course diary v sem - mvjce.edu.in electronics... · centralization vs decentralization of authority...
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DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 1
MVJ COLLEGE OF ENGINEERING Near Whitefield, Channasandra, Bangalore -560067 Ph: 080-28452324;
(An ISO Certified Institution recognized under UGC 2(f)) Fax: 080-
28452443
URL: www.mvjce.edu.in
DEPARTMENT OF MEDICAL ELECTRONICS
COURSE DIARY
(ACADEMIC YEAR 2012-13)
V SEMESTER
Name :
_____________________________________________
USN : _____________________________________________
The Mission
“The mission of our institutions is to provide world class education in our chosen
fields and prepare people of character, caliber and vision to build the future world”
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 2
SCHEME OF TEACHING & EXAMINATION
B.E.MEDICAL ELECTRONICS
V SEMESTER
Subject
Code
Title
Teaching
Depar
tment
Teaching
hours/week Examination
Theory Practic
al
Duratio
n I. A
Theory/
Practical
Total
Mark
s
10AL51
Management and
Entrepreneurship
Mat 04 03 25 100 125
10ML52 Communication
Systems @ 04 03 25 100 125
10ML53 Medical Science @ 04 03 25 100 125
10ML54 Biomedical
Instrumentation @ 04 03 25 100 125
10ML55 Physiological Control
Systems @ 04 03 25 100 125
10ML56 Digital Signal
Processing @ 04 03 25 100 125
10MLL57
Analog IC’s and
Communication Lab
@ 03 03 25 50 75
10MLL58 Digital Signal
Processing Lab @ 03 03 25 50 75
Total 24 06 24 200 700 900
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 3
Academic Year 2012-13 ODD SEMESTER Time Table
DAY 1 2 3 4 5 6 7 8 9
TIMINGS
8.00-9.00
9.00-10.00
10.00-11.00
11.00-11.30
11.30-12.30
12.30-1.30
1.30-2.00
2.00-3.00
3.00-4.00
Monday BREAK LUNCH
Tuesday
Wednesday
Thursday
Friday
Saturday
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 4
10AL51-MANAGEMENT AND ENTREPRENEURSHIP
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 5
SYLLABUS-10AL51
MANAGEMENT AND ENTREPRENEURSHIP SUB CODE : 10AL51 IA Marks : 25
No of Lecture Hrs/Week : 04 Exam Hours : 03
Total No. of Lecture Hrs : 52 Exam Marks : 100
Academic Year 2012-13 PART – A
MANAGEMENT Unit 1 Management: Introduction: meaning-nature and characteristics of
management, scope and functional areas of management-management as a science, art or
profession-management and administration-Roles of
management, Levels of management, Development of management Thoughtearly
management approaches-Modern management approaches.
7 Hrs
Unit 2 Planning: Nature, importance and purpose of planning process-objectivestypes of plans
(meaning only)-design making-importance of planning-steps in planning and planning
premises-hierarchy of plans.
6Hrs
Unit 3 Organizing and staffing: Nature and purpose of organization-Principles of organization-
Types of organization, departmentation, committees,
Centralization Vs Decentralization of authority and responsibility-span and
control-MBO and MBE (meaning) Nature and importance of staffing-
processofselectionandrecruitment (in brief).
6Hrs
Unit 4 Directing and controlling: Meaning and nature of directing-leadership
styles, motivation theories, communication -meaning and importancecoordination,
meaning and importance and techniques of Co-ordination. Meaning and steps in
controlling-Essentials of sound control system-Methods of establishing control (in brief).
7Hrs
PART – B
ENTERPRENUERSHIP
Unit 5 Entrepreneur: Meaning of entrepreneur, Evolution of the concept,
Functions of an entrepreneur, Types of Entrepreneur, Entrepreneur-an
emerging class. Concept of Entrepreneurship-Evolution of Entrepreneurship,
Development of Entrepreneurship; Stages in entrepreneurial process; Role of
entrepreneurs in Economic Development; Entrepreneurship in India; Entrepreneurship-its
Barriers.
6Hrs
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 6
Unit 6 Small-scale industry: Definition: Characteristics; Need and rationale:
Objectives; scope; role of SSI in Economic Development. Advantages of SSI, Steps to
start an SSI-government policy towards SSI; Different policies of SSI; government
support for SSI during 5years plans. Impact of Liberalization, Privatization, Globalization
on SSI, Effect of WTO/GATT
supporting agencies of Government for SSI, meaning; Nature of support;
Objectives; Functions; Types of help; Ancillary Industry and Tiny Industry
(Definition).
7Hrs
Unit 7 Institutional Support: Different Schemes; TECKSOK; KIADB; KSSIDC;
KSIMC; DIC single window Agency: SISI; NSIC; SIDBI; KSFC.
6Hrs
Unit 8: Preparation of project: Meaning of project: Project Identification; Project
selection; project Report; Need and significance of Report; contents; formulation;
Guidelines by planning Commission for project report; Network Analysis; Errors of
Project Report; Project Appraisal. Identification of business opportunities. Market
Feasibility Study; Technical feasibility study; Financial Feasibility Study and social
Feasibility Study. 7Hrs
Text Books: 1. Principles of Management, P.C.Tripathi, P.N.Reddy, Tata McGraw
Hill (Chapters 1,2,3,4,5,14,15,16,17)
2. Dynamics of Entrepreneurial Development & Management-Vasant
Desai, Himalaya Publishing House (Chapter
1,2,4,6,8,9,10,13,15,16,17,18,19,20,21,22,42,46,47)
3. Enterprenuership Development-Small Business Enterprises,
Poornima M Charantimath-Pearson Education-2006 (2&4)
Reference Books: 1. Manage Fundamentals-Concepts, Application, Skill Development-
Robert Lusier, Thomson (chapter 1,4,12)
1. Enterprenuership Development, SS Khanka, S Chand &Co
(Chapters 1,2,5,11,12,13,16,18,20).
2. .Management-Stephen Robbins, Pearson Education, PHI-17th
Edition, 2003.
