B tech degree in electronics and biomedical engineering


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COCHIN UNIVERSITY OF SCIENCE & TECHNOLOGY

B TECH DEGREE

in

ELECTRONICS AND BIOMEDICAL ENGINEERING




SCHEME FOR I TO VIII SEMESTERS

(2006 Admission onwards)


Course No

Subject

Hrs./week

Internal

Marks

University

Marks

Total Marks

L

T/D/P

SEMESTER I&II (common to all)

EB/EC/EE/EI/CE/ CS/IT/ME/SE 101

Engineering Mathematics I

3




50

100

150

EB/EC/EE/EI/CE/ CS/IT/ME/SE 102

Engineering Physics

2




50

100

150

EB/EC/EE/EI/CE/ CS/IT/ME/SE 103

Engineering Chemistry

2




50

100

150

EB/EC/EE/EI/CE/ CS/IT/ME/SE 104

Engineering Mechanics

3

1

50

100

150

EB/EC/EE/EI/CE/ CS/IT/ME/SE 105

Engineering Graphics

1

3

50

100

150

EB/EC/EE/EI/CE/ CS/IT/ME/SE 106

Basic Civil and Mechanical Engineering

2




50

100

150

EB/EC/EE/EI/CE/ CS/IT/ME/SE 107

Basic Electrical and Electronics Engineering

2




50

100

150

EB/EC/EE/EI/CE/ CS/IT/ME/SE 108

Computer Programming

2




50

100

150

EB/EC/EE/EI/CE/ CS/IT/ME/SE 109

Technical Communication and Social Sciences

3




50

100

150

EB/EC/EE/EI/CE/ CS/IT/ME/SE 110

Computer Programming Laboratory




3

100




100

EB/EC/EE/EI/CE/ CS/IT/ME/SE 111

Electrical and Mechanical Workshops




3

100




100

EB/EC/EE/EI/CE/ CS/IT/ME/SE 112

Total

20

10

650

900

1550



Course No


Subject



Hrs./week

Internal marks

University marks

Total marks

L

T/D/P

SEMESTER III

EB/EC/EE/EI/CE/CS/IT/ME/SE 301

Engineering Mathematics II

4




50

100

150

EB/EC/EI/ IT/ME 302

Electrical Technology

4




50

100

150

EB 303

Principles of Anatomy & Physiology

4




50

100

150

EB/EC/EI 304

Digital Electronics

4




50

100

150

EB 305

Medical Physics

4




50

100

150

EB/EE/CS 306

Electronic Devices & Circuits

4




50

100

150

EB/EC/EI 307

Basic Electronics Laboratory

-

3

100




100

EB/EC/EI 308

Electrical Machines Laboratory

-

3

100




100




Total

24

6

500

600

1100



Course No

Subject

Hrs./ week

Internal marks

University marks

Total marks

L

T/D/P

SEMESTER IV

EB/EC/EE/EI/CE/CS/IT/ME/SE 401

Engineering Mathematics III

4




50

100

150

EB/EC/EI/CS 402

Microprocessors

4




50

100

150

EB 403

Integrated Circuits & Systems

4




50

100

150

EB 404

Bioelectric Phenomena

4




50

100

150

EB 405

Communication Techniques

4




50

100

150

EB/EC/EE/EI 406

Industrial & Power Electronics

4




50

100

150

EB/EC/EE/EI/CS 407

Digital Electronics Laboratory

-

3

100




100

EB 408

Analog Circuits Laboratory

-

3

100




100

Total

24

6

500

600

1100




Course No

Subject

Hrs./week

Internal marks

University marks

Total marks

L

T/D/P

SEMESTER V

EB/EC/EE/EI/CE/CS/IT/ME/SE 501

Engineering Mathematics IV

4




50

100

150

EB 502

Biomaterials

4




50

100

150

EB 503

Hospital Engineering

4




50

100

150

EB 504

Biosignal Processing - I

4




50

100

150

EB 505

Bioinstrumentation – I

4




50

100

150

EB/CS 506

Microprocessor based System Design

4




50

100

150

EB/EC/EI/CS 507

Microprocessor Laboratory

-

3

100




100

EB 508

Medical Electronics Laboratory - I

-

3

100




100

Total

24

6

500

600

1100




Course No

Subject

Hrs./week

Internal marks

University marks

Total marks

L

T/D/P

SEMESTER VI

EB 601

Biosensors and Transducers

4




50

100

150

EB 602

Biomechanics

4




50

100

150

EB 603

Bioinstrumentation – II

4




50

100

150

EB 604

Principles of Object Oriented Programming

4




50

100

150

EB/EC/EI/CS 605

Control Systems Engineering

4




50

100

150

EB 606

Biosignal Processing - II

4




50

100

150

EB 607

Medical Electronics Laboratory - II

-

3

100




100

EB 608

Mini Project

-

3

100




100

Total

24

6

500

600

1100

Course No

Subject

Hrs./week

Internal marks

University marks

Total marks

L

T/D/P

SEMESTER VII

EB/EC/EE/EI/CS/IT 701

Industrial Organization & Management

4




50

100

150

EB 702

Therapeutic Equipments

4




50

100

150

EB 703

Principles of Radio diagnosis and Radiotherapy

4




50

100

150

EB 704

Medical Imaging Techniques

4




50

100

150

EB 705

Elective I

4




50

100

150

EB 706

Biosignal Processing Laboratory

-

3

100




100

EB 707

Bioengineering Laboratory

-

3

100




100

EB 708

Seminar

-

2

50




50

EB 709

Main Project - Design




2

50




50






















Total

20

10

550

500

1050

ELECTIVE I

EB /EE 705 (A) Computer Communications

EB 705 (B) Biostatistics & Design of Experiments

EB/CS/IT 705 (C) Artificial Neural Networks

EB /EC/EI 705 (D) Mechatronics.

