COURSE OUTCOMES

COURSE OUTCOMES:-

Sl.No.	Code	Course Name		Course Outcomes
1	C101	Applied Mathematics-1	C101.1	Define first-order differential equation, linear differential equation and Bernoulli’s equation to find solution for electrical circuits.
			C101.2	Interpret linear differential equation of higher order, homogeneous equation with constant co-efficient, Euler – Cauchy equation and solutions by variations of parameter to model electric circuits.
			C101.3	Solve series solutions of differential equations, power series method, Legendre polynomials and Bessel’s function to solve complex engineering problems.
			C101.4	Illustrate first-order differential equation, linear differential equation and Bernoulli’s equation to find solution for electrical circuits.
			C101.5	Evaluate linear equation and vector space.
			C101.6	Derive the asymptote and curvature problems.
				AVG:
	C102	Basic Electrical Engineering	C102.1	Calculate energy consumption in electrical systems.
			C102.2	Basic knowledge about the Electric and Magnetic circuits, electromagnetism.
2			C102.3	Understand & demonstrate fundamentals of electromagnetism for working of Single-Phase transformer & electrostatics.
			C102.4	Apply knowledge of ac fundamentals to analyze series & parallel ac circuits.
			C102.5	Use the concept of poly phase ac circuit to analyze three phase star, delta circuits.
			C102.6	Apply the network theorems to analyze dc circuits.
				AVG:
3	C103	Basics of Mechanical Engineering	C103.1	Use  thermodynamics basics & terminolgy correctly.
			C103.2	Demonstrate the principles of thermal engineering in power producing fields
			C103.3	Explain the working of various power transmission devices  .
			C103.4	Understand the basic components of robots, differentiate types of robots and robot grippers.
			C103.5	Working of various instruments used for measuring temperature and pressure.
			C103.6	Working of various instruments used for measuring for flow, speed, stress, strain.
				AVG:
4	C104	Communicative English	C104.1	Define various elements and concepts related to communicative English.
			C104.2	Describe  EIE and RP in English Language
			C104.3	Perform for effective workplace communication
			C104.4	Illustrates the significance of professional writing
			C104.5	Relate the students of the nuances of soft skills
			C104.6	Derive the importance of Emotional Intelligence
				AVG:
5	C105	Chemistry	C105.1	Define the basics of quantum mechanical concepts and spectroscopy.
			C105.2	Understand the fundamental concepts on fuels as a branch of Industrial Chemistry.
			C105.3	Demonstrate the bulk properties and processes using phase Rule for different Component System.
			C105.4	Analyse an introductory idea about Corrosion and it’s Sources.
			C105.5	Formulate the application of Nanomaterial in the Medical and research field
			C105.6	Review ideas about New materials and it’s related areas.
				AVG:
6	C106	Basic Electrical Engineering Lab	C106.1	Understand the fundamentals of DC circuits and Network theorems
			C106.2	Analyses of different problems of electrical AC circuits.
			C106.3	Apply the concept of magnetic circuits.
			C106.4	Identify different types electrical machineries and its applications
			C106.5	Design the earthing and wiring for domestic utilization.
			C106.6	Evaluate the energy consumption of different luminaries.
7	C107	Chemistry Lab	C107.1	Define Titration through standardisation of KMnO4
			C107.2	Illustrate the procedure of determination of Flash point, Fire point, Viscosity of lubricating oil .
			C107.3	Estimate the amount of  Fe2+,  Ca2+, Total Hardness,  Percentage  of available Chlorine in a given sample.
			C107.4	Evaluate Hardness of water by Titration Method
			C107.5	Formulate Dissolved Oxygen  level in a sample of water.
			C107.6	Validate the amount of individual alkali present in a mixture and
				AVG:
8	C108	Basics of Mechanical Engineering Lab	C108.1	Understand main parts & working of Steam power plant,IC Engine & refrigerator
			C108.2	Identify the different parts of the automobile
			C108.3	Determine velocity ratio of belt drive.
			C108.4	Analyse of Gears and Gear trains
			C108.5	Verify  Bernoulli’s Theorem  & its application .
			C108.6	Understand the importance of different parts & systems in Automobiles.
				AVG:
9	C109	English Language Lab	C109.1	Understand the importance of clarity, precision, conciseness and coherence in one’s use of language both oral and written.