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 7
Lesson Plan
Sem: V Semester Hours/week: 04
Subject code: 10AL51 Total No. of hours: 52
Subject : Management And Entrepreneurship
Academic Year 2012-13
Hours
No
Topics to be Covered Text Mode of
Teaching
UNIT1- Management
01 Introduction: Meaning-nature and characteristics of
management T1
Chalk &
Board
02 Scope and functional areas of management R1
03 Management as a science, art or profession
T1
04 Management and administration
05 Roles of management, Levels of management
06 Development of management Thought early
management approaches
07 Modern management approaches
UNIT2-PLANNING
08 Planning: Nature, importance and purpose of planning
process -steps in planning and
T1 Chalk &
Board,
09 Objectives types of plans
10 Design making
11 Importance of Planning
12 Planning premises
13 Hierarchy of plans
Unit 3
ORGANIZING AND STAFFING
14 Organizing and staffing: Nature and purpose of organizing
T2 Chalk &
Board,
15 Principles of organization
16 Types of organization
17 Departmentation, committees
18 Centralization Vs Decentralization of authority and
responsibility
19 Span and control-MBO and MBE
20 Nature and importance of staffing
21 Process of selection and recruitment
Unit 4
Directing and controlling
22 Directing and controlling: Meaning and nature of directing
T2 Chalk &
Board,
23 Leadership styles
24 Motivation theories, communication
25 Meaning and importance coordination
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 8
26 Meaning and importance and techniques of Co-ordination
27 Meaning and steps in controlling
28 Essentials of sound control system
29 Methods of establishing control
Unit 5 PART – B
ENTERPRENUERSHIP
30 Entrepreneurship: Meaning of entrepreneurship
T2 Chalk &
Board
31 Evolution of the concept
32 Functions of an entrepreneur, Types of Entrepreneur
33 Entrepreneur-and emerging class
34 Concept of Entrepreneurship, Evolution of Entrepreneurship
35 Development of Entrepreneurship; Stages in entrepreneurial
process
36 Role of entrepreneurs in Economic Development,
Entrepreneurship in India
37 Entrepreneurship-its Barriers
Unit 6
Small-scale industry
38 Small-scale industry: Definition: Characteristics; Need and
rational
T2 Chalk &
Board
39 Objectives; scope; role of SSI in Economic Development.
40 Advantages of SSI, Steps to start an SSI-government policy
towards SS
41 Different policies of SSI; government support for SSI during
5years plans.
42
Impact of Liberalization, Privatization, Globalization on SSI,
Effect of WTO/GATT
supporting agencies of Government for SSI,
43 meaning; Nature of support, Objectives; Functions;
44 Types of help; Ancillary Industry and Tiny Industry
Unit 7 Institutional Support
45 Institutional Support: Different Schemes,TECKSOK;
KIADB; KSSIDC; KSIMC; DIC single window Agency: T2 Chalk &
Board 46 SISI; NSIC; SIDBI; KSFC
Unit 8: Preparation of project
47 Preparation of project: Meaning of project: Project
Identification; Project selection;
T1
Chalk &
Board
48 project Report; Need and significance of Report; contents;
formulation
49 Guidelines by planning Commission for project report;
Network Analysis
50 Identification of business opportunities. Market Feasibility
Study; Technical feasibility study
T2
51 Errors of Project Report; Project Appraisal.
52 Financial Feasibility Study and social Feasibility Study.
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 9
QUESTION BANK
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 10
VTU QUESTION PAPER
06AL51
Fifth Semester B.E. Degree Examination , June-July 2009 Management and Entrepreneurship
Time: 3 hrs. Max. Marks:100
Note : Answer any FIVE full questions, choosing TWO
questions each from Part A and Part B. PART-A
1 a. Define `Management' precisely. Explain the characteristics and levels of management.(10 Marks)
b. Explain the functions of managers. (05 Marks) c. Explain management as an Art and a Science. (05 Marks)
2 a. What is scientific management? Explain Taylor's scientific principles of management and his contributions. (10 Marks)
b. Write a note on Development of Management. ( 10 Marks) 3 a. Explain the steps in planning process. (05 Marks)
b. Explain in brief the types of planning. (05 Marks) c. What are single use and standing plans? Explain with examples. (05 Marks)
d. Discuss the importance and limitations of planning. ( 05 Marks) 4 a. What is an organization? Explain the purpose and nature of an organization.
(05 Marks) b. Explain in brief the principles of organization. (05 Marks)
c. Explain the classification of organizations. (05 Marks) d. Discuss centralization V/s decentralization. (05 Marks)
PART-B 5 a. What is Directing? Explain the importance of directing. (05 Marks)
b. Explain the qualities of a good leader. (05 Marks) c. Differentiate between Democratic and Autocratic leadership. (05 Marks)
d. Explain the importance of communication. ( 05 Marks) 6 a. Explain characteristics of Small Scale Industries . (05 Marks)
b. Discuss the need for small scale industries and mention the objectives. ( 05 Marks) c. Discuss the impact of Globalization on small scale industries in India and the role
of WTO. (05 Marks) d. Write short note on Institutional support to SSI. (05 Marks)
7 a. List the various supporting agencies of central and state government and services offered by them. (05 Marks)
b. What are the objectives and functions of KIADB? (05 Marks) c. Write a note on single window DIC agency. (05 Marks)
d. Write the various types of assistance provided by KSFC . (05 Marks) 8 a. What is a Project? What are the features of a project and the variables
involved?(05 Marks) b. What is a project report and what are its necessities? (05 Marks)
c. Explain the sources of project identification. (05 Marks) d. What is project network analysis? Explain in brief PERT. ( 05 Marks)
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 11
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 12
10ML52-COMMUNICATION SYSTEMS
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 13
SYLLABUS-10ML52 COMMUNICATION SYSTEMS
SUB CODE : 10ML52 IA Marks : 25
No of Lecture Hrs/Week : 04 Exam Hours : 03
Total No. of Lecture Hrs : 52 Exam Marks : 100
Academic Year 2012-13
Part A
Unit 1 & 2 Amplitude Modulation: Time-Domain Description, Frequency domain description,
Generation of AM waves, Detection of AM waves, AM/DSB, Time-Domain Description,
Frequency domain description, Generation of DSBSC waves, Coherent Detection of
DSBSC Modulated waves. Costas loop, Quadrature Carrier multiplexing, AM-SSB/SC
generation, Frequency-Domain Description, Frequency discrimination method for
generation an SSB Modulated wave, time domain description, phase discrimination
method for generating an SSB modulated wave, Demodulation of SSB waves,
Comparison of amplitude modulation techniques, frequency translation, FDM.
12Hrs
Unit 3
Angle Modulation: Basic Concepts, Frequency Modulation, Spectrum Analysis Of
Sinusoidal FM wave, NBFM, WBFM, Constant Average power, Transmission bandwidth
of FM waves, Generation of FM waves, Direct FM, demodulation of FM
waves,frequency discriminator, ZCD, phase locked loop (1st order) of AM and FM.
7Hrs
Unit4
Noise in Analog Modulation: Signal to noise Ratios, AM Receiver Model, Signal to
noise ratios for Coherent Reception, DSBSC Receiver, SSB Receiver, Noise in AM
Receivers using envelope Detection, Threshold effect, FM Receiver Model, Noise in FM
Reception, FM Threshold effect, Pre-Emphasis and De-Emphasis in FM.
7Hrs.
Part B
Unit 5&6
Pulse Modulation: Sampling theorem for low pass and band pass signal, statement and
proof, PAM, Channel bandwidth for a PAM signal, Natural Sampling, Flat-Top
Sampling, Signal recovery though Holding, Quantization of Signals, Quantization
error,PCM, Electrical representations of Binary digits, The PCM Systems, DPCM, Delta
Modulation, ADM.