EB 705 (E) Embedded Systems and Applications

ourse No

Subject

Hrs./ week

Internal marks

University marks

Total marks

L

T/D/P

SEMESTER VIII

EB 801

Medical Image Processing

4




50

100

150

EB 802

Telemedicine

4




50

100

150

EB 803

Biophotonics

4




50

100

150

EB 804

Elective II

4




50

100

150

EB 805

Main Project




14

300




300

EB 806

Viva Voce










100

100

Total

16

14

500

500

1000

Grand Total

3700

4300

8000

ELECTIVE II

EB 804 (A) Modelling of Physiological Systems

EB/EC/CS/IT 804 (B) Bioinformatics

EB 804 (C) Computer Graphics and Volume Visualisation

EB/EE 804(D) VLSI Design

EB 804 (E) BioMEMS & Nanotechnology

CE/CS/EB/EC/EE/EI/IT/ME/SE 101 ENGINEERING MATHEMATICS I


MODULE I

Ordinary differential equations: First order differential equations-Methods of solution and Simple applications- Linear differential equations of higher orders with constant co-efficients- Methods of solution of these equations. Cauchy’s linear differential equations. Simultaneous linear differential equations- Simple applications of linear differential equations in engineering problems –Electrical Circuits, Mechanical Systems
MODULE II

Infinite series: Integral test, comparison test, ratio test, Cauchy’s root test, Raabe’s test, series of positive and negative terms, concept of absolute convergence, alternating series, Leibniz test (No proofs for any of the above tests)

Power series : Internal of convergence of power series, Taylor and Maclaurin series of functions, Leibniz formula for the nth derivative of the product of two functions (No proof),use of Leibniz formula for the determination of co-efficients of the power series.
MODULE III

Partial differentiation: Partial differentiation-Concept of partial derivative - Chain rule- Total derivative- Euler’s theorem for homogeneous functions, Differentials and their applications in errors and approximations, Jacobians - Maxima minima of functions of two variables(Proof of the result not required)-Simple applications.

Taylors series expansion for a function on two variables-Simple problems

Co-ordinate systems: Rectangular co-ordinates-Polar co-ordinates-In plane and in Space-Cylindrical polar co-ordinates-Spherical polar co-ordinates.
MODULE IV

Integral calculus: Application of definite integrals: Area, Volume, Arc length, Surface area. Improper Integrals-Beta function-Gamma function

Multiple integrals: Evaluation of double integrals-Change of order of integration. Evaluation of triple integrals-Change of Variables in integrals. Applications of multiple integrals Plane Area, Surface area &Volumes of solids
Text books:

1. Engineering mathematics -Vol1:S.S.Sastry, PHI publishers

2. Advanced Engineering Mathematics: Erwin Kreyzig, Wiley Eastern
References:

1. Mathematical Techniques: Oxford University Press

2. Engineering Mathematics: T.Veerarajan, TMGH Publishers

3. Higher Engineering Mathematics: B.S.Grewal, Khanna Publishers

CE/CS/EB/EC/EE/EI/ME/IT/SE 102: ENGINEERING PHYSICS
Module I:

Interference of light – Michelson interferometer – Applications-Interference in thin films – Antireflection coatings – Interference filters – Fringes produced by air wedge – Testing of flat surfaces- Diffraction of light –Zone plate - Plane diffraction grating - Reflection and transmission gratings – Determination of wavelength of light – Dispersive and resolving powers - Polarization of light – Double refraction – Nicol's prism – Quarter and half wave plates – Elliptically and circularly polarized light – Optical activity – Specific rotation – Half-shade polarimeter – Applications of polarized light.
Module II:

Lasers and Holography – Properties of laser light – Coherence of light – Principles of laser action – Population inversion – Optical pumping – Metastable states – Conditions for laser action – Types of lasers – Helium-Neon, Ruby and Semiconductor lasers – Applications of lasers – Principles of holography – Recording and Reconstruction of holograms – Applications of holography- Fiber optics – Light transmission through optical fiber – Numerical aperture – Multi and single mode fibers – Step index and graded index fibers – Fiber drawing – Fiber optic communication (basic ideas) – Ultrasonics – Generation of ultrasonic waves – Applications of Ultrasound.
Module III:

Quantum mechanics – Heisenberg's uncertainty principle - Experimental illustrations – Quantum mechanical wave equation – Time independent Schrodinger equation – Physical significance of wave function – Properties of the wave function – Solution of Schrodinger equation - Atomic and nuclear physics – The Vector atom model – Quantization of orbital angular momentum – Electron spin - Magnetic moment of orbital electron – Pauli’s exclusion principle– Zeeman effect – Stark effect – Raman effect. Nuclear physics – Nuclear forces – Properties of the nucleus - Nuclear reactions-Nuclear reaction cross section-Artificial radioactivity – Nuclear reactors – Nuclear fusion – Thermonuclear reactions-Controlled thermonuclear reactions.
Module IV:

X-rays – Production of X-rays – Origin of X-rays and X-ray spectra – Moseley's law – Properties of X-rays – Applications of X-rays – Diffraction of X-rays by crystals – Bragg's law – Crystallography – Unit cell – Seven crystal systems – Bravais space lattices - Packing factor – Lattice planes and Miller indices – Energy bands in solids – Conductors, semiconductors and insulators – Intrinsic and extrinsic semiconductors – Conductivity of semiconductors – Fermi level - Applications of semiconductors – p-n junctions – solar cells – Hall effect and its applications – Superconductivity – Superconducting transition – The Meissner effect – Type I and Type II superconductors – Isotope effect - High temperature superconductors – Josephson effect – SQUIDS – Applications of superconductors

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