			C109.2	Communicate fluently and accurately with four skills :- Speaking, Listening, Writing & Reading.
			C109.3	Confident in verbal and nonverbal communication by means of practice
			C109.4	Create a lively and familiar communicative learning environment in the workplace.
			C109.5	Use the dictionary skills to find the correct pronunciation of words and perform various phonemic transcriptions.
			C109.6	learn to distinguish informal speech from formal speech through role plays
				AVG:
10	C110	Engineering Workshop	C110.1	Identify the various tools and tackles used in workshop.
			C110.2	Understand fitting theory in engineering.
			C110.3	Demonstrate the working principle of lathe machine.
			C110.4	Analyse the various methods of electric arc & gas welding,
			C110.5	Evaluate the  various methods of electric arc & gas welding
			C110.6	Compare the mechanism of shaper machine, milling machine and drilling machine etc.
				AVG:
11	C111	Engineering Mechanics	C111.1	Understand the fundamentals of Mechanics & compute the equilibrium of rigid bodies.
			C111.2	Learn the concept of parallel forces, moment, Couple & effect of friction on equilibrium.
			C111.3	Locate the Centroid & determine the area/mass moment of inertia of different shapes.
			C111.4	Understand the concept of  virtual work and determine the forces in members of trusses
			C111.5	Learn kinematics, kinetics of particle and rigid body, related principles
			C111.6	Solves the numerical on the projectile, D-Alembert’s principle and analyze impact of elastic bodies on collision.
				AVG:
12	C12	Mathematics-II	C112.1	Define Laplace Transform to get the solution to differential equation, convolution and Integral equation.
			C112.2	Interpret the concepts of Fourier series, Fourier transform, Fourier Integral
			C112.3	Solve beta function and error function to get solutions of complex real life problem.
			C112.4	Illustrate the scalar and vector problems.
			C112.5	Evaluate line integral and double integration problems
			C112.6	Formulate the techniques of combine the problems using Gauss divergence and Stoke’s theorem
				AVG:
13	C113	Physics	C113.1	Define the concepts of quantum mechanics.
			C113.2	Understand the basic features of different oscillatory systems, waves and related properties and properties of different types of solids.
			C113.3	Apply vector calculus in electromagnetic waves.
			C113.4	Analyse the application of quantum mechanics to various physical problems.
			C113.5	Compare interference and diffraction.
			C113.6	Justify the applications of LASERand Optical fibre in various fields.
				AVG:
14	C114	Basic Civil Engineering	C114.1	Define importance of Civil Engineering and List various construction materials.
			C114.2	Understand surveying and describe their types and the equipments used in it.
			C114.3	Demonstrate and identify different soils and its properties
			C114.4	Analyse fundamentals of Irrigation Engineering.
			C114.5	Plan and design roads .
			C114.6	Revise various aspects of Transportation Engineering
				AVG:
15	C115	Programming for Problem Solving using C	C115.1	Recite basic concepts including printf() and scanf() to execute simple programs.
			C115.2	Summerize the concept of branching and decission making to solve the problems.
			C115.3	Solve different problem statements using different looping structures.
			C115.4	Illustrate the derived data type array,function and pointer in programmings.
			C115.5	Select the user defind data type structure,union and enum for problem solving.
			C115.6	Devlop file using diferent file handling functions.
				AVG:
	C116	Basic Electronics Engineering	C116.1	Study basics of semiconductor & devices and their applications in different areas.
			C116.2	Study different biasing techniques to operate transistor , FET , MOSFET and operational amplifier in different modes.
			C116.3	Compare design issues, advantages, disadvantages and limitations of basic
				electronics.
16			C116.4	Analyze output in different operating modes of different semiconductor devices
			C116.5	Study basic concepts of digital electronics
			C116.6	Analyze simple combinational circuits.
				AVG:
17	C117	Physics Lab	C117.1	Define acceleration due to gravity, different moduli of elasticity & surface tension.
			C117.2	Explain the phenomena like interference and diffraction in Newton’s rings and for a plane diffraction grating.
			C117.3	Estimate the value of acceleration due to gravity and moduli of elasticity of different materials.
			C117.4	Differentiate the characteristic curve of PN diode and Bipolar junction transistor & charge and discharge time of a condenser connected in RC circuit.
