COURSE OUTCOMES
Engineering Mathematics
Code: MAM181 Course: Engineering Mathematics I S.No. Course Outcome
MAM181.1 Able to solve qualitative problems based on vector analysis and matrix analysis such as linear independence and dependence of vectors, rank etc.
MAM181.2 Understand the concepts of limit theory and nth order differential equations and their applications to our daily life
MAM181.3 Able to solve the problems of differentiation of functions of two variables and know about the maximization and minimization of functions of several
variables.
MAM181.4 Come to know the applications of double and triple integration in finding the area and volume
MAM181.5 Know about qualitative applications of Gauss , Stoke’s and Green’s theorem Code: MAM281 Course: Engineering Mathematics II
S.No. Course Outcome
MAM281.1 Come to know about the ordinary differential equations and its applications also able to develop a mathematical model of linear differential equations.
And also students learn about how to find the solution of designed model.
MAM281.2 Know about necessary and sufficient condition for total differential equations MAM281.3 Further students know about order differential equations and their
transformations and solutions through methods.
MAM281.4 able to solve basic engineering models through partial differential equations such as wave equation, heat conduction equation etc..
MAM281.5 Know about fourier series initial conditions and its applications to different engineering models
Code: MAM381 Course: Engineering Mathematics III S.No. Course Outcome
MAM381.1 Students learn about the how to solve mathematical model with Laplace Transform and error functions and their applications.
MAM381.2 Gain knowledge of Finite and Infinite Fourier Transforms and applications.
MAM381.3 Familiarize with the concept of analytic function, C-R equations and its uses.
MAM381.4 Learn about Cauchy’s theorem and its uses in complex integration. Taylor’s and Laurent’s series in complex form.
MAM381.5 Learn about Cauchy Residues theorem and contour integrations.
Code: MAM481 Course: Engineering Mathematics IV S.No. Course Outcome
MAM481.1 Able to solve the problems of higher order and transcendental equations analytically with the help of iterations techniques their error analysis. also able to solve problems computationally.
MAM481.2 Come to know about different methods for solving simultaneous system of linear equations with the help of elimination methods , iterative methods, power methods etc.
MAM481.3 Clarification about Interpolation(different difference table) and its applications.
MAM481.4 Learn about different techniques for numerical differentiation and integration.
MAM481.5 Clarification of numerical solutions of ordinary and partial differential equations.
Code: MAM581 Course: Discrete Mathematics S.No. Course Outcome
MAM581.1 Develop the skill of logical reasoning
MAM581.2 Details of set theory which is basic of all sciences
MAM581.3 Able to understand the group , rings and their properties
MAM581.4 Know about the concept of permutation and combination and applications MAM581.5 Come to know about discretization of functions and their recurrence relations
Code: MAM582 Course: Probability and Statistics S.No. Course Outcome
MAM582.1 Understand the problems of probability and able to solve them. Also come to know the problems of measures of central tendency
MAM582.2 Come to know about binomial, Poison and normal distributions and their applications in different engineering, science and social science fields etc.
MAM582.3 Clarification about sampling distribution and point and internal estimation using z and t distribution
MAM582.4 Able to solve the statistical model with different statistical techniques like chi square distribution.
MAM582.5 Understand the problems and solve them with correlation and regression
analysis
Code: MAM681 Course: Advanced Optimization Techniques S.No. Course Outcome
MAM681.1 Understand the problems of mathematical programming and related theorems
MAM681.2 Learn about simplex method and its uses in various fields MAM681.3 Learn about nonlinear programming, Frank-Wolfe method etc.
MAM681.4 Able to solve the dynamic problems and L.P.P as a case of dynamic problem.
MAM681.5 Learn about quadratic programming and its uses
Applied Physics Code: PHM181
S.No. Course Outcome
PHM181.1 Develop skills in observation, interpretation, reasoning, generalizing, predicting, and questioning as a way to learn new knowledge
PHM181.2 Apply the mathematical abstractions to solve physical problems.
PHM181.3 Understand the basic physics associated with waves and oscillations and apply it to acoustics
PHM181.4 Familiarize with the basic physics of electromagnetic waves and photons PHM181.5 Identify wave characteristics of light such as interference, diffraction and
polarization
Course: Applied Physics I Code: PHM281
S.No. Course Outcome
PHM281.1 Gain further experience in using the tools, methodologies, language and conventions of physics to test and communicate ideas and explanations PHM281.2 Understand the concept of relativity, frame of reference, mass-energy
equivalence
PHM281.3 Visualize uncertainty principle, wave-particle duality of light
PHM281.4 Capable of applying quantum mechanics to the problems of atomic physics PHM281.5 Understand applications of quantum mechanics to transistors, semi-
conductors and other related systems.
PHM 182 : Applied Physics Lab-I
1. A working knowledge of fundamental physics and basic mechanics principles. The ability to identify, formulates, and solve physics problems.
2. The ability to formulate, conduct, analyzes and interprets experiments in physics. The
ability to use modern physics techniques and tools, including mathematical techniques,
graphs and laboratory instrumentation.
3. Understand optical components and systems.
4. Understand, and choose, different models for light.
5. Ability to calculate light level and ray paths in optical systems. Understand the operating principle of some important types of optical instruments.
