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Course Outcomes (COs)

Course Outcomes (COs)

COs of ECE Department (2019-20)

3rd Semester                  

AS-201N.1 Understanding the nonperiodic phenomena and the techniques to develop periodic functions as Fourier series
AS-201N.2 Demonstrate the concept of Fourier integrals for non periodic functions and their applications for solution of initial and boundary value problems
AS-201N.3 Analyze partial differential equations and conclude various methods to their solutions.
AS-201N.4 Interpreting the linear programming problems and its solutions by using various methods
AS-201N.5 Understanding the concept of complex functions and its applications to engineering problems.
AS-201N.6 Illustrate probability distributions and their applications in various engineering problems
Cos Student will be able to
ECE-201N.1 Classify different types of signals and systems.
ECE-201N.2 Understand the concept of Random Variable and analysis of systems using convolution technique.
ECE-201N.3 Apply sampling phenomenon of continuous signal to convert into digital signal.
ECE-201N.4 Illustrate spectral analysis of continuous and discrete time signals using Fourier Series.
ECE-201N.5 Apply Fourier Transform technique to analyze continuous-time and discrete-time systems.
ECE-201N.6 Apply Laplace Transform technique to analyze continuous-time systems.
ECE-203N.1 Explain concept of carrier transport phenomena in semiconductors devices and Fermi energy level position variation with doping
ECE-203N.2 Justify the operation of different diodes working along with V-I characteristics
ECE-203N.3 Explain the working mechanism of Bipolar Junction Transistor in various configurations with characteristics.
ECE-203N.4 Examine working of transistor amplifier using hybrid model to find out various parameters like I/O impedance, V-I gain
ECE-203N.5 Analyze the non ideal behavior of FET devices regarding their construction, operation, voltage current characteristics using N channel and P channel.
ECE-203N.6 Design different kind of regulated power supplies.
ECE-205N.1 Apply the concept of graph theory on network topologies.
ECE-205N.2 Analyze the network in the time domain and frequency domain for different singular functions.
ECE-205N.3 Evaluate the time domain behavior from the pole-zero plots.
ECE-205N.4 Utilize the characteristics & parameters of two port networks.
ECE-205N.5 Illustrate the concept of passive filters and one port networks.
ECE-205N.6 Design the passive filters and one port networks for given problems.
ECE-207N.1 Apply boolean algebra to understand binary logic and logic circuits.
ECE-207N.2 Apply the design procedure to construct basic combinational circuits and verify their functionalities.
ECE-207N.3 Understand the operational and electrical characteristics of logic families.
ECE-207N.4 Design and analysis of synchronous and asynchronous sequential circuits using flip flops.
ECE-207N.5 Classify various types of memories with their operations.
ECE-207N.6 Implement combinational logic circuits using various programmable logic devices.
ECE-209N.1 Describe different types of noise and predict its effect on various analog communication systems.
ECE-209N.2 Understand the concept of amplitude and angle modulation and analyse their voltage, power and current relations.
ECE-209N.3 Illustrate and classify various AM transmission and reception techniques.
ECE-209N.4 Outline the different frequency modulation transmission and reception methods and evaluate with various techniques.
ECE-209N.5 Explain the various SSB transmission and reception techniques with applications.
ECE-209N.6 Classify the Analog pulse modulation techniques and comparative analysis amongst them.

