLOGIES-DIRECT
☐ ASSIGNMENTS ☐ STUD.
SEMINARS
☐ TESTS/MODEL
EXAMS
☐ UNIV.
EXAMINATION
☐ STUD. LAB
PRACTICES
☐ STUD. VIVA ☐ MINI/MAJOR
PROJECTS
☐ CERTIFICATIONS
☐ ADD-ON
COURSES
☐ OTHERS
ASSESSMENT METHODOLOGIES-INDIRECT
☐ ASSESSMENT OF COURSE OUTCOMES (BY
FEEDBACK, ONCE)
☐ STUDENT FEEDBACK ON FACULTY
(TWICE)
☐ ASSESSMENT OF MINI/MAJOR PROJECTS
BY EXT. EXPERTS
☐ OTHERS
Prepared by Approved by
Mr.Balu Raveendran Ms. Liza Annie Joseph
(Faculty) (HOD)
AI010 805 G05 INDUSTRIAL POLLUTION CONTROL S8AEI
COURSE HANDOUT: S8 Page 44
COURSE PLAN
Module 1
Module 2
Sl.No. Topic No. of lecture hours Reference Books
1. Introduction 1
1. R. Rajagopalan, Environmental Studies, Oxford IBH Pub.
2. Benny Joseph, Environmental Studies, McGraw Hill Pub.
2. Concept of ecosystem: Structure and function of an ecosystem, producers,
consumers and decomposers 1
3. Energy flow in ecosystem ecological
succession 1
4. Ecological succession 1 5. Food chains and ecological pyramids 1 6. Biodiversity and its conservation 1
7. Environmental pollution: Types of
pollution: soil – water – air – causes 1
8. Greenhouse gases and global warming
- climate change - acid rain 1
9. Ozone layer depletion - nuclear
accidents and holocaust. 1
10. Energy flow in ecosystem ecological
succession 1
Total hours : 10
Sl. No. Topic No. of lecture hours Reference Books
1. Concern about future – models of
population growth 2
1. Erach Bharucha, Text Book for Environmental Studies, Pub, UGC
2. Exponential growth 2
3. Logistic growth 2
4. Logistic human population curve 1
5.
Natural resources: renewable and non-
renewable resources - resource
consumption - depletion of non-
renewable energy sources - Concept of
sustainable development.
3
Total hours : 10
AI010 805 G05 INDUSTRIAL POLLUTION CONTROL S8AEI
COURSE HANDOUT: S8 Page 45
Module 3
Module 4
Sl. No. Topic No. of lecture hours Reference Books
1.
Population and pollution -
consumerism and waste products -
environmental ethics - social cost of
pollution - ‘polluter pays principle’ and
its relevance
1
1. R. Rajagopalan,
Enviromental Studies,
Oxford IBH Pub.
2. Benny Joseph,
Environmental
Studies, McGraw Hill
Pub.
2.
Water pollution: Water resources-
properties of water: density, melting
point, boiling point, specific heat,
dissolved oxygen; water as a solvent,
the hydrogen cycle
1
3.
Water pollutants: pathogens, oxygen
demanding wastes, nutrients, salts,
thermal pollutants, heavy metals,
pesticides,volatile organic compounds.
2
4.
Air pollution: Overview of emissions–
criteria pollutants – toxic air pollutants
–motor vehicle emission
2
5.
Basic ideas of influence of air pollution
on meteorology - comparison of air
pollution in major cities
2
6.
The carbon cycle: Importance of CO2
in climate change – green house effect
and global energy balance.
2
Total Hours: 10
Sl. No. Topic No. of lecture hours Reference Books
1. Pollution monitoring devices: paper tape sampler - bubbler systems - gas
analysers 2
1. R. Rajagopalan, Enviromental Studies, Oxford IBH Pub.
2. Benny Joseph, Environmental Studies, McGraw Hill Pub.
2. Basics of methods of measuring
pollution: principle of sampling air /water/soil for pollution measurement
2
AI010 805 G05 INDUSTRIAL POLLUTION CONTROL S8AEI
COURSE HANDOUT: S8 Page 46
Module 5
3.
Ambient air sampling: collection of gaseous air pollutants, collection of
particulate air pollutants; stack sampling: sampling system, particulate
sampling, and gaseous sampling
2
4.
Analysis of air pollutants: sulphur dioxide, nitrogen oxides, carbon monoxide, oxidants and ozone,
hydrocarbons, particulate matter.
2
Total Hours: 8
Sl. No. Topic No. of lecture hours
Reference Books
1 Principles and simple methods of pollution abatement and control
1
1. Benny Joseph, Environmental Studies, McGraw Hill Pub
2. Masters, Gilbert M. Introduction to Environmental Engineering and Sciences, PHI
3. India Environmental Port, http://www.indiaenviron-mentportal.org.in
2 Concepts of solid waste management:
source reduction – recycling – disposal 1
3
Concepts of waste water treatment methods: physical treatments –
biological treatments - reuse and recycle of water and waste water
1
4 Environmental impact assessment of
large scale projects 1
5 Legislation and standards for Air,
Water and Soil pollution 1
6 International nature of pollution and the need for international rules and
regulations 1
7 Air quality regulations clean air act 1 Total Hours: 7
AI010 806 PROCESS CONTROL LAB S8AEI
COURSE HANDOUT: S8 Page 47
COURSE INFORMATION SHEET
PROGRAMME: APPLIED ELECTRONICS &
INSTRUMENTATION
DEGREE: BTECH
COURSE: PROCESS CONTROL LAB SEMESTER: 8 CREDITS: 2
COURSE CODE: AI 010 806
REGULATION: 2010
COURSE TYPE: CORE
COURSE AREA/DOMAIN:
INSTRUMENTATION & CONTROL
CONTACT HOURS: 3 Practical Hours/Week.