PHM 281: Applied Physics II
1. Develop understanding of special theory of relativity and its applications to understand length contraction, time dilation, relativistic addition of velocities, conservation of momentum and variation of mass, relativistic momentum, relativistic energy, and mass- energy relation. Understand the origins of quantum mechanics
2. Understand and explain the differences between classical and quantum mechanics.
Understand the idea of wave function
3. Understand the uncertainty relations. Understand the Schrödinger wave mechanics and operator formalism
4. Solve the Schrödinger equation for simple 1D time-independent potentials. Ability to use vector calculus to static electro-magnetic fields in different engineering situations.
5. Analyze Maxwell’s equation in different forms (differential and integral) and apply them to diverse engineering problems. Examine the phenomena of wave propagation in different media and its interfaces and in applications of microwave engineering. Absorption and spontaneous and stimulated emission in two level system, the effects of homogeneous and inhomogeneous line broadening, and the conditions for laser amplification.
PHM 282: Applied Physics Lab-II
1. Understand the basic concepts of electric and magnetic fields.
2. Understand the concept of conductors, dielectrics, inductance and capacitance. Gain knowledge on the nature of magnetic materials.
3. Understand the concept of static and time varying fields. The ability to identify, formulates, and solve physics problems.
4. The ability to formulate, conduct, analyzes and interprets experiments in physics.
5. The ability to use modern physics techniques and tools, including mathematical techniques, graphs and laboratory instrumentation.
Ancillary Course
ECH 181: ESSENTIALS OF ECONOMICS
1. Able to explain the forces driving demand and supply and their impact on market conditions.
2. Able to Calculate and interpret various economic parameters such as equilibrium price and quantity, elasticity, average costs, marginal costs etc.
3. Debate and explain topical economic problems and issues confidently.
4. Apply economic analysis to everyday problems in real world situations.
5. Able to understand the links between household behavior and the economic models of demand. It will also help in understanding the efficiency and equity implications of market interference, including government policy.
Ancillary Course: English English I (ENH 181)
1. Students would be able to recall the basic rules of English Grammar and thereby strengthen the foundation of Language.
2. Students will learn the use of different grammatical forms of English in specific communication contexts.
3. Students will get equipped to identify and rectify the errors in the use of different parts of speech.
4. Students will attain competence in the two major modes of literacy: writing and speaking.
5. Students will be able to refine their structural English skills by learning to use them in different situations.
English II (ENH 281)
1. Students will be enabled to differentiate between formal and informal communication.
2. Students will be able to create substantial base by the formation of strong professional vocabulary for its application at different platforms.
3. Students would be able to write coherently and flawlessly by organizing their ideas logically on a topic.
4. Students will learn how to apply communication techniques to a given situation with an appropriate tone, style and vocabulary.
5. Students will develop strong narrative skills while avoiding grammatical errors and using a wide vocabulary range.
English III (ENH 381)
1. Students will attain and enhance competence in the four modes of literacy: writing, speaking, reading and listening.
2. Students will learn to use a variety of reading strategies to foster comprehension and to construct meaningful connections to the text.
3. Students will enhance their listening prowess and would be able to identify and avoid various barriers of communication.
4. Students will understand and learn how to follow the stages of the writing process (prewriting/writing/rewriting) and apply them to technical and workplace writing tasks.
5. Students will be able to compose cohesive paragraphs and short essays with identifiable topics, clear organization, and grammatically correct sentences.
English IV (ENH 481)
1. Students will be able to produce a set of documents related to technology and writing in the workplace and will improve their ability to write clearly and accurately.
2. Students would be able to make use of strong professional vocabulary for its application at different platforms: in preparation of Notices, Agenda, Minutes, Reports /Proposals, Manuals, Research papers, etc.
3. Students will be familiar with basic technical writing concepts and terms.
4. Students will learn to apply various technical writing formats to communicate ideas to specific audiences.
5. Students will hone up their oral presentation skills and voice-dynamics to ensure their success in various fields like Interviews, Meetings, Conferences, Group discussions, etc.
Industrial Psychology
PYH 251/291/181 Introduction to Psychology
The objective of this course is to study the key concepts, principles and predominant themes in psychology.
1. Develop a working knowledge of Psychology’s content domains and applications of psychology.
2. Develop a base for fundamental psychology with the help of relevant examples from everyday life.
3. Gain knowledge and appreciate various theories of learning and other aspects of human behaviour in the practical world.
4. Identify the importance of experiments in the field of memory and how it shapes cognitive functions at large and their impact on human psychology
6. Students will be able to understand the aspects related to psychological testing in industries
PYH581 Industrial Psychology
This course applies behavioural science knowledge to professional organizations.
1. Students will be able to describe concepts of psychology in the process of manpower training.
2. Design training & development process of an organizations, apply various methods in organizational setting
3. The goal of this course is to understand how psychological principal improve efficiency and quality of employee life
4. Students gain knowledge about the history of I/O psychology, job analysis, motivation, leadership, job satisfaction, work stress and health.
5. Students will be able to connect to the psychological interplay in between the man–job fit.
DPH 181: Commercial Arts
1. Students will make designs based on Ornamental/ Geometrical and Abstract motifs.
2. Students will learn to do enlargement of any motif.
3. Students will make creative greeting cards.
4. Students will do sketching and painting.
5. Students will enhance their artistic skills with such type of practical assignments.
ELECTRICAL ENGINEERING
EEM-201 COMPUTER CONCEPTS & C PROGRAMMING
1. Understanding the basics of computer hardware and software: fundamentals of operating systems, systems software, compilers; algorithms, representation using flowcharts and pseudo-code
2. Writing simple programs using simple C language constructs, conditionals and iterative statements
3. Writing C programs using constructs such as arrays, strings and functions.
4. Developing programs using pointers and dynamic memory allocation; using structures and unions to solve problems
5. Exercising files concept to show input and output of files in C; exploring the various features of the standard C library
EEM 202 – BASIC ELECTRICAL ENGINEERING
1. Analyze dc resistive networks with the help of basic laws of electrical engineering and network theorems.
2. Perform the steady state analysis of RLC networks for 1- and 3- sinusoidal excitation and also determine the frequency response of resonant RLC networks.