12Hrs
Unit 7 & 8
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 14
Digital Modulation: Introduction, Binary Shift Keying, DPSK, QPSK, Type D flip-
flop,QPSK Transmitter, Non-offset QPSK, The QPSK receiver, Signal space
representation,BFSK, Spectrum, Receiver for BFSK, Geometrical Representation of
Orthogonal BFSK,line codes, TDM.
14Hrs
Textbooks:
1. Analog and Digital communication: Simon Haykin, John Willey.
2. Principles of communication systems, Taub and Schilling, TMH.
Reference Books: 1. Electronic Communication Systems, 2nd Edition, Blake, Thomson
2. Communication Systems, Sam Shanmugam, Jhon wiley
3. Electronic Communication Systems, Proakis,
4. Electronic Communication Systems, George Kennedy
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 15
Lesson Plan
Sem: V Semester Hours/week: 04
Subject code: 10ML52 Total No. of hours: 52
Subject : Communication Systems
Academic Year 2012-13
Hours
Topics to be covered
Mode of teaching
Units-1& 2 Amplitude Modulation
Board
and chalk
01 Amplitude Modulation: Time-Domain Description, Frequency
domain description, Generation of AM waves.
02 Detection of AM waves, AM/DSB.
03 Time-Domain Description,Frequency domain description,
Generation of DSBSC waves.
04 Coherent Detection of DSBSC Modulated waves.
05 Costas loop.
06 Quadrature Carrier multiplexing.
07 AM-SSB/SC generation, Frequency-Domain Description.
Board
and chalk
08 Frequency discrimination method for generation an SSB Modulated
wave.
09 time domain description, phase discrimination method for
generating an SSB modulated wave.
10 Demodulation of SSB waves.
11 Comparison of amplitude modulation techniques.
12 Frequency translation, FDM.
Unit-3 Angle Modulation
13 Angle Modulation: Basic Concepts, Frequency Modulation.
14 Spectrum Analysis Of sinusoidal FM wave, NBFM, WBFM.
Board/chalk
15 Constant Average power, Transmission bandwidth of FM waves.
16
Generation of FM waves.
17
Demodulation of FM waves.
18 Frequency discriminator, ZCD
19 Phase locked loop (1st order) of AM and FM.
Unit-4 Noise in Analog Modulation
20 Noise in Analog Modulation: Signal to noise Ratios, AM Receiver
Model.
Board 21 Signal to noise ratios for Coherent Reception.
22 DSBSC Receiver, SSB Receiver.
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 16
23 Noise in AM Receivers using envelope Detection. and chalk
Board
and chalk
24 Threshold effect, FM Receiver Model.
25 Noise in FM Reception, FM Threshold effect.
26 Pre-Emphasis and De-Emphasis in FM.
Unit-5&6
Pulse Modulation
27 Pulse Modulation: Sampling theorem for low pass signal, statement
and proof.
28 Band pass signal, statement and proof.
29 PAM, Channel bandwidth for a PAM signal.
30 Natural Sampling
31 Flat-Top
32 Sampling, Signal recovery though Holding
33 Quantization of Signals, Quantization error.
34 PCM, Electrical representations of Binary digits.
35 The PCM Systems.
36 DPCM.
37 Delta Modulation.
38 ADM.
Unit-7 & 8
Digital Modulation
39 Digital Modulation: Introduction, Binary Shift Keying.
Board
and chalk
40 DPSK.
41 QPSK.
42 Type D flip-flop.
43 QPSK Transmitter.
44 Non-offset QPSK.
45 The QPSK receiver.
46 Signal space representation.
47 BFSK.
Board
and chalk
48 Spectrum.
49 Receiver for BFSK.
50 Geometrical Representation of Orthogonal BFSK.
51 Line codes.
52 TDM.
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 17
QUESTION BANK(COMMUNICATION SYSTEMS-06ML52)
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 18
VTU QUESTION PAPERS
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 19
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 20
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 21
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 22
10ML53-MEDICAL SCIENCE
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 23
SYLLABUS-10ML53 MEDICAL SCIENCE
SUB CODE : 10ML53 IA Marks : 25
No of Lecture Hrs/Week : 04 Exam Hours : 03
Total No. of Lecture Hrs : 52 Exam Marks : 100
Academic Year 2012-13
Part A
Unit1
Introduction: Homeostasis, Tissue, Cartilage: The internal environment and
homeostasis, movement of substances within the body, body fluids, action potential,
propagation of action potential. Epithelial tissue- simple epithelium, stratified
epithelium,connective tissue- cells of connective tissue, loose connective tissue, Adipose
tissue, Dense connective tissue, Lymphoid tissue, Cartilage- Hyaline cartilage,
Fibrocartilage,Elastic cartilage.
6 Hrs
Unit2
Nervous System: Neurons: Properties of neurons, Cell bodies, Axon and Dendrites,
Types of nerves, Synapse and neurotransmitters, neuromuscular junction. Central nervous
system: neuroglia, meninges, ventricles of the brain and CSF. Brain: Cerebrum, functions
of cerebrum, functional areas of the cerebrum. Brainstem: Cerebellum, Spinal cord- grey
matter, white matter, motor nerve tracts, spinal nerves: nerve roots, plexuses, cranial
nerves. Autonomic nervous system (in brief)- functions and effects.
7 Hrs
Unit3
Cardiovascular System: Introduction, Blood vessels- Arteries and Arterioles, Veins and
Venules, capillaries and sinusoids, control of blood vessel diameter, blood supply-internal
respiration, cell nutrition. Heart- position, structure- pericardium, myocardium,
endocardium, interior of the heart, flow of blood through the heart, blood supply to heart,
Conducting system of the heart, factors affecting heart rate, the Cardiac cycle, cardiac
output, blood pressure, control of blood pressure, pulse and factors affecting the pulse
rate. Circulation of the blood- pulmonary circulation, systemic circulation, aorta,
circulation of blood to head and neck, circulation of blood to upper limb, portal
circulation.
7 Hrs
Unit4
Digestive System: Introduction, Organs of the digestive system- mouth: tongue, teeth,
salivary glands, pharynx, oesophagus, stomach, gastric juice and functions of stomach-
small intestine: structure, chemical digestion in small intestine, large intestine: structure,
functions of the large intestine, rectum and anal canal. Pancreas, Liver.
6 Hrs
Part B
Unit5
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 24
Respiratory System: Introduction, Nose and Nasal cavity- position, structure and
functions, pharynx, position, structure, functions. Larynx: position, structure and
functions. Trachea, bronchi, bronchioles and alveoli, lungs- position, associated
structure,pleura and pleural cavity. Respiration- muscles of respiration cycle of
respiration,variables affecting respiration,lungvolumesandcapacity.