CORRESPONDING THEORY COURSE CODE
(IF ANY): AI 010 601, AI 010 702
THEORY COURSE NAME: PROCESS
CONTROL INSTRUMENTATION,
COMPUTERISED PROCESS CONTROL
SYLLABUS:
UNIT DETAILS HOURS
I Electronic PID controller and implementation of PID algorithm using
high level language
3
II Performance Evaluation of Temperature process control station 3
III Performance Evaluation of Pressure process control station 3
IV Performance Evaluation of Flow process control station 3
V Performance Evaluation of Level process control station 3
VI Characteristics of Differential Pressure Transmitter and Rotameter 3
VII Characteristics of control valve, with and without positioner 3
VIII Characteristics of I/P and P/I converter 3
IX Study of process control simulator 3
X Study of PLC 3
XI PLC programming and implementation 3
XII Control of bottle filling system using PLC 3
XIII Speed controller of a DC motor using PLC 3
XIV Liquid level control using PLC 3
XV Study of Distributed Control System 3
TOTAL HOURS 45
TEXT/REFERENCE BOOKS:
T/R BOOK TITLE/AUTHORS/PUBLICATION
R1 Bella G. Liptak , Instrument engineers handbook
R2 Curtis Johnson ,Process control instrumentation
COURSE PRE-REQUISITES:
AI010 806 PROCESS CONTROL LAB S8AEI
COURSE HANDOUT: S8 Page 48
C.CODE COURSE NAME DESCRIPTION SEM
AI 010
707
Industrial instrumentation lab To have a basic idea about
measurements related with process
control
S7
COURSE OBJECTIVES:
1 To study the practical aspects of process control like tuning controllers, calibration etc
2 To study the identification of loop diagrams ,instrument schedules etc
3 To serve as a foundation for further study on industrial practice
COURSE OUTCOMES:
SNO DESCRIPTION PO
MAPPING
1 Graduates will be able to understand basics of process control a, b
2 Graduates will be able to design process control instrumentation h, i, e, c, f
3 Graduates will be able to maintain process instrumentation h, c, d
4 Graduates will be able to do industrial projects c, d, f, g
5 Graduates will be able to train technicians in industry and building automation
c, f, g
6 Graduates will be able take part in professional society and standard development activities
k
GAPS IN THE SYLLABUS - TO MEET INDUSTRY/PROFESSION REQUIREMENTS:
SNO DESCRIPTION PROPOSED
ACTIONS
1 Large scale processes cannot be covered in the syllabus Industrial
visit
2 Standards to be introduced in large extend like ISA, IEEE etc Extra class
3 Industrial data networks Extra class PROPOSED ACTIONS: TOPICS BEYOND SYLLABUS/ASSIGNMENT/INDUSTRY VISIT/GUEST LECTURER/NPTEL ETC
TOPICS BEYOND SYLLABUS/ADVANCED TOPICS/DESIGN:
1 SCADA software’s will be covered using ac31 graf and CODESYS
2 Calibrations of DP transmitters
3 Demonstration of Instrument cabling and wiring practices
4 Piping and joint design
WEB SOURCE REFERENCES:
1 www.ni.com/labview
2 www.mathworks.com
3 www.ISA.org
4 www.plantweb.com
AI010 806 PROCESS CONTROL LAB S8AEI
COURSE HANDOUT: S8 Page 49
5 www.fieldbus .org
6 www.IEC.org
7 www.control enginnering.com
DELIVERY/INSTRUCTIONAL METHODOLOGIES:
☐ CHALK & TALK ☐ STUD. ASSIGNMENT
☐ WEB RESOURCES
☐ LCD/SMART
BOARDS
☐ STUD.
SEMINARS
☐ ADD-ON COURSES
ASSESSMENT METHODOLOGIES-DIRECT
☐ ASSIGNMENTS ☐ STUD.
SEMINARS
☐ TESTS/MODEL
EXAMS
☐ UNIV.
EXAMINATION
☐ STUD. LAB
PRACTICES
☐ STUD. VIVA ☐ MINI/MAJOR
PROJECTS
☐ CERTIFICATIONS
☐ ADD-ON
COURSES
☐ OTHERS
ASSESSMENT METHODOLOGIES-INDIRECT
☐ ASSESSMENT OF COURSE OUTCOMES (BY
FEEDBACK, ONCE)
☐ STUDENT FEEDBACK ON FACULTY
(TWICE)
☐ ASSESSMENT OF MINI/MAJOR PROJECTS
BY EXT. EXPERTS
☐ OTHERS
Prepared by Approved by
Mr. Krishna Kumar K. P. Ms. Liza Annie Joseph
(Faculty) (HOD)
AI010 806 PROCESS CONTROL LAB S8AEI
COURSE HANDOUT: S8 Page 50
COURSE PLAN
Sl. No. EXPERIMENTS
1. Batch 1. Electronic PID controller and implementation of PID algorithm
using high level language
2. Batch 2. Performance Evaluation of Temperature process control station
3. Batch 3. Performance Evaluation of Pressure process control station
4. Batch 4. Performance Evaluation of Flow process control station
5. Batch 5. Performance Evaluation of Level process control station
6. Batch 6. Characteristics of Differential Pressure Transmitter and
Rotameter
7. Batch 7. Characteristics of control valve, with and without positioner
8. Batch 8. Characteristics of I/P and P/I converter
9. Batch 9. Study of PLC
10. Batch 10. PLC programming and implementation
11. Batch 1. Control of bottle filling system using PLC
12. Batch 2. Speed controller of a DC motor using PLC
13. Batch 3. Liquid level control using PLC
14. Batch 4. Study of Distributed Control System
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