3. Describe the principle of operation, construction and testing of transformers and auto-
transformers.
4. Describe the principle of operation, construction and characteristics of various types of dc & ac rotating machines.
5. Explain the working of commonly used electro-mechanical instruments.
EEM 301 – BASIC ELECTRONICS
1. Discuss the working principle, characteristics and applications of p-n junction diodes.
2. Describe the working of a Bipolar Junction Transistor (BJT) and its use as a switch and an amplifier and also discuss it operation in various amplifier configurations.
3. Discuss the behaviour and the characteristics of the OP-AMP and its applications.
4. Represent binary numbers using a variety of codes and convert codes from one form to another. Perform simple binary arithmetic and implement simple Boolean logic functions using logic gates and modules.
5. Discuss a variety of registers and counters and their implementation.
6. Perform A/D and D/A conversion of signals and implement various schemes for the same.
EEM-302 BASIC ELECTRONICS LAB
1. Verify the theoretical characteristics of diodes, transistors, OP-amps and digital electronic components experimentally
2. Implement and analyze various circuits viz. Rectifiers, Voltage Regulators, 3. Implement and analyze Amplifier circuits
4. Implement and analyze Op-Amp based linear & non-linear circuits
5. Design Op-amp based circuits and Combinational and Sequential logic circuits.
EEM-303 DATA STRUCTURES
1. Review fundamental constructs provided by the C programming language 2. Design and implement data structures like arrays, stacks & queues
3. Learning to use singly/doubly linked lists for efficient implementation of data structures
4. Understanding the tree data structure, with focus on binary trees, binary search trees and height-balanced trees
5. Understand data structures such as minimum spanning trees and graphs and also their applications in real world scenarios
6. Understand various algorithms for searching and sorting
EEM-304 C PROGRAMMING LAB
1. Basic programming that exercises C language constructs including conditions and iteration
2. Writing C programs that use intermediate-level C language features such as arrays, recursion and functions
3. Writing C programs using arrays and pointers to access and manipulate strings 4. Implementing data structures such as stacks and queues using arrays
5. Using linked lists to create and manipulate lists; implementing efficient stacks and queues using linked lists
EEM 305 – SIGNALS & SYSTEMS
1. Classify signals and systems into various types and also create new signals from existing ones by transforming the independent variable.
2. Represent and analyze LTI systems in the time domain and determine their responses for different types of input signals.
3. Determine various frequency domain representations of continuous time signals.
4. Determine the frequency characteristics of continuous time ideal LTI filters. Analyze practical passive RLC filter circuits and plot their frequency response using log- magnitude and Bode plots.
5. Convert continuous time signals to discrete time by sampling at the appropriate sampling frequencies to overcome aliasing and recover the original analog signal from its sampled version.
6. Represent and analyze discrete time LTI systems using DTFT and z-transforms and determine their response to discrete time input signals.
EEM-401 ELECTRICAL MEASUREMENTS
1. Classify different Analog meters and explain the principles of each device 2. Explain the principles of wattmeters, energy meters and frequency meters.
3. Compare different bridges and understand the concept of potentiometers 4. Find and understand proper measuring methods in magnetic fields.
5. Explain the principles of Instrument transformers and electronic instruments
EEM-402 ELECTRICAL MEASUREMENTS LAB
1. Calibrate - voltmeters, ammeters, single phase energy meter.
2. Analysis based on comparing true and actual value of potentiometer & Power factor meter.
3. To verify dielectric property of oil insulation, Analyze the measuring parameters of Anderson & Schering bridge.
4. To verify practically the concepts of displacement, force, strain, inductance, capacitance
& resistance.
5. Examine the output of turns ratio and ratio error of CT
EEM-403 NETWORK ANALYSIS AND SYNTHESIS
1. Understand the concept of network topology and apply it for various formulations.
2. Apply basic circuital laws and simplify the network using reduction techniques and theorems.
3. Understand time domain analysis and evaluate transient response, Steady state response
4. Understand frequency domain analysis, use Fourier transform and Laplace transform for analyzing circuits.
5. Define network functions and Synthesize networks using Foster and Cauer Forms.
EEM-404 ELECTRONICS & SIGNAL PROCESSING LAB 1. Analyze transistor amplifier circuits for Gain, frequency
2. Study of Wien's bridge and phase shift oscillators 3. Design regulated supply using voltage regulator IC
4. Verify the concepts of difference amplifier experimentally 5. Design a class-B amplifier
EEM-405 ELECTRICAL MACHINES-I
1. Summarize the basics of Single and Three Phase transformers
2. Understand the concepts of D.C.Machines, construction, armature reaction and characteristics
3. Understand the basic concept of Three-phase induction motor and its torque slip characteristics
4. Explain the basic concepts of Synchronous Machines, construction, EMF equation and armature reaction
5. Understand the concept of two reaction theory and performance analysis of synchronous motor
EEM-406 ELECTRICAL MACHINES LAB
1. Select range of apparatus based on the ratings of D.C. Motor and 1-PhTransformers.
2. Determine the efficiency and Regulation of Transformer by various tests 3. Demonstrate No-load/magnetization characteristics of DC and AC motors 4. Able to study and verify the performance of Induction Motor
5. Able to study and verify the performance of Synchronous Machines
EEM-407 ELECTRONIC DEVICES & CIRCUITS 1. Examine the energy distribution in metals and semiconductors
2. Understand the charge transport phenomena in semiconductors 3. Analyze in depth structure and construction of P-N Junction diode 4. Explain operation and characteristics of FET and analyze simple circuits 5. Recall basic concepts of BJTs and other semiconductor devices.