			C117.5	Propose different frequencies for resonance for the vibrations in a stretched string using tuning forks.
			C117.6	Justify a project work on topics having different branches of physics.
				AVG:
18	C118	Programming for Problem Solving using C Lab	C118.1	Remember basic understanding of computer and basic concepts of programming to execute.
			C118.2	Understand the prospective, concepts and algorithm to develop a solution to problem.
			C118.3	Learn to concise and precise on implementing pseudo code in general to develop actual code.
			C118.4	Illustrate the derived data type array, function and pointer in programs.
			C118.5	Select the user defined data type structure, union and Enum for problem solving.
			C118.6	Develop file using different file handling functions.
				AVG:
19	C119	Basic Electronics Engineering Lab	C119.1	Identify different Electrical Instruments and measure different parameters.
			C119.2	Study connection and demonstration of DC generators, motors and wiring systems.
			C119.3	Study design and connection of Different Lamps
			C119.4	Identify active and passive electronic components and handle measuring instruments like CRO and DSO.
			C119.5	Design different circuits using diode, BJT and opamps.
			C119.6	Design and analyze logic gates
				AVG:
20	C120	Engineering Graphics	C120.1	List out the equipment required for engineering drawing.
			C120.2	Explain the concept of different angle of projection.
			C120.3	Apply projection rule in points, line, planes and solids.
			C120.4	Illustrate the concept of development theory on different solids.
			C120.5	Relate engineering drawing to AUTO CAD.
			C120.6	Able to draw the basic views related to projections of Lines, Planes
				AVG:
21	C121	Basic Civil Engineering Lab	C121.1	State shape and size of brick.
			C121.2	Identify comprehensive strength of brick.
			C121.3	Demonstrate strength of Mortar
			C121.4	Analyse chain Surveying.
			C121.5	Plan compass surveying.
			C121.6	Justify modern surveying by use of Total station.
				AVG:
22	C201	Mathematics-III	C201.1	Define complex number.
			C201.2	Discuss complex Analytic function.
			C201.3	Interpret complex integral function.
			C201.4	Evaluate numerical differential equation .
			C201.5	Deduce the probability theory.
			C201.6	Review the statistical techniques.
				AVG:
23	C202	Analog Electronics Circuit	C202.1	Define and understand fundamentals of BJT,FET, MOSFET.
			C202.2	Explain different types of amplifier and their design.
			C202.3	Apply various types of BJT and FET amplifiers.
			C202.4	Analyse the hardware components of  amplifier circuits.
			C202.5	Design different amplifier and oscillator circuits and its  applications..
			C202.6	Review frequency response of BJT and JFET Amplifiers.
				AVG:
24	C203	Object Oriented Programming Using JAVA .	C203.1	Recall different Object-oriented programming techniques.
			C203.2	Describe basic object-oriented features.
			C203.3	Explain the correlation between object and class.
			C203.4	Determine inheritance and wrapper classes to achieve code reusability.
			C203.5	Perform web applications using Applets and collection frame work
			C203.6	Design and create GUI based event driven programs using Swing and JavaFX.
25	C204	Signals and Systems	C204.1	Define and represent continuous and discrete time signals and systems.
			C204.2	Classify discrete time signals and systems.
			C204.3	Develop input output relationship for linear shift invariant system and understand the convolution operator for continuous and discrete time system.
			C204.4	Analyse and understand  the signals in frequency domain using Fourier series and Fourier transforms.
			C204.5	Point out the limitations of Fourier transform and need for Z- transform and develop the ability to analyze the system in z- domain.
			C204.6	Evaluate DFT and FFT algorithms for analysis of signals .
				AVG:
26	C205	Organizational Behaviour	C205.1	Outline the development of the field of organizational behaviour and explain the micro and macro approaches.
			C205.2	Explain different models used to explain individual behaviour related to motivation and rewards.
			C205.3	Demonstrate skills required for working in groups (team building).
			C205.4	Analyze the various leadership styles and the role of leaders in a decision making process.
			C205.5	Compare organizational cultures and describe its dimensions and to examine various organizational designs.
			C205.6	Compose the implementation of organizational change.