4th semester

AS-206N.1 Develop techniques of aolutin of nonlinear equations
AS-206N.2 Understanding the concept of  linear system and its solutions
AS-206N.3 Demonstrate various type of interpolations and their applications.
AS-206N.4 Constructing the numerical techniques of Differentation and integration
AS-206N.5 Develop the  techniques of numerical solution of differential equations
AS-206N.6 Formulate the technique  for fitting of curves
ECE-202N.1 Define various data structures like array, linked list.
ECE-202N.2 Explain operations like searching, insertion, and deletion, traversing mechanism  on various data structures.
ECE-202N.3 Construct Non Linear data structure using Linear data structures.
ECE-202N.4 Analyze the complexity of given algorithms.
ECE-202N.5 Implement appropriate sorting/searching technique.
ECE-202N.6  Design advance data structure using Non Linear data structure.
Electronics Measurements and Instruments (ECE-204N)
ECE-204N.1 Explain the usage of Data Acquisition systems in communication
ECE-204N.2 Apply the knowledge of voltage indicating and recording devices such as CRO to measure frequency, phase with oscilloscope
ECE-204N.3 Examine various electronic instruments, digital instruments and transducers for measurement of various parametes, to be able to use in industrial applications
ECE-204N.4 Compare the performance of various dc bridges for measurement of resistance and ac bridges for measurement of inductance and capacitance
ECE-206N.1 Summarize the concept of Vector Calculus and Coordinate Systems.
ECE-206N.2 Apply the concept of Electrostatic Field with its application and properties.
ECE-206N.3 Apply the concept of Magneto-static Field and Maxwell Equation with its application and properties.
ECE-206N.4 Apply the Maxwell Equation to analyse uniform plane waves and their propagation in different mediums.
ECE-206N.5 Analyze the basic fundamentals of Transmission Lines and its properties.
ECE-206N.6 Analyze the different modes of wave propagation in waveguides.
ECE-208N.1 Illustrate the basics concept of BJT and FET
ECE-208N.2 Interpret and analyze BJT and FET amplifiers for small signals and high frequency signals.
ECE-208N.3 Implement the transistor circuits in field of high and low frequency.
ECE-208N.4 Analyze the feedback amplifiers in terms of their input and output impedance
ECE-208N.5  Design various circuits by using both op-amp and BJT
ECE-210N.1 Recall the basic concepts of computer hardware and software
ECE-210N.2 Classify and explain the instruction set and programming concepts in CPU
ECE-210N.3 Illustrate the methods of control unit design
ECE-210N.4 Apply the digital arithmetic concepts for the design of ALU.
ECE-210N.5 Classify  different types of memory and Analyze some of the design issues in terms of speed, technology, cost, performance.
ECE-210N.6 Analyze the techniques like pipelining, parallel processing, RISC used in system organization and access their performance

5th semester

ECE-301N.1 Recall the basic architecture of microprocessors and understand  its components.
ECE-301N.2 Understand the detailed architecture of microprocessor (8085,8086).
ECE-301N.3 Classify and explain the instruction set and programming concepts in  assembly language.
ECE-301N.4 Apply the programming tools to solve different problems in assembly language.
ECE-301N.5 Interface peripherals with microprocessor
ECE-301N.6 Design the systems /models based on microprocessor.
HS-303N.1 A broad operational understanding about the Entrepreneurs and analyze the competences needed to become an entrepreneur.
HS-303N.2 Obtain a practical insights into the management, opportunity search, identification of a product, market feasibility studies.
HS-303N.3 Build business idea, export marketing and product identification.
HS-303N.4 Apply different financial assistance for establishing small industrial units.
HS-303N.5 Adapt their awareness and deliberately practice the skills and disciplines necessary to increase confidence and improve communication and problem-solving skills.
HS-303N.6 Analyze  the function of the entrepreneur in the successful, commercial application of innovation.
ECE-303N.1 Understand the performance parameters of antenna and apply them to calculate performance of antenna.
ECE-303N.2 Applying the mechanism for calculating the radiated fields of antennas.
ECE-303N.3 Analyzing the requirements, principals, and structures of different antennas.
ECE-303N.4 Designing microstrip patch antennas for different frequencies.
ECE-303N.5 Classify different modes of wave propagation.
ECE-303N.6 Illustrate the effects of atmosphere on radio wave propagation.
ECE-305N.1 Understand the basic concepts in VLSI, purification process of Silicon and fabrication processes involved in Integrated Circuits
ECE-305N.2 Classify  clean room standards on the basis of number and size of particles per volume of air.
ECE-305N.3 Apply existing mathematical models, to estimate the thickness of oxide layer, etch rate, deposition rate.
ECE-305N.4 Compare processes of doping and assess the suitability of a process for fabrication.
ECE-305N.5 Design the fabrication steps for a device with the knowledge of fabrication processes
CSE-304N.1 Define the concepts of Data Structures and object oriented programming.
CSE-304N.2 Explain the solution using various efficient and reliable algorithms.
CSE-304N.3 Design the use case diagram and class diagrams for real life problems.
CSE-304N.4 Develop artifacts using common quality standard.
CSE-304N.5 Design data store using RDBMS concepts.
ECE-307N.1 Applying the mathematical and graphical methods to simplify complex control system.
ECE-307N.2 Evaluate the response and error analysis of system in time domain.
ECE-307N.3 Evaluate the conditions for stablity of a sytstem in time domain through routh-hurwitz and root locus technique.
ECE-307N.4 Analyze performance characteristics of a sytstem in frequency domain.
ECE-307N.5 Analyse the system with state variable approach.
ECE-307N.6 Apply the compensation technique to design a compensator with desired specification.