EEM-501 LINEAR CONTROL ENGINEERING
1. Classify control systems architecture and define transfer function using mathematical modeling
2. List out control system components and define basic control actions 3. Analyze time response of 1st and 2nd order systems
4. Define stability and apply various techniques to find stability of a system 5. Analyze frequency response of systems using frequency domain techniques.
6. Design a control system and understand concept of state space modeling.
EEM-502 LINEAR CONTROL LAB
1. Understand the operation and function of magnetic amplifiers 2. Understand and evaluate the transfer function of D C Motor
3. Understand the stability criterion and able to Plot the Bode Diagram 4. Able to find stability using Nyquist Plot and the Root Locus Diagrams 5. Study and verify the synchro transmitter and receiver systems
EEM-503 ELECTRICAL MACHINES-II
1. Study stating methods and design starter of DC motor, 3-Ph induction motor and synchronous motor
2. Analyze the speed-torque characteristics, testing of DC motor, induction motor and alternator and also determine their efficiency.
3. Study the concepts of single phase induction motor
4. Understand the working concept of different types of special machines.
5. Study about Insulators, temperature rise and cooling methods.
EEM-504 ELECTRICAL MACHINES LAB.-II
1. Select range of apparatus based on the ratings of 3ph Induction motor, synchronous motor and Transformers.
2. Determine equivalent circuit parameters of 3ph Induction motor
3. Evaluate the efficiency of the different machine by analyzing their test results 4. Determine regulation and perform synchronization of alternator
5. Demonstrate Scott connection on two single phase transformers
EEM-505 ANALOG ELECTRONICS
1. Analyze large signal and small signal models of BJT, current mirrors, power amplifiers 2. Review fundamentals of MOSFETs and analyze CMOS mirrors
3. Compare single and multiple transistor circuits specifically differential amplifier 4. Understand concepts of feedback and analyze various types of oscillators 5. Explain basic steps in BJT/MOS Fabrication
EEM 506 – DIGITAL SYSTEMS
1. Design and implement various types of combinational logic functions using logic gates, combinational modules and programmable modules.
2. Design and implement various types of arithmetic functions as combinational logic networks.
3. Design various types of sequential logic networks like counters, sequence detectors as finite state machines and implement them using Flip-Flops and gate networks.
4. Describe various types of digital IC technologies and their characteristics and compare them.
5. Describe the structure, operation and timing characteristics of different types of digital memories.
EEM-507 ELECTRICAL TECHNOLOGY
1. Classify various DC motors and demonstrate their characteristics
2. Compare distribution and power transformers and Understand concept of harmonics 3. Testing of induction motors, analyze methods of speed control
4. Understand concepts of fractional HP motors
5. Explain principle and characteristics of synchronous machines
EEM-508 ELECTRICAL TECHNOLOGY LAB
1. Select range of apparatus based on the ratings of various machines.
2. Determine equivalent circuit parameters of 3ph Induction motor
3. Evaluate the efficiency of the different machine by analyzing their test results 4. Determine regulation and perform synchronization of alternator
5. Demonstrate Scott connection on two single phase transformers
EEM-511 ANALOG ICs AND SYSTEMS
1. Analysis, design, and applications of modern analog circuits using integrated bipolar and field effect transistor technologies.
2. Introduce the principles of analog circuits and apply the techniques for the design of
analog integrated circuit (Analog IC’s).
3. Apply the methods learned in the class to design and implement practical projects 4. The class will have a lab (or projects for graduate students).
5. Implement a complete analog system. In each week’s lab, the class will build parts of the system with an overall objective of completing the entire system by the end of the term.
EEM-512 ANALOG ICS & SYSTEMS LAB.
1. Design oscillators and amplifiers using operational amplifiers.
2. Design filters using Op-amp and perform experiment on frequency response.
3. Analyse the working of PLL and use PLL as frequency multiplier.
4. Design DC power supply using ICs.
5. Analyse the performance of oscillators and multi-vibrators using SPICE EEM-513 COMPUTER ARCHITECURE
1. Understanding various metrics for comparing the performance of computing systems Learning about the various aspects of a real-world instruction set architecture (MIPS) 2. Gaining a strong understanding of computer arithmetic, designing a functional ALU and
multiplication and division circuitry
3. Understanding basic cache architectures and virtual memory principles
4. Acquiring a good understanding of how input/output is performed in a computing system 5. Learning how to design the data path and control unit of a single cycle CPU, and
fundamental concepts relating to pipelining CPUs
EEM-514 ADVANCED PROGRAMMING LAB.