				AVG:
27	C206	Analog Electronics Circuit Laboratory	C206.1	Select analog devices using circuit specifications based on circuit requirements.
			C206.2	Identify and design amplifier of desired gain using BJT and FET.
			C206.3	Design various oscillatory circuits to generate at desired frequency of oscillation.
			C206.4	Calculate  amplifier gain having desired bandwidth.
			C206.5	Construct adder, differentiator and integrator circuit using Op-Amp.
			C206.6	Develop the various cascade amplifier circuits using BJT and FET models .
				AVG:
28	C207	Signal & Systems Laboratory using software	C207.1	Define various signals in transform domain and Work with MATLAB functions
			C207.2	Describe different parameters like mean,variance with proper Histogram Approach
			C207.3	Illustrate different distributions like Gaussian and Rayleigh .
			C207.4	Analyze different analog and discrete sequences and perform the transformation techniques like Fourier  and Z transforms.
			C207.5	Estimate the amplitude,frequency and power spectrum of various signals.
			C207.6	Design digital filters for various applications.
				AVG:
29	C208	OOP Using JAVA Lab.	C208.1	Define object oriented features, such as abstraction, inheritance, polymorphism for writing an effective program.
			C208.2	Explain different looping constructs for efficient programming
			C208.3	Perform class and object concepts for the construction of programming
			C208.4	Illustrate inheritance concepts for reusability of the code.
			C208.5	Implement exception handling to write robust programs.
			C208.6	Design web based applications using applets
				AVG:
30	C209	Evaluation of Internship-1	C209.1	State the functioning of  organization and observe changes for self improvement.
			C209.2	Explain how the internship placement site fits into a broader career field.
			C209.3	Apply appropriate workplace behaviors in a professional setting.
			C209.4	Solve real life challenges in the workplace by analysing work environment and conditions, and selecting appropriate skill sets acquired from the course
			C209.5	Evaluate the internship experience in terms of personal, educational and career needs.
			C209.6	Develop ideas for suitable startups to become sucessful enterpreneur.
				AVG:
31	C210	Engineering Economics	C210.1	Define all the fundamental and technical terms used in engineering economics : general concepts of micro and macro economic including theory of demand, law of demand, elasticity of demand etc
			C210.2	Understand the elasticity of demand and supply.
			C210.3	Solve cost and revenue based problems using Break Even Analysis approach.
			C210.4	Analyze  the functioning of Banks and concepts of Inflation.
			C210.5	Evaluate banking structures and various financial services.
			C210.6	Formulate the depreciation using different methods like Straight line method, Declining balance method.
				AVG:
32	C211	Electromagnetic Theory	C211.1	State  Field Equations; Wave Types; the Parallel-Plate Waveguide; the Rectangular Waveguide.
			C211.2	Explain Maxwell’s Equations in Differential Form; Maxwell’s Equations in Integral Form.
			C211.3	Apply integral and point form of Maxwell`s equations for solving the problems of electromagnetic field theory.
			C211.4	Calculate  the solutions of problems related to  the concepts related to uniform plane wave propagation  in  two dielectric regions
			C211.5	Develop   Circuit Model of a Uniform Two Conductor Transmission Line.
			C211.6	Validate the Various Mathematical  coordinate like  Cartesian, Cylindrical and Spherical Coordinate Systems, Coulomb’s Law and Gauss’s Law.
				AVG:
33	C212	Sensors and Transducers	C212.1	Use concepts in common methods for converting a physical parameter into an electrical quantity.
			C212.2	Choose proper sensor comparing different standards and guidelines to make sensitive measurements of physical parameters like pressure, flow, acceleration, etc.
			C212.3	Classify and explain with examples of transducers, including those for measurement of temperature, strain, motion, position and light.
			C212.4	Predict correctly the expected performance of various sensors.
			C212.5	Locate different type of sensors used in real life applications and paraphrase their importance
			C212.6	Set up testing strategies to evaluate performance characteristics of different types of sensors and transducers and develop professional skills in acquiring and applying the knowledge outside the classroom through design of a real-life instrumentation system.
				AVG:
34	C213	Network Theory	C213.1	Define different types of the theorem,Different circuit elements and different types of filters.
			C213.2	Understand the basic theorems and elements of electrical network to analyze complex problem
			C213.3	Apply Laplace transform, Fourier series to get response of Electrical circuits and Electronics Circuits.