6 Hrs
Unit 6
Skeletal System: Bone, Types of bone, structure, bone cells, functions of bone. Axial
skeleton- skull, sinuses, Fontanelles, vertebral column- characteristics of typical
vertebra,different parts of vertebral column (parts only), features of vertebral column,
movements and functions of vertebral column, sternum, ribs, shoulder girdle and upper
limb, pelvic girdle and lower limb.
6 Hrs
Unit 7
Muscles and Joints (Study of muscles along with joints): Muscle tissue: Skeletal
muscle, Smooth muscle, Cardiac muscle, functions of muscle tissue, muscle tone and
fatigue. Types of joint- Fibrous, Cartilaginous, Synovial, characteristics of synovial
joints, shoulder joint, elbow joint, radioulnar joint, wrist joint, joints of hands and fingers,
Hip joint, Knee joint, ankle joint, joints of foot and toes.
7 Hrs
Unit 8
Endocrine, Urinary and Reproductive System: Pituitary gland, thyroid gland,
parathyroid gland, adrenal gland. Parts of urinary system, kidneys- organs associated with
the kidneys, gross and microscopic structure of the kidney, functions of the
kidneys,ureter, urinary bladder, urethra, micturition. Reproductive system: Female-
Uterus, Ovaries, Male- Scrotum, Testis.
7 Hrs
Textbook: 1. Ross & Wilson’s Anatomy and Physiology in Health and Illness – by Anne Waugh
and Allison Grant, 9th Edition, Churchill Livingstone Publications.
Reference Books: 1. Concise Medical Physiology- by Sujit K. Chaudhuri, 5th Edition, New Central Book
Agency Pvt. Ltd.
2. Essentials of Medical Physiology - by K. Sembulingam and Prema Sembulingam,
3rdEdition, Jaypee Publications.
3. Human Physiology: From Cells to Systems - by Lauralee Sherwood, 6th Edition,
Brooks Cole Publication
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 25
Lesson Plan
Sem: V Semester Hours/week: 04
Subject code: 10ML53 Total No. of hours: 52
Subject : Medical Science
Academic Year 2012-13
Hours Topics to be covered
Mode of teaching
01 Introduction: Homeostasis, Tissue, Cartilage The internal
environment and Homeostasis, movement of substances within
the body, body fluids.
Board/ chalk
02 Action potential, propagation of action potential.
03 Epithelial tissue-simple epithelium, stratified epithelium.
04 Connective tissue-cells of connective tissue, loose connective
tissue, Adipose tissue.
05 Dense connective tissue, Lymphoid tissue.
06 2. Nervous System .Cartilage- Hyaline cartilage, Fibro cartilage,
Elastic cartilage.
07 Neurons: Properties of neurons, Cell bodies, Axon and
Dendrites.
Board/ chalk
08 Types of nerves, Synapse and neurotransmitters, neuromuscular
junction.
09 Central nervous system: neuroglia, meninges, ventricles of the
brain and CSF.
10 Brain: Cerebrum, functions
Of cerebrum, functional areas of the cerebrum.
11 Brainstem: Cerebellum, Spinal cord- grey matter, white matter,
motor nerve tracts,
12 Spinal nerves: nerve roots, plexuses, and cranial nerves.
13 Autonomic nervous system (in brief)- functions and effects.
3. Cardiovascular System
14 Introduction, Blood vessels- Arteries and Arterioles, Veins and
Venules, capillaries and sinusoids,
Board/chalk
15 Control of blood vessel diameter, blood supply-internal
respiration, cell nutrition.
16 Heart- position, structure- pericardium, myocardium,
Endocardium, interior of the heart, flow of blood through the
heart, blood supply to heart.
17 Conducting system of the heart, factors affecting heart rate.
18 the Cardiac cycle, cardiac
Output, blood pressure, control of blood pressure, pulse and
factors affecting the pulse rate.
19 Circulation of the blood- pulmonary circulation, systemic
circulation, aorta, circulation of blood to head and neck.
20 Circulation of blood to upper limb, portal circulation.
4. Digestive System
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 26
21 Introduction, Organs of the digestive system- mouth: tongue,
teeth,
Salivary glands, pharynx.
Board/chalk
22 Esophagus, stomach, gastric juice and functions of stomach.
23 Small intestine: structure, chemical digestion in small intestine
24 Large intestine: structure.
Functions of the large intestine, rectum and anal canal.
25 Pancreas
26 Liver
27 5. Respiratory System: Introduction, Nose and Nasal
cavity- position, structure and Functions.
Board/chalk
28 Pharynx, position, structure, functions. Larynx: position,
structure and functions.
29 Trachea, bronchi, bronchioles and alveoli.
30 Lungs- position, associated structure, pleura and pleural cavity.
31 Respiration- muscles of respiration cycle of respiration,
variables affecting respiration, lung volumes and capacity.
6.Skeletal System
32 Types of bone, structure, bone cells, functions of bone.
Board/chalk
33 Axial skeleton- skull, sinuses, Fontanelles.
34 Vertebral column- characteristics of typical vertebra,
Different parts of vertebral column (parts only).
35 Features of vertebral column, movements and functions of
vertebral column.
36 Sternum, ribs, shoulder girdle and upper limb.
37 Pelvic girdle and lower limb.
7.Muscles and Joints (Study of muscles along with joints).
38 Muscle tissue: Skeletal muscle, Smooth muscle.
39 Cardiac muscle, functions of muscle tissue, muscle tone and
fatigue.
40 Types of joint- Fibrous, Cartilaginous, Synovial, Characteristics
of synovial joints.
Board/chalk
41 Shoulder joint, elbow joint.
42 Radioulnar joint, wrist joint, joints of hands and fingers.
43 Hip joint, Knee joint.
44 Ankle joint, joints of foot and toes.
45 8. Endocrine, Urinary and Reproductive System Pituitary gland, thyroid gland.
46 Parathyroid gland, adrenal gland.
47 Parts of urinary system, kidneys- organs associated with the
kidneys.
48 Gross and microscopic structure of the kidney, functions of the
kidney.
49 Ureter, urinary bladder, urethra, micturition
50 Reproductive system: Female- Uterus Ovaries
51 Male- Scrotum, Testis
52 Revision.
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 27
QUESTION BANK (MEDICAL SCIENCES-06ML53)
1.Explain the internal environment and Homeostasis with necessary diagram.
2.Explain movement of substances within the body, body fluids. 3.Expalin different
connective tissues with necessary diagram.
4.What is cartilage and its types with necessary diagram.
5. Explain Synapse and neurotransmitters, neuromuscular junction.
6. Explain Cerebrum, functions of cerebrum, functional areas of the cerebrum.
7. Explain autonomic nervous system (in brief)- functions and effects.
8. Explain Control of blood vessel diameter, blood supply-internal respiration, cell
nutrition.
