2.6.1 Programme outcomes, Programme specific outcomes and course outcomes for all Programmes offered by the institution are stated and displayed on website and communicated to teachers and students (20) First Year B.Tech Course Outcome: BEML101 : ENGINEERING MATHEMATICS - I Course Outcome: 1. Identify the various methods in Linear algebra, calculus and solid geometry that applies to a given problem. 2. Associate physical problems with above mathematical concepts. 3. Apply above concepts for solving problems in engineering fields. 4. Analyze complex problems & categorize it into parts and infer the relation between them. BEML110: Engineering Mathematics – II Course Outcome: 1. Identify the various methods in Differential calculus, Integral calculus and Fourier series that applies to a given Problem. 2. Associate physical problems with above mathematical concepts. 3. Apply above concepts for solving problems in engineering fields. 4. Analyze complex problems & categorize it into parts and infer the relation between them. BPHL102: ENGINEERING PHYSICS Course Outcome: At the end of the course student will be able to 1. apply the knowledge of basic concepts in physics related to electrodynamics, optics solid state physics, quantum mechanics, sound engineering and nanotechnology to understand and solve the engineering problems. 2. use the modern methodologies to analyze a wide range of engineering systems such as solid state
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2.6.1 Programme outcomes, Programme specific outcomes …BHUL113 : Communication Skill Course Outcome: At the end of the course the student shall be able to: 1. The students will develop
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2.6.1 Programme outcomes, Programme specific outcomes and
course outcomes for all Programmes offered by the institution are
stated and displayed on website and communicated to teachers and
students (20)
First Year B.Tech
Course Outcome:
BEML101 : ENGINEERING MATHEMATICS - I
Course Outcome:
1. Identify the various methods in Linear algebra, calculus and solid geometry that applies to a
given problem.
2. Associate physical problems with above mathematical concepts.
3. Apply above concepts for solving problems in engineering fields.
4. Analyze complex problems & categorize it into parts and infer the relation between them.
BEML110: Engineering Mathematics – II
Course Outcome:
1. Identify the various methods in Differential calculus, Integral calculus and Fourier series that applies
to a given Problem.
2. Associate physical problems with above mathematical concepts.
3. Apply above concepts for solving problems in engineering fields.
4. Analyze complex problems & categorize it into parts and infer the relation between them.
BPHL102: ENGINEERING PHYSICS
Course Outcome: At the end of the course student will be able to
1. apply the knowledge of basic concepts in physics related to electrodynamics, optics solid state
physics, quantum mechanics, sound engineering and nanotechnology to understand and solve the
engineering problems.
2. use the modern methodologies to analyze a wide range of engineering systems such as solid state
devices, materials synthesis etc.
3. apply mathematical and analytical methods in physics to various engineering problems.
BITL104: Programming in C
Course Outcome:
1. Describe the basic concepts of programming
2. Distinguish various control structures used in programming.
3. Describe & apply the concepts of functions.
4. Design, implement debug & document a program for a given problem statement.
BECL105: Basic Electronics Engineering
Course Outcome : After completion of this course student will be able to
1. Students are able to understand and acquire basic fundamental knowledge of electronics components
and circuits.
2. Students are able to analyze behavior of electronics components and circuits.
3. Students are able to effectively employ there fundamental knowledge for solving complex problems.
4. Students are able to effectively evaluate basic electronics circuits.
BEEL106: Basic Electrical Engineering
Course Outcome:
At the end of the course the student shall be able to:
1. Students are able to understand and acquire basic fundamental knowledge of electrical components
BCHL103: Engineering Chemistry
Course Outcome:
1. measure and Solve social environment based problems on water treatment, fuels, corrosion etc.
2. explain the structure and engineering applications of some special materials
3. use the technical skills while handling modern engineering tools like spectrometer, conductometer,
potentiometer
4. Illustrate the knowledge of advance engineering materials
and circuits.