			C213.4	Analyze the property of two ports network, coupled circuit and resonance
			C213.5	Evaluate steady state and transient behavior of Electrical circuits
			C213.6	Create Laplace Transform equation ,Two port network.
				AVG:
35	C214	Data Structure	C214.1	Identify and implement asymptotic notations of an algorithm to analyse the consumption of resources (time/space).
			C214.2	Discuss the concept of linear data structure and their sequential representation in programming.
			C214.3	Demonstrate linear data structure and their linked representation in terms of programming
			C214.4	Analyse various searching and sorting techniques such as linear search, binary search, bubble sort, insertion sort, quick sort and heap sort using C programming
			C214.5	Evaluate and compare tree traversal techniques
			C214.6	Design a real life application through linear data structure using dynamic memory allocation
36	C215	Digital Systems Design	C215.1	Define the combinational and sequential circuit operation.
			C215.2	Explain a counter having a specified count sequence using state diagrams and state table
			C215.3	Apply the HDL for all digital circuits.
			C215.4	Analyse the layout of various digital circuit.
			C215.5	Design digital circuits, use standard laboratory instrumentation to verify the operation of the circuits, and use PC-based electronic circuit simulation software.
			C215.6	Validate combinational logic circuits using programmable logic devices.
				AVG:
37	C216	Electronic Device Laboratory	C216.1	Have understanding of Maxwell’s equations and be able to manipulate and apply them to EM problems.
			C216.2	Formulate and analyze problems involving lossy media with planar boundaries using uniform plane waves.
			C216.3	able to derive and apply the steady state transmission line equations ti the design of simple distributed circuit components
			C216.4	Analyze and design basic microwave circuits using microwave network parameters
			C216.5	: Fpr simple antennas derive fundamental antenna parameters starting from Maxwell’s equations and be able to use these in the design of rudimentary wireless communications systems
			C216.6	Evaluate SWR of rectangular waveguide
38	C217	Digital System Design Laboratory	C217.1	State the truth table of basic gates, universal gates and exclusive gates.
			C217.2	Explain the various Boolean Expression using universal gates.
			C217.3	Demonstrate various  sequential circuit operations like latch and flip-flop.
			C217.4	Analyse VHDL code for various combinational and sequential circuit.
			C217.5	Design and test various combinational  Circuits using Gates.
			C217.6	Justify various Registers using flipflop.
				AVG:
39	C218	Network Theory Laboratory	C218.1	Define different types of theorems.
			C218.2	Explain transient behaviour  of electrical Circuit.
			C218.3	Demonstrate the frequency response of different filter circuits.
			C218.4	Determine different circuit parameters.
			C218.5	Design the Resonance of electrical Circuit to find the solution of different complex networks.
			C218.6	Decide different types of two-port network.
				AVG:
40	C301	Digital VLSI Design	C301.1	understand the Concept of VLSI Design
			C301.2	Identify the Fabrication approach of MOS Transistor
			C301.3	Demonstrate the MOS Inverters and Combinational Inverters
			C301.4	Generalise the types of Sequential and Dynamic MOS Logic Circuits
			C301.5	List the Different types of Design testing techniques
			C301.6	Distinguish the Different types of Semiconductor Memories
				AVG:
41	C302	Control Systems	C302.1	Define different types of control system.
			C302.2	Identify 1st and 2nd order system in time domain using different technique like root locus, RH criteria etc.
			C302.3	Apply 1st and 2nd order system in frequency domain using different technique like Bode Plot, Polar Plot, Nyquist Plot etc.
			C302.4	Analyse stability of linear systems using the Routh-Hurwitz Criterion and use this to generate control design constraints.
			C302.5	Formulate the  gain and phase margins from Bode diagrams and Nyquist plots and understand their implications in terms of robust stability.
			C302.6	Validate the controllability and observability and design suitable observers for the systems.
				AVG:
42	C303	Digital Signal Processing	C303.1	Identify the characteristics of different digital systems like linear time-invariant systems and others
			C303.2	Explain Z- transform and  systems in z- domain.
			C303.3	Apply different signal Processing algorithms like DFT and FFT
			C303.4	Analyze the various important characteristics of different transformation Techniques used in Digital Signal processing.