9. Explain Heart- position, structure- pericardium, myocardium, Endocardium, interior of
the heart, flow of blood through the heart, blood supply to heart.
10. Explain the Cardiac cycle, cardiac Output, blood pressure, control of blood pressure,
pulse and factors affecting the pulse rate
11. Explain Esophagus, stomach, gastric juice and functions of stomach
12. Explain Respiration- muscles of respiration cycle of respiration, variables affecting
respiration, lung volumes and capacity.
13. Explain Vertebral column- characteristics of typical vertebra, Different parts of
vertebral column (parts only).
14. Explain Cardiac muscle, functions of muscle tissue, muscle tone and fatigue.
15. Explain Ankle joint, joints of foot and toes.
16. Parts of urinary system, kidneys- organs associated with the kidneys.
17.Explain Reproductive system: Female- Uterus Ovaries
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 28
VTU QUESTION PAPERS
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 29
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 30
10ML54-BIOMEDICAL INSTRUMENTATION
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 31
SYLLABUS-10ML54 BIOMEDICAL INSTRUMENTATION
SUB CODE : 10ML54 IA Marks : 25
No of Lecture Hrs/Week : 04 Exam Hours : 03
Total No. of Lecture Hrs : 52 Exam Marks : 100
Academic Year 2012-13
Part A
Unit1
Fundamental Concepts: Sources of biomedical signals, Basic medical
instrumentationystem, performance requirements of medical instrumentation systems, PC
based medicalinstruments, General constraints in design of medical instrumentation
systems. Bioelectric Signals and Electrodes: Electrocardiogram (ECG),
Electroencephalogram (EEG), Electromyogram (EMG), Electrooculogram (EOG),
Electroretinogram (ERG),Recording Electrodes – Electrode-tissue interface, polarization,
skin contact impedance, motion artifacts, Silver-Silver Chloride electrodes, Electrodes for
ECG, Electrodes forEEG, Electrodes of EMG, Electrical conductivity of electrode jellies
and creams, microelectrodes.
7Hrs
Unit2
Physiological Transducers: Classification of transducers, performance characteristics of
transducers, displacement, positioning and motion transducers, pressure transducers,
transducers for body temperature measurement, photoelectric transducers, optical fiber
sensor, biosensor and smart sensor.
6Hrs
Unit3
Biomedical Recorders: Electrocardiograph, vectorcardiograph, phonocardiograph,
Electroencephalograph, Electromyography, other biomedical recorders and biofeedback
instruments.
6 Hrs
Unit4
Patient Monitoring Systems: System concepts, cardiac monitor, central monitor,
Measurement of heart rate, measurement of pulse rate, blood pressure
measurement,measurement of temperature, measurement of respiratory rate,
catheterization, laboratoryinstrumentation.
7 Hrs
Part B
Unit 5 & 6
Oximeters: Oximetry, ear oximeter, pulse oximeter, skin reflectance oximeter and
intravascular oximeter. Blood Flow Meters & Cardiac Output Measurement.
Electromagnetic blood flow meters, Ultrasonic blood flow meters, NMR blood flow
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 32
Meters, Laser Doppler blood flow meters. Indicator dilution method, Dye dilution
method, Thermal dilution techniques, Measurement of continuous cardiac output derived
from the aortic pressure waveform, Impedance technique. Pulmonary Function Analyzer:
Pulmonary function measurement, pirometry,Pneumotachometer, Measurement of
volume by Nitrogen washout technique.
14 Hrs
Unit7
Cardiac Pacemakers and Defibrillators: Need for cardiac pacemaker, External pacemaker,
Implantable pacemaker, Types of Implantable pacemakers, Programmable pacemaker,
Rate-responsive pacemakers.
6 Hrs
Unit8
Patient Safety: Electric shock hazards, Leakage currents, safety codes and analyzer.
Biomedical Telemetry & Telemedicine: Wireless telemetry, single channel telemetry,
multi-patient telemetry, implantable telemetry and telemedicine.
6 Hrs
Textbook: 1. Handbook of Biomedical Instrumentation – by R.S.Khandpur, 2nd Edition,
Tata McGraw Hill, 2003.
Reference Book: 1. Biomedical Transducers and Instruments – by Tatsuo Togawa, Toshiyo
Tamura and P. Ake Oberg, CRC Press, 1997.
2. Biomedical Instrumentation and Measurement – by Leslie Cromwell, Fred
J Weibell and Erich A. Pfeiffer, Prentice-Hall India Pvt. Ltd.
Note: 1.One question is to be set from each unit
2. Answer five questions choosing atleast two questions from each part.
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 33
LESSON PLAN- 10ML54 BIOMEDICAL INSTRUMENTATION
Sem: V Semester Hours/week: 04
Subject code: 10ML54 Total No. of hours: 52
Subject : Biomedical Instrumentation
Academic Year 2012-13
Hou
rs No
Topics to be covered
Mode of
teaching
01 Fundamental Concepts: Sources of biomedical signals, Basic medical
instrumentation system
Board and
Chalk
02 Performance requirements of medical instrumentation systems, PC based medical
instruments
03 General constraints in design of medical instrumentation systems
04 Bioelectric Signals and Electrodes: Electrocardiogram (ECG)
05 Electroencephalogram (EEG), Electromyogram (EMG)
06 Electrooculogram (EOG), Electroretinogram (ERG)
07 Recording Electrodes – Electrode-tissue interface, polarization
08 Skin contact impedance, motion artifacts,
09 Silver-Silver Chloride electrodes Electrodes for ECG
10 Electrodes for EEG, Electrodes of EMG
11 Electrical conductivity of electrode jellies and creams, microelectrodes
12 Physiological Transducers: Classification of transducers
13 Performance characteristics of transducers
14 Displacement, positioning and motion transducers
Board and
Chalk
15 Photoelectric transducers, optical fiber sensor
16 Biosensor and smart sensor.
17 Biomedical Recorders:
18 Electrocardiograph,
19 Vectorcardiograph, phonocardiograph
20 Electroencephalograph, Electromyography.
21 Other biomedical recorders and biofeedback instruments.
Board and
Chalk
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22 Cardiac Pacemakers and Defibrillators