6th semester

ECE-302N.1 Explain the significance of Z Transform and Fourier Transform in analysis of LTI system, Goertzel algorithm, Chirp Z-transform(Understanding)
ECE-302N.2 Demonstrate the frequency domain of signal using DFT and  causality, stability properties of LTI system by applying Z Transform(Applying)
ECE-302N.3 Construct various types of structures for FIR and IIR filter of Discrete Time Systems. (Applying)
ECE-302N.4 Analyze working mechanism of FIR and IIR filters (Analyzing)
ECE-302N.5 Compare various aspects of Butterworth, Chebyshev and Elliptical filter design technique (Evaluation)
ECE-302N.6 Design IIR and FIR filter by applying knowledge of various techniques. (Creating)
ECE-304 N.1 Understand the constructs and conventions of the Verilog HDL programming.
ECE-304 N.2 Differentiate between the structural, register-transfer level (RTL), and algorithmic levels of Abstraction for modeling digital hardware systems.
ECE-304 N.3  Design and modeling of combinational and sequential digital systems (Finite State Machines)
ECE-304 N.4 Apply the concept of  test-benches to create testing behavioral environments for simulation based verification.
ECE-304 N.5 Implement the concepts of UDPs , tasks, function and compiler directives to improve the design.
ECE-306N.1 Illustrate information theory and analyze various error-correcting techniques .
ECE-306N.2 Analyze the importance of Synchronization in Communication System.
ECE-306N.3 Evaluate the performance of PCM, DPCM and DM in a digital communication system.
ECE-306N.4 Evaluate and compare various digital modulation techniques.
ECE-306N.5 Analyze various Detection Related Problems in Digital Communication Systems.
HS-302N.1 Explain the management as a discipline and illustrate the practical understanding of the different approaches to management and role of a business manager.
HS-302N.2 Analyze the business planning process and techniques and organize its different functions.
HS-302N.3 Make use of various concepts of staffing in order to create understanding of how to get the right people for the organization.
HS-302N.4 Illustrate the importance of communication, motivation and leadership to effectively deal with workforce in order to get the optimum outcomes.
HS-302N.5 Assess and minimize the gap between expected and actual performance in an organization.
HS-302N.6 Elaborate about social responsibility of conducting business and organization’s functional areas.
ECE-308N.1 Define and explain concept of computer networks.
ECE-308N.2 Compare OSI model and TCP/IP model.
ECE-308N.3 Illustrate the process of data link layer and medium access sublayer.
ECE-308N.4 Analyze the concept and design issue of network , transport and session layer.
ECE-308N.5 Evaluate the cryptography and data compression technique .
ECE-308N.6 Analyze the concept and design issue of  application layer.