			C303.5	Evaluate the concepts behind the design and realization of FIR filters.
			C303.6	Design and realization of IIR filters.
				AVG:
43	C304	Analog and Digital Communication	C304.1	Define different analog modulation schemes for their efficiency and bandwidth.
			C304.2	Understand the basic concepts of the analog
				communication systems.
			C304.3	Apply Fourier analysis to communication signals .Derive the energy or power spectral density of signals.
			C304.4	Analyze  the performance of basic communication techniques, and to design communication system components to satisfy given requirements.
			C304.5	Deduce PCM systems and its characteristics .
			C304.6	Analyze the spectral characteristics of band pass signaling schemes and their noise performance
				AVG:
44	C305	Microprocessors & Microcontrollers	C305.1	Describe the microprocessor’s and Microcontroller’s internal architecture and its operation .
			C305.2	Distinguish the various addressing modes and identify instructions of the microprocessor and microcontroller.
			C305.3	Apply the standards and guidelines to select appropriate Microprocessor (8085 & 8086) and Microcontroller to meet specified performance requirements.
			C305.4	Analyze assembly language programs; select appropriate assembler into machine  utility of a microprocessor and microcontroller.
			C305.5	Design electrical circuitry to the Microprocessor I/O ports in order to interface the processor to external devices.
			C305.6	Evaluate assembly language programs and download the machine code that will provide solutions real‐world control problems.
				AVG:
45	C306	Microprocessor and Microcontroller Lab	C306.1	Describe arithmetic operations using assembly language programming training boards.
			C306.2	Demonstrate ability to handle logical operations using assembly language programming .
			C306.3	Illustrate the use of string instructions using assembly language programming
			C306.4	Analyze sorting operations and develop  assembly language programming
			C306.5	Discriminate different interfacing devices for various application
			C306.6	Design various automated systems using microcontrollers.
				AVG:
46	C307	Digital Signal Processing Lab	C307.1	Examine DSP algorithms in software using a computer language such as C with TMS320C6713 floating point Processor.
			C307.2	Demonstrate various DSP Algorithms using MATLAB Software package.
			C307.3	Calculate Magnitude and phase characteristics (Frequency response Characteristics) of digital IIR-Butterworth,Chebyshev filters.
			C307.4	Compare Magnitude and phase characteristics (Frequency response Characteristics) of digital FIR filters using window techniques.
			C307.5	Reframe knowledge of digital filter design for various applications.
			C307.6	Design and Analyze Digital Filters using FDA Tool.
				AVG:
47	C308	Analog  and Digital Communication Lab	C308.1	Define pre-emphasis and de-emphasis at the transmitter and receiver respectively
			C308.2	Understand different analog modulation schemes and evaluate modulation index
			C308.3	Apply various techniques in solving communication problems
			C308.4	Analysis of different digital modultion techniues in communication
			C308.5	Formulate methods for up-to-date examples of real world systems
			C308.6	Assess the error detection and error correction in linear convolutioncodes.
				AVG:
48	C309	Evaluation of Internship-2	C309.1	State the functioning of  organization and observe changes for self improvement.
			C309.2	Explain how the internship placement site fits into a broader career field.
			C309.3	Apply appropriate workplace behaviors in a professional setting.
			C309.4	Solve real life challenges in the workplace by analysing work environment and conditions, and selecting appropriate skill sets acquired from the course
			C309.5	Evaluate the internship experience in terms of personal, educational and career needs.
			C309.6	Develop ideas for suitable startups to become sucessful enterpreneur.
				AVG:
49	C310	Microwave Engineering	C311.1	Gain knowledge and understanding of microwave analysis methods.
			C311.2	Have knowledge of how transmission and waveguide structures and how theyare used as elements in impedance matching and filter circuits.
			C311.3	understand the construction and operation of microwave components.
			C311.4	Analyse the operation of Microwave antennas.
			C311.5	Study transmission of microwaves through waveguides.
			C311.6	Examine the operation of coaxial loops.
				AVG:
50	C311	Wireless Communication	C312.1	Explain the Classification of mobile communication systems
			C312.2	Analyze the radio channel characteristics and the cellular principle
			C312.3	Analyze the measures to increase the capacity in GSM systems- sectorization and Spatial Filtering for Interference Reduction
			C312.4	Ability to analyze improved data services in cellular communication
			C312.5	Compare different technologies used for wireless communication systems
			C312.6	Demonstrate an ability to evaluate design challenges, constraints and security issues associated with Ad-hoc wireless networks.