23 Measurement of volume by Nitrogen washout technique
24 Implantable pacemaker, Types of Implantable pacemakers
25 Programmable pacemaker, Rate-responsive pacemakers
26 Patient Safety: Electric shock hazards
27 Patient Safety: Electric shock hazards
28 Biomedical Telemetry & Telemedicine:
29 Wireless telemetry, single channel telemetry
30 Multi-patient telemetry, implantable telemetry and telemedicine
31 Tests and revisions
32 Tests and revisions
33 Fundamental Concepts: Sources of biomedical signals, Basic medical
instrumentation system
34 Performance requirements of medical instrumentation systems, PC based medical
instruments
Board and
Chalk
35 General constraints in design of medical instrumentation systems
36
Bioelectric Signals and Electrodes: Electrocardiogram (ECG),
37 Electroencephalogram (EEG), Electromyogram (EMG),
38 Electrooculogram (EOG), Electroretinogram (ERG),
39 Recording Electrodes – Electrode-tissue interface, polarization
40 Skin contact impedance, motion artifacts,
41 Silver-Silver Chloride electrodes Electrodes for ECG
42 Electrodes for EEG, Electrodes of EMG
Board and
Chalk
43 Electrical conductivity of electrode jellies and creams, microelectrodes
44 Physiological Transducers: Classification of transducers
45 Performance characteristics of transducers,
46 Displacement, positioning and motion transducers
47 Photoelectric transducers, optical fiber sensor,
48 Biosensor and smart sensor.
49 Biomedical Recorders:
50
Electrocardiograph,
51 Vector cardiograph, phonocardiograph
52 Electroencephalograph, Electromyography.
DEPT. OF MEDICAL ELECTRONICS MVJCE
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QUESTION BANK (BIOMEDICAL INSTRUMENTATION-06ML54)
PART-A 1 )Explain sources of biomedical signals and general constraints of design of medical
Instrumentation systems.
2) Write short notes on ECG,EEG,E0G,EMG,ERG.
3) Write about different types of electrodes used for ECG,EEG,EMG,E0G,ERG ,
Microelectrodes, jellies and creams
4) Explain about classification of transducers and their performance characteristics.
5) Write note on optical fiber sensor, photo electric transducers and smart sensors
6) Write about the acquisition systems of ECG,EEG and EMG
7) Write about measurement of heart rate, pulse rate blood pressure and respiratory rate
8)Explain in detail about cardiac monitor,central monitor catheterization
PART-B
1) Explain about different types of Oximeters.
2) Write notes on different types of blood flow meters
3) Explain in detail about pulmonary function analyzers
4) Explain abut measurement volume by nitrogen washout technique.
5) Write note on cardiac pacemakers and explain about implanatable pacemakers
6) Write about programmable pacemakers and rate responsive pacemakers
7) Write about electrical hazards ,leakage currents and safety code analyzer
8)Write about wireless telemetry, single channel telemetry and implant able telemetry in
Medicine
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V SEMESTER COURSE DIARY 36
VTU QUESTION PAPERS
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 37
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 38
10ML55- PHYSIOLOGICAL CONTROL SYSTEMS
DEPT. OF MEDICAL ELECTRONICS MVJCE
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SYLLABUS-06ML55 PHYSIOLOGICAL CONTROL SYSTEMS
SUB CODE : 10ML55 IA Marks : 25
No of Lecture Hrs/Week : 04 Exam Hours : 03
Total No. of Lecture Hrs : 52 Exam Marks : 100
Academic Year 2012-13
PART A Unit 1
INTRODUCTION TO PHYSIOLOGICAL CONTROL SYSTEMS Preliminary considerations, Historical Background, System analysis,
Physiological systems-A simple example, Differences between engineering
& physiological control systems, The science of modeling, problems
6 hours
Unit 2 MATHEMATICAL MODELING Generalized system properties, Models with combination of system elements,
Linear models of Physiological systems, Distributed Vs Lumped parameter
models, Linear systems & superposition principle, Laplace transforms &
transfer functions, Impulse response & linear convolution, state space
analysis, Computer analysis & simulation – Matlab & Simulink, Problems
6 hours
Unit 3
STATIC ANALYSIS OF PHYSIOLOGICAL SYSTEMS introduction, open loop Vs closed loop, determination of steady state
operating point, steady state analysis using simulink, regulation of cardiac
output, regulation of glucose, chemical regulation of ventilation, problems
7 hours Unit 4
TIME DOMAIN ANALYSIS OF LINEAR CONTROL SYSTEMS Linearized respiratory mechanics, open & closed loop transient responses for
1st & 2nd order models, Impulse & step response descriptors, transient
response analysis using matlab, SIMULINK applications, Problems
7 hours PART B
Unit 5 FREQUENCY DOMAIN ANALYSIS OF LINEAR CONTROL
SYSTEMS Steady state responses to sinusoidal inputs, Graphical representation of
frequency response, Frequency response analysis using matlab, frequency
response model of a circulatory control, frequency response of glucose-
insulin regulation, problems
6 hours
Unit 6 STABILITY ANALYSIS – LINEAR APPROACHES
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stability & transient responses, root locus plots, routh-hurwitz stability
criterion, nyquist stability for stability, relative stability, stability analysis of
pupillary light reflexes, model of chyne-stokes breathing, problems
6 hours
Unit 7 IDENTIFICATION OF PHYSIOLOGICAL CONTROL SYSTEMS
basic problems in physiological system analysis, non-parametric &
parametric identification methods, Problems in parameter estimation,
Identification of closed loop systems, identification under closed-loop
conditions, problems
7 hours Unit 8
OPTIMIZATION IN PHYSIOLOGICAL CONTROL optimization in systems with negative feedback, single parameter
optimization-Control of respiratory frequency, Constrained optimization-
airflow pattern regulation, control of aortic pulse, Adaptive control of
physiological variables, problems 7 hours
Text Books
'Physiological Control Systems – Analysis, Simulation & Estimation', by
Michael C Khoo, Wiley IEEE press
DEPT. OF MEDICAL ELECTRONICS MVJCE
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LESSON PLAN- 10ML55 PHYSIOLOGICAL CONTROL SYSTEMS
Sem: V Semester Hours/week: 04
Subject code: 10ML55 Total No. of hours: 52
Subject : PHYSIOLOGICAL CONTROL SYSTEMS
Academic Year 2012-13
No of
Hours Topics to be covered
Mode of teaching
INTRODUCTION TO PHYSIOLOGICAL CONTROL SYSTEMS
Board and
Chalk
01 Preliminary considerations, Historical Background
02 System analysis
03 Physiological systems-A simple example
04 Differences between engineering
& physiological control systems
05 The science of modeling, problems
06 Problems
MATHEMATICAL MODELING
07 Generalized system properties, Models with combination of
system elements
Board and
Chalk
08 Linear models of Physiological systems, Distributed Vs Lumped
parameter models
09 Linear systems & superposition principle
10 Laplace transforms & transfer functions
11 Impulse response & linear convolution
12 state space analysis, Computer analysis & simulation – Matlab &
Simulink, Problems
STATIC ANALYSIS OF PHYSIOLOGICAL SYSTEMS
13 Introduction
14 Open loop Vs closed loop
Board and
Chalk
15 Determination of steady state operating point
16 Steady state analysis using simulink
17 Regulation of cardiac output
18 Regulation of glucose
19 Chemical regulation of ventilation, problems
TIME DOMAIN ANALYSIS OF LINEAR CONTROL SYSTEMS
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20 Linearized respiratory mechanics Board and