1. Learning the basic programming elements of a specific Object Oriented language - Java 2. Understanding the key Object Oriented principles of Abstraction, Encapsulation,
Inheritance and Polymorphism in the Java context
3. Learning to write multi-threaded application programs in Java
4. Understanding how to use readily available data structures in the Java Collections Framework
5. Learning how to develop simple GUIs (or) client/server communication using java Sockets
ASM-601 ELECTRICAL ENGINEERING MATERIALS
1. Identify and understand defects in crystals
2. Interpret and understand the phase diagrams of materials, transformation across various regions and select suitable heat-treatment process to achieve desired properties of metals and alloys.
3. Understanding the electrical conduction in materials 4. Understanding dielectrics in solids and liquids
5. Understand and application of magnetic and optical properties of materials
EEM-601 MICROPROCESSORS & MICROCONTROLLERS 1. Describe the architecture of the 8085 microcomputer and its operation with the help of
relevant machine cycles and timing diagrams.
2. Develop Assembly Language Programs for the 8085 based system for a variety of applications.
3. Implement interrupt handling and servicing and I/O interfacing in an 8085 microcomputer system using relevant peripherals.
4. Implement DMA and serial synchronous and asynchronous communication in an 8085 based microcomputer with the help of the 8257 DMA CONTROLLER and 8251 USART.
5. Discuss the architecture, working and programming of the 8051 microcontroller and develop programs for a variety of applications.
EEM-602 MICROPROCESSORS LAB
1. Learn Assembly language programming of 8085 2. Design programs using 8085 assembly language
3. Implement hand assembling codes of programs on SDK 85 kit 4. Understand the working of various Controllers
5. Acquire knowledge about embedded systems
EEM-603 POWER SYSTEMS-I
1. Classify different power generation systems and distribution systems
2. Compare different types of overhead line conductors and evaluate line inductance and capacitance and will be able to explain overhead transmission line performance, compensation.
3. Design overhead lines economically by making use of SAG calculations and summarize types and concepts of insulators.
4. Categorize cables, their characteristics and understand insulation coordination
5. Demonstrate power angle diagram, equal area criterion and understand concept of power system stability.
EEM-604 APPLIED SYSTEMS ENGINEERING
1. Develop and implement models and tools to enhance and optimize complex system 2. Develop and manage processes relevant to complex systems development
3. Architect, design, implement, integrate, verify, validate, support and decommission complex systems
4. Use systems engineering tools and practices to identify and execute effective technical solutions
5. Manage system-intensive projects within cost and schedule constraints and consider financial elements in all complex systems solutions
EEM-605 POWER ELECTRONICS
1. Learning of characteristics and comparative features of power semiconductor switches 2. Learning of operation of Rectifiers and their performance parameters
3. Learning of types and operation of dc choppers
4. Learning of speed control of ac and dc motors using power electronic circuits 5. Preparation of competitive examinations
EEM-606 POWER ELECTRONICS LAB.
1. To plot V-I characteristic of SCR
2. Realization of operation of uni-junction transistor by connecting its circuit
3. Realization of operation of rectifiers by connecting its circuit
4. Realization of operation of different types of choppers by connecting their circuit 5. Realization of PWM technique
EEM-608 CONTROL ENGINEERING
1. Able to model different Physical systems and evaluate the performance.
2. Understand Transient response of first and higher order systems to standard inputs.
3. Able to Draw the root loci, Nyquist criterion, bode plots to obtain Frequency Response.
4. Able to analyze stability of Linear system and obtain Preliminary ideas of compensation 5. Will understand various Control System Components.
EEM-609 STREAM SEMINAR
1. Develop skills in presentation and discussion of research topics in a public forum.
2. Develop skills to do literature survey
3. Explore a variety of research projects and activities 4. Able to enrich their academic experience.
EEM-611 DESIGN & ANALYSIS OF ALGORITHMS 1. Learn the importance of algorithms and to prove the correctness and analyze the
running times of basic algorithms for some classic problems in various domains.
2. Understand some advanced data structures and their importance in design of efficient programs.
3. Familiarity with an assortment of important algorithms and Various algorithmic design techniques and reinforce basic design concepts (e.g., pseudo-code, specifications, top- down design)
4. Utilize data structures and/or algorithmic design techniques in solving new problems using Graph algorithms design and analysis as examples.
5. Understand basic computability concepts and the complexity classes P, NP, and NP- Complete, Randomized and Approximation Algorithms.
EEM-612 COMPUTER SCIENCE LAB
1. Design algorithmic strategy for Divide and conquer method 2. Design algorithmic strategy for greedy methods
3. Design algorithmic strategy for Dynamic programming
4. Design algorithmic strategy for back-tracking, sorting, searching and selection
EEM-701 POWER SYSTEMS-II
1. Able to analyze various Faults in Over Head transmission lines its effect on the system 2. Understand various relays and explain construction and principles of relays
3. Able to classify switchgear and functions, testing and selection of circuit breakers 4. Explain protection of power system and its components
5. Able to understand the classification of substations, concept of neutral grounding and voltage control method
EEM-702 POWER SYSTEMS LAB
1. Analyze experimental results and effective documentation 2. Exhibit professional behavior
3. Study various relays
4. Calculations of various machine reactances
5. Able to understand corona discharge and Calculation of breakdown voltage of oil and insulating material
EEM 703 – COMMUNICATION ENGINEERING
1. Implement different types of Amplitude, Frequency, Phase and Pulse modulation and demodulation schemes.
2. Describe the structure of a digital communication system and discuss the operational characteristics of various blocks used.
3. Perform modulation of digital message signals and also recover the message signals from modulated waveforms.
4. Describe random signals and processes encountered in communication systems using probability statistics and also determine the response of linear systems having random signals as inputs.