				AVG:
51	C312	Artificial Intelligence and Machine Learning	C313.1	To study the distinction between optimal reasoning Vs. human like reasoning.
			C313.2	To understand the concepts of state space representation, exhaustive search, heuristic search together with the time and space complexities.
			C313.3	To get an idea on different knowledge representation techniques
			C313.4	To understand the applications of AI, namely game playing, theorem proving
			C313.5	To realize problems under uncertainty and acquire machine learning algorithms
			C313.6	Familiarizing students with specific knowledge of Artificial intelligence and machine learning
				AVG:
52	C313	Optimization in Engineering	C314.1	Apply basic concepts of mathematics to formulate an optimization problem.
			C314.2	Analyze and appreciate variety of performance measures for various optimization problems
			C314.3	To understand importance of optimization in different sectors
			C314.4	To understand the theory of optimization methods and algorithms developed for solving various types of optimization problems
			C314.5	To develop and promote research interest in applying optimization techniques in problems of Engineering and Technology
			C314.6	To apply the mathematical results and numerical techniques of optimization theory to concrete Engineering problems
				AVG:
53	C314	Biomedical Instrumentation	C315.1	Understand the physiology of biomedical system
			C315.2	Understand various types of  electrodes used in biomedical instrumentation
			C315.3	Develop a thorough understanding on basics of biomedical amplifiers
			C315.4	Understand basic working principle of different Transducers
			C315.5	Develop a thorough understanding on principles of medical instrumentations.
			C315.6	Develop a thorough understanding on clinical applications of medical instrumentation systems.
54	C315	Future Ready Contributor Program	C316.1	Improve the employability of students by giving them the right work ethic and thinking that employers are looking for.
			C316.2	Improve their ability to engage better in the workplace and to be able to handle the challenges that come up there.
			C316.3	Widen their choices of career and success, so that they are able to open up more opportunities for themselves and take up unconventional career pathways.
			C316.4	Build their confidence with which they can go into any job and contribute meaningfully.
			C316.5	Enable them recognize how they as technical professionals, can participate and make a positive contribution to their communities and to their state.
			C316.6	Build their career-worthiness and help them develop into future-ready contributors with ability to navigate a career in a volatile, changing world.
				AVG:
55	C316	Seminar – I	C317.1	List new research area from a range of academic disciplines.
			C317.2	Explain an emerging field at the intersection of multi-disciplinary understandings of culture and education.
			C317.3	Estimate new perspectives in the emerging technology.
			C317.4	Analyse Interdisciplinary inventions in latest technology
			C317.5	Develop argumentative Skills and Critical Thinking
			C317.6	Argue the  impact of engineering solutions on the society and  contemporary issues.
				AVG:
56	C317	Microwave Engineering Lab	C318.1	Demonstrate the operation of different microwave sources (i.e. Reflex Klystron, Gunn Diode)
			C318.2	Measure Voltage Standing Wave ratio
			C318.3	Estimate unknown impedance using shift in minima technique using a waveguide test bench.
			C318.4	Determine the radiation pattern and polarization of Microwave antennas.
			C318.5	Analyze  passive devices i.e. Directional Coupler in terms of scattering matrix.
			C318.6	Develop the dielectric constant of a material using waveguide test bench at X-band.
				AVG:
57	C318	Wireless Communication Lab	C319.1	State Cellular concepts, GSM and CDMA networks
			C319.2	Explain multiple access techniques for Wireless Communication
			C319.3	Apply the different methods of Handoff mechanisms
			C319.4	Compare different technologies used for wireless communication systems
			C319.5	Evaluate design challenges, constraints and security issues associatedwith Ad-hoc wireless networks.
			C319.6	Justify various methodologies to improve the cellular capacity
				AVG:
58	C401	Internet of Things	C401.1	Identify the IoT networking components with respect to OSI layer.
			C401.2	Demonstrate schematic for IoT solutions
			C401.3	Illustrate the communication protocols for IoT
			C401.4	Analyze different IoT protocols and software.