2. Students are able to analyze behavior of electrical components and circuits.
3. Students are able to effectively employ there fundamental knowledge for solving complex problems.
4. Students are able to effectively evaluate basic electrical circuits.
BCEL107: Engineering Mechanics
Course Outcomes:
1. To expose to the basic concepts of Mechanics for Static and Dynamics
2. To describe and be able to predict the conditions of rest or motion of the bodies under the action of
forces
3. To understand the basic concepts of forces moments, couples in two dimensional force system
BMEL108 : Basic Mechanical & Engineering Graphics
Course Outcomes: On successful completion of the course, students will be able to
1. Discuss the basic terms and definitions of fluid properties and equations.
2. Explain working of different flow measuring devices.
3. Classify various losses in pipe flow in various arrangements.
4. Evaluate forces on different blades using velocity diagrams.
5. Determine type of flows using dimensionless numbers.
BHUL109: Environmental Studies and Professional Ethics
Course Outcome: At the end of the course the student shall be able to:
1. Understand the concepts and methods and their applications in environmental problem-solving.
2. To get knowledge about impact of different types of pollutions.
3. To get knowledge about effect of water pollution on health and different energy recourses.
4. Demonstrate self confidence and self esteem.
5. Present appropriate etiquettes, style, manners and graceful personality.
BMEP111: Workshop
_ 1
Course Outcome: At the end of this course student are able to
1. Understand and demonstrate workshop safety regulations.
2. Use tools and processes in fitting, carpentry and welding operations.
3. Demonstrate knowledge of component identification and PCB making.
BFYP112: MINI MODELING
Course Outcome: student shall be able to:
1. Developing the skills of planning and designing to develop a working Mini Model.
2. Implement knowledge of concepts learnt and workshop practices to prepare a model.
3. Use innovative ideas and convert these into physical models.
BHUL113 : Communication Skill
Course Outcome: At the end of the course the student shall be able to:
1. The students will develop an understanding regarding effective communication and required
skills.
2. Development of the four broad essential communication skills in i.e. – Reading, Writing,
Listening and Speaking.
3. Enhancement of vocabulary and English proficiency of the students.
BIDL101: Bio Systems in Engineering
Course Outcome:
Upon successful completion of the course, students will be able to
1. Use bioinstrumentation, required in cellular or molecular biology investigations.
2. Apply the concepts of engineering in different streams of biomedical field.
Department of Electronics & Telecommunication Engineering
COURSE OUTCOMES (2012 Pattern)
SECOND YEAR
204181 Signals & Systems 1. Understand the basic signals and their classification,
perform operations on signals.
2. Understand and identify the systems based on their
properties
3. Understand, identify the system based on their properties in
terms impulse response and also solve the convolution
integral and sum.
4. Understand, and resolve the signals in frequency domain
using Fourier series and Fourier transform. Find the
amplitude spectrum, phase spectrum of the various signals
and also systems. Analyze the system in frequency domain
5. Understand, and resolve the signals in complex frequency
domain using Laplace Transform. Analyze the system in s
– domain. Characterize the system in s- domain. Apply
Laplace transforms to analyze electrical circuits.
6. Understand, apply and determine the correllogram, auto
correlation, cross correlation, energy spectral density, and
power spectral density of discrete and continuous signals.
Carry out the system analysis and inter play between
frequency and time domain.
7. Understand the basic concept of probability, random
variables and random signals. Calculate the CDF, PDF and
probability of a given event. Calculate the mean, mean
square, variance and standard deviation for given random
variables using pdf
204182 Electronic Devices
& Circuits
1. Understand and apply basic and semiconductor
principles to the device to observe its performance.
2. Comply and verify parameters after exciting devices by
any stated method.
3. Simulate electronics circuits using computer simulation
software to obtain desired results.
4. Understand and verify simulated circuit with hardware
implementation.
5. Implement hardwired circuit to test performance and
application for what it is being designed.
6. Analyze and model BJT and MOSFET for small signal.
7. Understand and apply concept of feedback to improve
stability of circuits.
8. Understand behavior of transistors at low and high
frequency.
204183 Network Theory 1. Understand, Analyze the basic AC and DC circuits using
KCL,KVL and network Theorems
2. Determine the voltages, currents, power and impedances
at various nodes and loops using all the simplification
techniques.