Chalk
21 Open & Closed loop transient responses for 1st & 2nd order
models
22 Impulse & step response descriptors
23 Transient response analysis using matlab
24 Transient response analysis using matlab
25 SIMULINK applications,
26 Problems
FREQUENCY DOMAIN ANALYSIS OF LINEAR CONTROL SYSTEMS
27 Steady state responses to sinusoidal inputs
28 Graphical representation of frequency response
29 Frequency response analysis using matlab
30 Frequency response model of a circulatory control
31 Frequency response of glucose-insulin regulation
32 Problems
STABILITY ANALYSIS – LINEAR APPROACHES
33 stability & transient responses, , , , ,
Board and
Chalk
34 root locus plots
35 Routh-Hurwitz stability Criterion
36 Nyquist stability for stability
37 Relative stability, stability analysis of pupillary light reflexes
38 Model of chyne-stokes breathing, problems
IDENTIFICATION OF PHYSIOLOGICAL CONTROL SYSTEMS
39 Basic problems in physiological system analysis
Board and
Chalk
40 Non-parametric & parametric identification methods,
41 Problems in parameter estimation,
42 Identification of closed loop systems
43 Identification under closed-loop conditions
44 Identification under closed-loop conditions
45 Problems
OPTIMIZATION IN PHYSIOLOGICAL CONTROL
46 Optimization in systems with negative feedback
47 Single parameter optimization-Control of respiratory frequency.
Board and
Chalk
48 Constrained optimization-airflow pattern regulation
49 Control of aortic pulse
50 Adaptive control of Physiological Variables
51 Problems
52 Problems
DEPT. OF MEDICAL ELECTRONICS MVJCE
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VTU QUESTION PAPER
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 44
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 45
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 46
10ML56-DIGITAL SIGNAL PROCESSING
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 47
SYLLABUS-10ML56
DIGITAL SIGNAL PROCESSING SUB CODE : 10ML56 IA Marks : 25
No of Lecture Hrs/Week : 04 Exam Hours : 03
Total No. of Lecture Hrs : 52 Exam Marks : 100
Academic Year 2012-13
PART - A UNIT - 1 Review of discrete signal and systems, DFT, IDFT, Properties of DFT
7 Hours
UNIT - 2 COMPUTATION OF FFT: Radix-2 Decimation in Time FFT, Radix-2
Decimation in Frequency FFT, Inverse FFT Algorithm.
6 Hours UNIT – 3 DIGITAL FILTER STRUCTURES: Basic IIR Filter Structures: Direct
forms (I & II), cascade and parallel realizations, Basic FIR filter structures-
Direct & cascade form structure. 6 Hours
UNIT – 4 FIR FILTERS: Properties, Filter Design using Windows (Rectangular,
Hamming, Hanning and Kaiser Window), Filter design using Frequency
sampling technique.
7 Hours
PART - B
UNIT – 5 &6
IIR FILTERS: Specification and design techniques, Impulse Invariant and
Bilinear Transformation techniques. Design of digital Butterworth and
Chebyshev low pass filters using Analog filter design techniques, Transform
of Low pass to High pass, Band pass and Band rejection filters, Comparison
of IIR and FIR filters
14 Hours
UNIT – 7 MULTIRATE DIGITAL SIGNAL PROCESSING: Introduction,
Decimation by a factor D, Interpolation by a factor I, Applications of
multirate signal processing: Interfacing of digital systems with different
sampling rate, Implementation of Digital filter banks, DFT filter banks,
Quadrature Mirror filter banks.
6 Hours UNIT- 8
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ADAPTIVE FILTERS: Adaptive filters, LMS adaptive algorithms,
Recursive least square algorithms, Applications of Adaptive filters.
6Hours
TEXT BOOKS: 1.Digital Signal Processing- PROAKIS and MANOLAKIS, 3rd
Edition, Prentice Hall of India / Pearson.
2. Real Time Digital Signal Processing: Fundamentals,
Algorithms and implementation using TMS Processor-
V.Udayashankara, Prentice Hall of India, New Delhi, 2010
REFERENCE BOOKS:
1. Digital Signal Processing- S K MITRA, 4th
Edition, Mc Graw-Hill.
2. Theory and Application of DSP- RABINAR L R and GOLD B,
Prentice Hall of India, 1999.
3. Introduction to digital signal processing- JOHNSON, Prentice
Hall of India 1999.
4. Digital Signal Processing-ALAN V OPPENHEIM, Prentice Hall of
India.
5. DSP using Matlab- Prokis & Ingle 1st
edition, Cengage Learning
DEPT. OF MEDICAL ELECTRONICS MVJCE
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LESSON PLAN- 10ML56
Sem: V Semester Hours/week: 04
Subject code: 10ML56 Total No. of hours: 52
Subject : DIGITAL SIGNAL PROCESSING
Academic Year 2012-13
Hours Topics to be covered
Mode of teaching
Discrete Fourier Transform
01 Introduction
Board and
Chalk
02 Review of discrete signal and system
03 Review of DFT
04 Review of DFT
05 Review of IDFT
06 Review of IDFT
07 Properties of DFT
Computation of FFT
08 Introduction
09 Radix-2 decimation in time FFT
10 Radix-2 decimation in time FFT
11 Radix-2 decimation in frequency FFT
12 Radix-2 decimation in frequency FFT
13 Inverse FFT algorithm
Digital filter structures
14 Introduction
15 Basis IIR filter structures (Direct forms I & II)
16 Basis IIR filter structures (Direct forms I & II)
17 Cascade and parallel realizations
18 Basic FIR filter structures (Direct I & II)
19 Basic FIR filter structures(cascade)
FIR Filters
20 Introduction
Board and
Chalk
21 Properties of FIR filters.
22 Introduction to different types of windows- rectangular, Hamming,
23 Hanning, and Kaiser windows,
24 Design of FIR filters using above windows.
25 Design of FIR filters using above windows.
26 Filter design using Frequency sampling technique.
IIR filters
27 Introduction.
28 Specification and design techniques
29 Specification and design techniques
30 Impulse invariant technique
31 Impulse invariant technique
32 Bilinear transformation technique
33 Bilinear transformation technique
34 Design of digital Butter worth
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 50
35 Design of digital Butter worth
36 Chebyshev low pass filters using analog filter design techniques
37 Chebyshev low pass filters using analog filter design techniques
Board and
Chalk
38 Transform of low pass to high pass,
39 To band pass and band rejection filters
40 Comparison of IIR & FIR digital filters.
Multirate digital signal processing
36 Introduction
37 Decimation by a factor D, interpolation by a factor I
39 Applications of multirate digital signal processing: interfacing of
digital systems with different sampling rate.