5. Determine the effect of channel noise on the recovery of the message signal ina communication system for a variety of modulation schemes.
EEM-704 DIGITAL DESIGN LAB
1. Describe how analog signals are used to represent digital values in different logic families, including characterization of the noise margins. Create the appropriate truth table from a description of a combinational logic function.
2. Create a gate-level implementation of various combinational logic functions and able to describe the operation and timing constraints for latches and registers.
3. Able to draw a circuit diagram for a sequential logic circuit and analyze its timing properties (input setup and hold times, minimum clock period, output propagation delays). Able to Evaluate combinational and sequential logic designs using various metrics: switching speed, throughput/latency, gate count and area, energy dissipation and power
4. Able to properly incorporate synchronous and asynchronous memories into a circuit design and understand how to interface digital circuits with analog components (ADC, DAC, sensors, etc.). Able to Describe and implement logic for digital audio and video subsystems.
5. Able to design and analyze circuits for digital arithmetic. Perform and interpret
measurements using oscilloscopes and logic analyzers and using Verilog, implement a substantial digital system on an FPGA. Learn how to write test-benches and perform verification of the relatively complex digital system.
EEM-705 & EEM 802 ELECTRICAL ENGINEERING PROJECT 1. Identify the real world power system problems and Analyze, design and implement
solution methodologies
2. Apply modern engineering tools for solution and able to write technical reports following professional ethics
3. learn about different software development process models and software engineering principles and develop an ability to a apply them to software design of rea life problems.
4. Plan, analyze, design and implement a software project using available programming languages
5. gain confidence at having conceptualized, designed and implemented a working major project with their team.
EEM-706 ELECTROMAGNETIC FIELD THEORY
1. Apply vector algebra to understand the behavior of static electric fields in standard configurations
2. Apply vector calculus to understand the behavior of static electric fields in standard
configurations
3. Apply vector calculus to understand the behavior of static magnetic fields in standard configurations
4. Understand the time varying behavior of electromagnetic fields
5. Describe and analyse electromagnetic wave propagation in free-space
EEM-708 COMMUNICATION LAB.
1. Able to understand basic theories of Digital communication system in practical.
2. Able to design and implement different modulation and demodulation techniques 3. Able to analyze digital modulation techniques by using various tools.
4. Able to identify and describe different techniques in modern digital communications, in particular in source coding using various tools.
5. Able to perform channel coding.
EEM-710 SOFTWARE DESIGN
1. To understand the concepts of Software Engineering, phases in software engineering, software engineering paradigms- waterfall, prototype, Iterative Enhancement model, Spiral model.
2. To understand Requirements Engineering phase, Learn Structured Analysis (SA), Learn Unified Modelling Language and Object Oriented Analysis (OOA). Use of CASE tools for SA and OOA.
3. To understand Design Phase, Design Objectives, principles and modular design. Learn Structured Design Methodology, and Object Oriented Design methodology using UML.
4. To Understand Coding and Testing Phases. Learn various approaches to testing including Black Box/ Functional Testing and Structural Testing. To Understand various levels of testing; Reviews, walkthroughs, and Software Quality.
5. To Understand Software Project Planning and Project Monitoring Techniques. To measuring software size using size-oriented metrics and function oriented metrics. To estimate software size, effort, phase-wise effort, duration and Phase-wise duration, staffing using empirical models like COCOMO. To understand team structure, risk management, software configuration management, quality assurance plans and Project Monitoring.
EEM-711 ELETRICAL MACHINE DESIGN
1. Design a Transformer 2. Design Induction machine 3. Design Synchronous machine
4. Explain cooling methods for transformer and rotating machines 5. Able to use various software tools for machine designing
EEM-712 DIGITAL DESIGN
1. Perform conversions among different number systems, became familiar with basic logic gates and understand Boolean algebra and simplify simple Boolean functions by using basic Boolean properties & design of combinational circuits such as MUX, DEMUX, Encoder and Decoder etc.
2. Understand the design of sequential Circuits such as Flip-Flops, Registers, and Counters.
3. Obtain a basic level of Digital Electronics knowledge and set the stage to perform the analysis and design of Complex Digital electronic Circuits.
EEM715 COMPUTER METHODS IN POWER SYSTEMS
1. Understand power systems network mathematical modeling and simulation
2. To understand the concept of voltage-VAR and load frequency control through
mathematical simulation
3. To understand Power systems state estimation and bad data detection
4. To optimize power system operation through generation scheduling under constrained conditions
5. Understand role of reactive power support, voltage stability and FACTS (Flexible AC Transmission Systems) in power systems.
EEM-717 SEMICONDUCTOR CONTROLLED DRIVES
1. Determination of performance parameters of dc drive
2. Supply side Power factor and Harmonic factor control in Rectifier circuits 3. Analysis of close loop control of dc motor
4. Study on basics of variable voltage variable frequency VVVF) sources 5. Study on VVVF fed ac drives
EEM-719 VLSI DESIGN TECHNOLOGY
1. Identify the various IC fabrication methods.
2. Express the Layout of simple MOS circuit using Lambda based design rules.
3. Apply the Lambda based design rules for subsystem design 4. Differentiate various FPGA architectures.
5. Design an application using Verilog HDL.
6. Concepts of modeling a digital system using Hardware Description Language.
EEM-720 COMPUTER NETWORKS
1. To understand the evolution, objectives and uses of Computer Networks, Network structure, concepts of data transmission, Analog and digital data transmission and Transmission Media.