3. Understand and apply graph theory to solve network
equations
4. Understand, and calculate the initial conditions of RL,
RC circuits
5. Formulate, solve the differential equations for RL, RC,
and RLC circuits and carry out the transient analysis.
6. Understand, identify and analyze the series, parallel
resonance circuits, calculate the bandwidth, selectivity,
Q-factor also.
7. Understand, analyze and design prototype LC filters and
Resistive attenuators.
8. Characterize; model the network in terms of all network
parameters and analyze.
9. Understand and formulate the network transfer function
in s-domain and pole, zero concept.
204184 Data structures &
Algorithms
1. Choose the data structures that effectively model the
information in a problem.
2. Judge efficiency trade-offs among alternative data
structure implementations or combinations.
3. Apply algorithm analysis techniques to evaluate the
performance of an algorithm and to compare data
structures.
4. Implement and know when to apply standard algorithms
for searching and sorting.
5. Design, implement, test, and debug programs using a
variety of data structures including lists,
6. stacks, queues, hash tables, binary tree structures, search
trees, heaps, graphs.
204185 Digital Electronics 1. Understand the basic logic gates and various variable
reduction techniques of digital logic circuit in detail.
2. Understand, identify and design combinational and
sequential circuits
3. Design and implement hardware circuit to test
performance and application for what it is being
designed.
4. Simulate and verify using computer simulation
software to obtain desired result.
5. Understand and verify simulated circuit model with
hardware implementation.
204186 Electronic
Measuring
1. Understand fundamental of measurements of various
electrical parameters.
Instruments and
Tools
2. Aware and identify the control panels of measuring and
generating instruments.
3. Understand and describe specifications, features and
capabilities of electronic instruments.
4. Select appropriate instrument for the measurement of
electrical parameter professionally.
5. Finalize the specifications of instrument and select an
appropriate instrument for given measurement.
6. Make the required measurement using various instruments
204187 Integrated Circuits 1. Understand the characteristics of IC and Op-Amp and
identify the internal structure.
2. Understand and identify various manufacturing techniques
3. Derive and determine various performances based
parameters and their significance for Op-Amp
4. Comply and verify parameters after exciting IC by any
stated method.
5. Analyze and identify the closed loop stability
considerations and I/O limitations.
6. Analyze and identify linear and nonlinear applications of
Op-Amp
7. .Understand and verify results (levels of V & I) with
hardware implementation.
8. Implement hardwired circuit to test performance and
application for what it is being designed.
9. Understand and apply the functionalities of PLL to
Frequency synthesizer, multiplier, FM, and AM
demodulators
204188 Control Systems 1. Model a physical system and express its internal dynamics
and input-output relationships by means of block diagrams,
mathematical model and transfer functions.
2. Understand and explain the relationships between the
parameters of a control system and its stability, accuracy,
transient behavior.
3. Identify the parameters that the system is sensitive to.
Determine the stability of a system and parameter ranges
for a desired degree of stability.
4. Plot the Bode, Nyquist, Root Locus diagrams for a given
control system and identify the parameters and carry out
the stability analysis.
5. Determine the frequency response of a control system and
use it to evaluate or adjust the relative stability,
6. Design a P, PD, PI, or PID controller based on the transient
and steady state response criteria.
7. Model and analyze the control systems using state space
analysis.
204189 Analog
Communication
1. Understand and identify the fundamental concepts and
various components of analog communication systems.
2. Understand, analyze and explain various analog
modulation schemes.
3. Understand the performance of analog communications
systems under the presence of noise.
4. Understand and apply concepts and techniques from
Fourier analysis and circuit analysis to communication
systems.
5. Develop the ability to compare and contrast the strengths
and weaknesses of various communication systems
6. Analyze Basic communications systems and their
performance under the presence of noise
7. Describe various pulse and digital modulation techniques.
204190 Computer
Organization
1. Understand and describe the basic structure of a computer,
machine instruction and their execution.