			C401.5	Evaluate the wireless technologies for IoT
			C401.6	Design and develop IoT based sensor systems.
				AVG:
59	C402	Soft Computing	C402.1	Define importance of applications of soft computing in real life problems.
			C402.2	Explain supervised and unsupervised learning algorithms to find optimized solutions for linear and non-linear problems.
			C402.3	Demonstrate fuzzy systems using knowledge of fuzzy rule based system and fuzzy rule based reasoning.
			C402.4	Analyze derivative free optimization models and optimized search techniques using evolutionary operators.
			C402.5	Evaluate and apply hybrid tools to find optimized solutions for highly complex problems by exploiting advanced features of the tool.
			C402.6	Devlop soft computing techniques to solve real life problems.
				AVG:
60	C403	Digital Image Processing	C403.1	Review the fundamental concepts of a digital image processing system
			C403.2	Analyze images in the frequency domain using various transforms
			C403.3	Evaluate the techniques for image enhancement and image restoration
			C403.4	Categorize various compression techniques
			C403.5	Interpret Image compression standards.
			C403.6	Interpret image segmentation and representation techniques
				AVG:
61	C404	Image and Video Processing	C404.1	Comprehend the image processing fundamentals and enhancement techniques in spatial and frequency domain.
			C404.2	Describe the color image fundamentals, models and various restoration techniques.
			C404.3	Illustrate quantitative models of image and video segmentation.
			C404.4	Comprehend the basics of video processing and video coding.
			C404.5	Outline the various image segmentation and morphology operations.
			C404.6	Design and Analyze the image compression systems.
				AVG:
62	C405	Minor Project	C405.1	Identify the components required for the project of  the chosen area of defined technology for project development.
			C405.2	Describe the technical aspects of the chosen project with a comprehensive and systematic approach.
			C405.3	Apply  technical aspects for engineering projects.
			C405.4	Work as an individual or in a team to develop and analyse the technical projects.
			C405.5	Evaluate and report effectively project related activities and findings
			C405.6	Compile and Justify the result with logical conclusion
				AVG:
63	C406	Seminar-II	C406.1	List new research area from a range of academic disciplines.
			C406.2	Explain an emerging field at the intersection of multi-disciplinary understandings of culture and education.
			C406.3	Estimate new perspectives in the emerging technology.
			C406.4	Analyse Interdisciplinary inventions in latest technology
			C406.5	Develop argumentative Skills and Critical Thinking
			C406.6	Argue the  impact of engineering solutions on the society and  contemporary issues.
				AVG:
64	C407	Entrepreneurship Development	C407.1	Outline the business environment in order to identify business opportunities.
			C407.2	Understand the legal and financial conditions for starting a business venture.
			C407.3	Apply the knowledge on enterprise and design business plans those are suitable for funding by considering all dimensions of business.
			C407.4	Analyze the effectiveness of different entrepreneurial strategies.
			C407.5	Evaluate the basic performance indicators of entrepreneurial activity.
			C407.6	Generate the importance of marketing and management in small businesses venture.
				AVG:
65	C408	Green Technology	C408.1	Enlist different concepts of green technologies in a project
			C408.2	Understand the principles of Energy efficient technologies
			C408.3	Estimate the carbon credits of various activities
			C408.4	Identify the importance of life cycle assessment
			C408.5	Recognize the benefits of green fuels with respect to sustainable development.
			C408.6	To impart knowledge on the methods of reducing CO2 levels in atmosphere.
				AVG:
66	C409	Comprehensive Viva	C409.1	State the  engineering knowledge learnt in four year graduation course.
			C409.2	Describe the related academic concept
			C409.3	Apply knowledge in developing  career in particular field.
			C409.4	Classify different techniques.
			C409.5	Deduce engineering problems.
			C409.6	Review different concept in related concepts of engineering
				AVG:
67	C410	Major Project	C410.1	Define engineering problem, devise a means of solving and exhibit the ability to execute the solution.
			C410.2	Describe the  impact of engineering solutions on the society .
			C410.3	Demonstrate knowledge of professional and ethical responsibilities.
			C410.4	Conclude effectively in both verbal and written form.
			C410.5	Develop confidence for self-education and ability for lifelong learning.
			C410.6	Appraise the result with logical conclusion.
				AVG:

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