2. To understand the OSI Reference Model, OSI Layers and their functions. To evaluate the performance of Computer Networks using basic queuing theory.
3. To understand the Medium Access Sub layer and various multiple access protocols.
Understanding the IEEE Standard 802 for LANs. Understanding the Link level control, Stop and wait and sliding window protocols and Error control.
4. To understand Network Layer, Routing Algorithms, Congestion control algorithms, Internetworking, and Internet Protocol (IP).
5. To understand Transport Layer and its services provided to the Session layer, Quality of Service and Transport Protocols ( TCP and UDP). To understand various network application layer protocols/applications : TELNET, FTP, E-Mail, and www.
EEM-721 POWER SYSTEM MANAGEMENT
1. Understand the concept of energy audit, types, index and cost risk analysis with depreciation Techniques
2. Describe the analysis of load management, conservation of energy, power factor Improvement methods, energy efficient motors
3. Analyze energy saving studies on lighting system 4. Articulate energy saving in heating systems, 5. Understand the concept of co-generation system
EEM-722 DIGITAL IMAGE PROCESSING
1. Learn the fundamentals of digital image acquisition and analysis including the human visual system and various applications in which digital image processing is being used.
2. Study the image fundamentals necessary for image processing and Image enhancement techniques used in spatial domain
3. Learn mathematical transforms e.g. Fourier Transforms and Image enhancement techniques in frequency domain
4. Understand Image Segmentation and the various segmentation methods used in digital image processing, edge detection algorithms.
5. Understand Image compression and various Compression techniques used with digital images, current trends and applications of Image processing
EEM-723 SYSTEMS LAB
1. Familiarization with the Ethernet cable colour code standards and crimping of straight and cross cables.
2. Familiarization with the IP Addressing Schemes, configuring and testing the LAN,WLAN and ad-hoc WLAN.
3. Learning and using some common network diagnostic tools.
4. Learning Socket Programming and implementing TCP Server, TCP Client, UDP server, and UDP client programs for various network applications.
5. Using Wireshark for packet sniffing and protocol analysis.
EEM-724 FUZZY SYSTEMS
1. Illustrate fuzzy concepts systems with understanding of basic mathematical elements of fuzzy set theory for representation of fuzzy systems.
2. Relate fuzzy sets and classical sets theories to understand the differences and similarities between them.
3. Build concepts of fuzzy logic and approximate reasoning by extending classical logic concepts (its operations, propositions, logical implications and certain classical inference mechanisms) for fuzzy rule based systems using natural language as expression of a knowledge form.
4. Explain methods of fuzzification, inference techniques for fuzzy systems based on linguistic rules and methods of defuzzification in order to provide an insight into fuzzy inference applications in the area of control.
5. Identify and analyze exciting applications of fuzzy knowledge processing in various domains such as fuzzy control system design by combining some of the traditional design approaches (P controller, PI controller, PD controller and PID controller) with fuzzy concepts, multi-objective decision making, system identification, modeling and simulation.
EEM-801 UTILIZATION OF ELECTRICAL POWER
1. Able to know illuminations systems and Study various lamps and fittings in use.
2. Understand Electric heating and welding process and Study various electric heating and welding equipment used in industries
3. Know about various Electric Drive and elevator used in industries 4. Acquire knowledge about Electric Traction system
5. Understand various domestic electrical appliances.
EEM-803 SEMINARS
1. Identify and analyze the real time system problems
2. Acquire awareness on latest technology and current trends in the field of respective areas
3. Document and present technical reports
4. Participate in discussions for enhancement of knowledge 5. Adapt professional ethics
EEM-811 ROBOTICS
1. Discuss the history, concepts and key components of robotics technologies.
2. Describe and compare various robot sensors and their perception principles that enable a robot to analyse their environment, reason and take appropriate actions toward the given goal.
3. Analyse and solve problems in spatial coordinate representation and spatial transformation, robot locomotion, kinematics, motion control, localization and mapping, navigation and path planning.
4. Apply and demonstrate the learned knowledge and skills in practical robotics applications.
5. Plan, design and implement robotic systems, algorithms and software capable of operating in complex and interactive environments.
6. 6. Effectively communicate engineering concepts and design decisions using a range of media.
EEM-812 OPERATING SYSTEMS
1. Understand what operating systems are, types of operating systems and processes, threads, and the differences between the two
2. Learning about OS constructs for synchronization, waiting, and atomic behaviour
3. Understanding how caching, virtual memory, paging, and memory allocation are done in an Operating System
4. Gaining knowledge about files access, types of files and storage of persistent information, from a Unix/Linux perspective
5. Learning the basics of Unix shell programming and system programming via the Unix/Linux System Call interface
EEM-814 DIGITAL SIGNAL PROCESSING
1. Ability to apply current knowledge and applications of mathematics, science, engineering and technology. Identify the signals and systems and apply the principles of discrete- time signal analysis to perform various signal operations
2. Apply the principles of z-transforms to finite difference equations.
3. Apply the principles of Fourier transform analysis to describe the frequency characteristics of discrete-time signals and systems. Apply the principles of signal analysis to filtering
4. Use computer programming tools to process and visualize signals
5. Ability to creatively design a system, component or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability
EEM-815 HIGH VOLTAGE D.C.