7th Semester

ECE-401N.1 Recall the basic architecture of microcontrollers & microprocessors and understand the term embedded systems and its components.
ECE-401N.2 Understand the detailed architecture of microcontrollers (8051, PIC16, AVR, ARM).
ECE-401N.3 Classify and explain the instruction set and programming concepts in C and assembly language.
ECE-401N.4 Apply the programming tools to solve different problems in C and assembly language.
ECE-401N.5 Interface peripherals with microcontrollers.
ECE-401N.6 Design the systems /models based on microcontrollers.
Digital Image Processing (ECE-403N)
ECE-403N.1 Understand the sampling and quantization processes of digital image
ECE-403N.2 Apply various image enhancement operations on a digital image
ECE-403N.3 Analyze the image enhancement techniques in spatial and frequency domain
ECE-403N.4 Explain the edge detection and segmentation techniques and apply it on medical images
ECE-403N.5 Create an algorithm for feature extraction and implement in MATLAB
ECE-405N.1 Outline the basic concepts and techniques used in Power Electronics.
ECE-405N.2 Explain the characteristics of Thyristor and compare various Thyristor Commutation Techniques.
ECE-405N.3 Classify various single phase and three phase power converter circuits .
ECE-405N .4 Analyze the performance of various  power electronic circuits.
ECE-405N.5 Design Converter Circuits and learn to select suitable power electronics device by assessing the requirements of application field.
Optical Communication (ECE-419N)
ECE-419N.1 Understand the structure of fiber with various modes of propagation and illustrate the concept of light travelling in the fiber.
ECE-419N.2 Classify the various splices and connectors and analyze its effect while joining the fibers.
ECE-419N.3 Analyze the concept of various losses associated with fibers and the methods by which the losses can be reduced.
ECE-419N.4 Understand the concept of optical sources with its characteristics.
ECE-419N.5 Interpret the working of optical detectors and sensors.
ECE-419N.6 Illustrate the various components needed in optical networks and explain the different couplers in fiber communication system.
Satellite Communication (ECE-423N)
ECE-423N.1 Summarize the dynamics of satellite and its services.
ECE-423N.2 Outline the concept of communication satellite designing system.
ECE-423N.3 Understand the various basic laws and terms of satellite communication.
ECE-423N.4 Illustrate the design of earth station and tracking of the satellites.
ECE-423N.5 Demonstrate the concept and design issues of satellite link design and satellite access.
ECE-423N.6 Explain the concept of multiple access schemes used in satellite communication.

8th Semester

Wireless and Mobile Communication (ECE-402N)
ECE-402N.1 Understand mobile radio communication principles and to study the recent trends adopted in cellular systems and wireless standards.
ECE-402N.2 Analyze the measures to increase the capacity in cellular systems – sectorization and Spatial Filtering for Interference Reduction
ECE-402N.3 Apply basic mathematical principles to solve wireless system design problems for improving coverage and capacity.
ECE-402N.4 Classify and compare different multiple access techniques used in wireless communication.
ECE-402N.5 Outline various wireless standards and study the architecture and channel types
ECE-402N.6 Analyze the mobility of users and manage it through location tracing
ECE-404N.1 Apply Maxwell equation to calculate field of the basic resonator cavities.
ECE-404N.2 Apply the various measurement techniques for microwave parameters such as impedance, frequency and VSWR.
ECE-404N.3 Analyze the conventional methods to generate the microwave signal.
ECE-404N.4 Analyze the Microwave components using scattering parameters.
ECE-404N.5 Illustrate the fundamentals of the solid state microwave devices.
ECE-404N.6 Classify various types of avalanche transit time devices.
Transducer & its applications (ECE-420N)
ECE-420N.1 Understand the basic concepts and requirements of transducers
ECE-420N.2 Illustrate different types of transducers for measurement of displacement & pressure
ECE-420N.3 Examine various types of tachometers for measurement of velocity
ECE-420N.4 Analyze transducers for measurement of temperature
ECE-420N.5 Compare the sensitivity of load cells for measurement of force
Radar Engineering (ECE-422N)
ECE- 422N.1 Understand the components and basic principle of RADAR System.
ECE-422N.2 Evaluate the factors affecting the radar performance using RADAR equation.
ECE-422N.3 Categorize the different RADARs on the basis of working principle, range of observation and angular resolution.
ECE-422N.4 Analyze Noise Figure and Noise Temperature to improve the design of  Radar  Receivers
ECE -422N.5 Compare different types of Radar Displays and their application in real time scenario.