Board and
Chalk
40 Implementation of digital filter banks
41 DFT filter banks
42 Quadrature mirror filter banks.
Adaptive filters
43 Introduction
44 Properties of adaptive filters.
45 LMS adaptive algorithms.
46 Recursive least square algorithm.
47 Recursive least square algorithm.
48 Applications of adaptive filters.
51 Tests and revisions.
52 Tests and revisions
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 51
VTU QUESTION PAPER
Fifth Semester B.E. Degree Examination, Dec.09/Jan10 DSP and Applications in Medicine
Time:3 hrs. Max. Marks: 100 Note: Answer any FIVE full questions, selecting at least TWO questions from each part
I a) State and prove following properties of DFT
: i) Circular convolution.
ii) Linearity.
iii) Circular frequency shift.
b) Compute the N-point DFT of the sequence x(n)=an 0<=n<=N- I . (08 Marks)
2 a) Derive the Radix-2 DIF-FFT algorithm to compute DFT of an N=8 point sequence
and draw the complete signal flow graph. (10 Marks)
b) Consider the sequences defined by x(n)= 1, 0<=n<=3 0, otherwise h(n)= 1, 0<=n<=3
0, otherwise Compute the circular convolution of these sequences using DIT-FFT
algorithm. (10 Marks)
3 a) Obtain cascade and parallel form realization of the system given by the following
system function: 1-1/2 z-1 H(z)— (1-1/3 z-1) (1-1/4 z-1) (08 Marks)
b) Realize a linear phase FIR filter with the following impulse response h(n)=-5(n)+1/2
5(n-1)+1/3 8(n-2)+1/75(n-3)+1/3 8(n-4)+1/28(n-5)+ 8(n-6) (06 Marks)
c) Write a note on: i) Inplace computation ii) Computational efficiency of FFT.
(06 Marks)
4 a) The desired frequency response of LPF is, Hd(e'")= el3w ; -311/4<=w<=3H/4 0 ; 31-
1/4<lwl<F1 Design using Hamming window (u=7). Also obtain the frequency response.
(10 Marks)
b) Determine the coefficients h(n) t'or a linear phase FIR filter of length )1=15 which has
a symmetric unit impulse response and a frequency response that satisfy the conditions
(12Marks)
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DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 53
10MLL57-ANALOG IC’S AND COMMUNICATION LAB
DEPT. OF MEDICAL ELECTRONICS MVJCE
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SYLLABUS
ANALOG IC’S AND COMMUNICATION LAB
Subject code : 10MLL57 IA Marks : 25
Hours per week:03 Exam Hours : 03
Total Hrs:42 Exam Marks : 50
Academic Year 2012-13
1. Measurement of Op-amp parameters (I/P Offset current, I/P bias current, Slew rate, I/P
offset Voltage, PSRR, CMRR & offset nulling.
2. Inverting amplifier & attenuator, non-inverting amplifier& voltage follower, Adder,
subs tractor, integrator, differentiator.
3. Design of Astable and Monostable Multivibrator using 555 timer for pacemaker
circuit.
4. Amplitude Modulation: a) Collector modulation b) Base Modulation c) Emitter
Modulation.
5. Frequency Modulation- Using IC 8038.
6. Demodulation of AM & FM.
7. Mixers.
8. Analogs Multiplexer a) FDM b) TDM.
9. Digital Modulation- Generation & Recovery of ASK, FSK , BPSK.
10. Digital Modulation- Generation & Recovery of PCM, PPM, PWM.
11. Frequency Demodulator &Frequency Multipliers-Using Phase Locked Loop IC.
12. Study of active second order -- LP, HP, BP & BE Filters.
13. Study of optic fibers, Study of transmission of Analog & Digital signals through
optic fiber
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 55
LESSON PLAN
ANALOG IC’S AND COMMUNICATION LAB
Academic Year 2012-13
Exp No Name of the Experiment
Cycle-I
1 Measurement of Op-amp parameters (I/P Offset current, I/P bias current, Slew
rate, I/P offset Voltage, PSRR, CMRR & offset nulling.
2 Inverting amplifier & attenuator, non-inverting amplifier& voltage follower,
Adder, subs tractor, integrator, differentiator.
3 Design of Astable and Monostable Multivibrator using 555 timer for
pacemaker circuit.
4 Amplitude Modulation: a) Collector modulation b) Base Modulation c) Emitter
Modulation.
5 Frequency Modulation- Using IC 8038.
6 Demodulation of AM & FM.
7 Mixers.
Cycle-II
8 Analogs Multiplexer a) FDM b) TDM.
9 Digital Modulation- Generation & Recovery of ASK, FSK , BPSK.
10 Digital Modulation- Generation & Recovery of PCM, PPM, PWM.
11 Frequency Demodulator &Frequency Multipliers-Using Phase Locked Loop
IC.
12 Study of active second order -- LP, HP, BP & BE Filters.
13 Study of optic fibers, Study of transmission of Analog & Digital signals
through optic fiber
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 56
10MLL58-DIGITAL SIGNAL PROCESSING LAB
DEPT. OF MEDICAL ELECTRONICS MVJCE
V SEMESTER COURSE DIARY 57
SYLLABUS
DIGITAL SIGNAL PROCESSING LAB
Subject code : 10MLL58 IA Marks : 25
Hours per week:03 Exam Hours:03
Total Hrs:42 Exam Marks:50
Academic Year 2012-13
1. Representation and display of basic sequences.
2. Determine linear convolution, Circular convolution and Correlation of
two given sequences. Verify the result using theoretical computations.
3. Determine the linear convolution of two given point sequences using
FFT algorithm.
4. Determine the correlation using FFT algorithm.
5. Display of original sequence along with operation on sequence like
shifting, folding, time scaling and multiplication.
6. Display of DTFS of a sequence
7. Display of DFTF of a sequence.
8. Computation and verification FFT of a sequence.
9. Design and test FIR filter using Windowing method (Hamming window
and Kaiser window) for the given order and cut-off frequency for (a) LP
(b) HP (c) BP (d) Notch filter.
10. Realization of design of IIR filter for a given specification and
verification.
DEPT. OF MEDICAL ELECTRONICS MVJCE
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LESSON PLAN
DIGITAL SIGNAL PROCESSING LAB
Academic Year 2012-13
Exp
No
Name of the Experiment
Cycle-I
1 Representation and display of basic sequences.
2
Determine linear convolution, Circular convolution and Correlation of
two given sequences. Verify the result using theoretical computations.
3 Determine the linear convolution of two given point sequences using
FFT algorithm.
4 Determine the correlation using FFT algorithm.
5 Display of original sequence along with operation on sequence like
shifting, folding, time scaling and multiplication.
Cycle-II
6 Display of DTFS of a sequence
7 Display of DFTF of a sequence.
8 Computation and verification FFT of a sequence.
9
Design and test FIR filter using Windowing method (Hamming window
and Kaiser window) for the given order and cut-off frequency for (a) LP
(b) HP (c) BP (d) Notch filter.
10 Realization of design of IIR filter for a given specification and
verification.