1. Understand the basic concepts in HVDC transmission and compare with AC transmission
2. Analyze the converter operation in rectification and inversion modes 3. Understand the control characteristics of HVDC line
4. Understand various types of faults and harmonics in HVDC systems and design protection schemes
5. Formulate mathematical models and analyse power systems with HVDC lines
EEM-817 MICROWAVE ENGINEERING
1. After the course, an average student can design and analyze simple microwave circuits and components using analytical and computer-aided design tools.
2. The student knows the key characteristics of different components and has pre- requisites for designing microwave systems.
3. The student is familiar with the selected computer-aided microwave circuit design tool(s).
4. Students have had the opportunity to improve their presentation skills, group-working skills, documentation skills, and problem solving skills.
EEM-818 PLANNING & OPERATIONS OF RESTRUCTURED POWER SYSTEMS 1. Understand how the Power Market operates in a deregulated Electrical Power Industry.
2. Know the significance of generation planning for power system reliability and security assessment.
3. Know the significance of transmission planning for power system reliability and security assessment.
4. Analyze and distinguish load forecasting and price forecasting methods
5. Analyze the power system reliability and security assessment under deregulated environment.
EEM-820 QUANTUM COMPUTING
1. To understand the perspective that quantum phenomena bring to the questions of information and algorithm is quite unlike the conventional one.
2. Learn basics of linear algebra and basic quantum mechanics as relevant to Quantum Computing, Concepts of Algorithm Complexity analysis and Complexity classes
3. Be familiar with qubits, basic quantum gates and simple quantum algorithms like Quantum teleportation, Super-dense coding and other applications.
4. Shor’s Algorithm in detail as example of how Quantum Algorithms are designed and work – Quantum Fourier Transforms, phase estimation, order finding and factoring.
5. Understand requirements and issues in physical realization of Quantum Computers and some example attempts with applications of Quantum Computing with current trends.
EEM-821 NEURAL NETWORKS
1. Learn basic neural network architecture, geometry of binary threshold neuron and its use as pattern classifier
2. Learn basic feed forward neural networks and associated supervised learning algorithms with proof of convergence
3. Learn concept of data pre and post processing, training, verification and validation of neural network models
4. Learn basic recurrent neural networks, Cohen Grossberg dynamics, Lyapunov analysis and stability issues.
5. Learn neural network model with unsupervised learning, concepts of noise saturation dilemma, competitive learning, generalized learning laws
6. Learn basic deep neural networks and recent models
7. Learn to design neural networks for various engineering applications
EEM 822 – DIGITAL COMMUNICATION
1. Discuss the theorems of Information Theory and the significance of the various fundamental limits of performance in communication systems and also perform source coding.
2. Determine the probability of error in the detection of noisy digital signals and design optimal receivers to minimise the same.
3. Estimate the parameters of detected waveforms employing Maximum Likelihood Estimation.
4. Implement digital modulation and demodulation of various types like coherent and non- coherent binary and M-ary techniques.
5. Generate various types of error correcting codes for effective detection of digital message signals transmitted as modulated signals through noisy channels.
6. Justify the spreading of spectrum of transmitted signals in digital communication channels and discuss various methods employed for the same as well as the corresponding detection schemes.
EEM-823 SYSTEM OPTIMIZATION USING EVOLUTIONARY ALGORITHMS 1. To provide an understanding of optimization, Single Objective Optimization,
Deterministic optimization methods, stochastic optimization methods, Difficulties with classical optimization algorithms and need for Evolutionary Algorithms.
2. To provide an understanding of Evolutionary Algorithms (EAs), EA operators, Single Objective Optimization using EAs and their Design and parameterization for different real-world engineering applications. A look at some competent EAs.
3. To provide an understanding of constrained single objective optimization, difficulties in EAs, enhancing the efficiency of EAs through incorporation of domain specific information, and hybridization with expressly designed algorithms.
4. To provide an understanding of Multi- Objective Optimization (MOP), issues in MOP, Multi-objective Evolutionary Approaches (MOEAs) and their design and parameterization for real-world MOP applications.
5. To provide and understanding of Constrained MOPs, Robust optimization, some real- world constrained MOPs and their solution using MOEAs.
EEM-825 MOBILE COMPUTING
1. To provide an understanding of what is mobile computing, Applications of mobile computing, issues and challenges in mobile computing.
2. To provide an understanding of the Cellular concept, Frequency reuse, Hand-off strategies, and different generations of mobile Telecommunication systems.
3. To provide an understanding of various wireless data networks including IEEE802.11 family, HIPERLAN, Bluetooth and Wireless broadband (WiMax).
4. To provide an understanding of Mobile Network Layer, Mobile IP, Agent advertisement and discovery, registration, Tunnelling & Encapsulation, Reverse tunnelling, and Dynamic Host Configuration. To provide an understanding of Mobile Ad-hoc Networks (MANETs), their applications and routing in MANETs. To understand Mobile Transport Layer, Indirect TCP, Snooping TCP, Mobile TCP, etc.
5. To provide an understanding of Mobile computing architecture, File system support for mobility, Mobile Databases, Wireless Application Protocol, Mobile Agents, and Mobile Operating Systems.
EEM-826 ELECTRICAL MACHINES-III
1. The role of magnetic energy in electromechanical energy conversion. Generalized equation of machines.
2. Active and passive transformation. Linear transformation in circuits and machines.
3. Electric machine dynamics. The torque expressions.
4. Transient performance of various machines (motors and generators). Stability analysis using various stability criteria. Reference frames and applications.
5. Steady-state performance of induction machines. Steady-state performance of synchronous machines.
6. Description and utilization of mathematical software of electric machines analysis.