2. Understand and analyze performance issues in computer
system.
3. Understand, apply and carry out binary arithmetic
operations such as high speed addition, multiplier including
the algorithms
4. Understand, and explain the instruction execution, internal
functions of processor and control unit design.
5. Understand and describe the various way of
communication with I/O devices and standard I/O
interfaces.
6. Understand and describe the memory organization and
hierarchical memory system.
7. Understand and explain the various aspects of 8086 (16 bit
microprocessor) processor as a case study.
204191 Object Oriented
Programming
1. Justify the philosophy of object-oriented design and the
concepts of encapsulation, abstraction, inheritance, and
polymorphism;
2. Design, implement, test, and debug simple programs in an
object-oriented programming language.
3. Describe how the class mechanism supports encapsulation
and information hiding.
4. Design, implement, and test the implementation of “is-a” relationships among objects using a class hierarchy and
inheritance.
5. Compare and contrast the notions of overloading and
overriding methods in an object-oriented language.
204192 Soft Skills 1. Communicate, interact and present his ideas to the other
professionals.
2. Understand and aware of importance, role and contents of
soft skills through instructions, knowledge acquisition,
demonstration and practice.
3. Have right attitudinal and behavioral aspects, and build the
same through activities.
4. Possess right professional and social ethical values.
THIRD YEAR
CODE SUBJECT NAME COURSE OUTCOMES
304181
Digital
Communication
1. Analyze the performance of a baseband and pass band
digital communication system in terms of error rate and
spectral efficiency.
2. Perform the time and frequency domain analysis of the
signals in a digital communication system.
3. Select the blocks in a design of digital communication
system.
4. Analyze Performance of spread spectrum
communication system
304182 l Digital Signal
Processing
1. Understand use of different transforms and analyze the
discrete time signals and systems.
2. Realize the use of LTI filters for filtering different real
world signals.
3. Capable of calibrating and resolving different
frequencies existing in any signal.
4. Design and implement multistage sampling rate
converter.
304183 Microcontroller and
Applications
1. Learn importance of microcontroller in designing
embedded application
2. Learn use of hardware and software tools
3. Develop interfacing to real world devices
304184 Electromagnetics
and Transmission
Lines
1. Interpret the electromagnetic problem and solve using
Maxwell‟s equations. 2. Apply boundary conditions to different media, and
formulate uniform plane wave equation, which is the
basic of Antenna and wave propagation.
3. Analyze the transmission line problem, use the Smith
chart for impedance calculations
304185 System Programming
and Operating
System
1. Demonstrate the knowledge of Systems Programming
and Operating Systems
2. Formulate the Problem and develop the solution for
same.
3. Compare and analyze the different implementation
approach of system programming and operating
system abstractions.
4. Interpret various OS functions used in Linux / Ubuntu
304189
Information Theory
and Coding
Techniques
1. Perform information theoretic analysis of
communication system.
2. Design a data compression scheme using suitable
source coding technique.
3. Design a channel coding scheme for a communication
system.
4. Evaluate performance of a communication system.
304190
Antenna and Wave
Propagation
1. Formulate the wave equation and solve it for uniform
plane wave
2. Analyze the given wire antenna and its radiation
characteristics
3. Identify the suitable antenna for a given
communication system
304191 Embedded Processor
1. Describe the ARM microprocessor architectures and
its feature.
2. Interface the advanced peripherals to ARM based
microcontroller
3. Design embedded system with available resources
304192
Industrial
Management
1. .Get overview of Management Science aspects useful
in Industry.
2. Get motivation for Entrepreneurship
304193 Power Electronics 1. Design & implement a triggering / gate drive circuit
for a power device
2. Understand, perform & analyze different controlled
converters.
3. Evaluate battery backup time & design a battery
charger.
4. Design & implement over voltage / over current
protection circuit.
FINAL YEAR
SUBJECT
CODE
SUBJECT NAME COURSE OUTCOMES
404181 VLSI Design & Technology
1. Model digital circuit with HDL, simulate,
synthesis and prototype in PLDs.
2. Understand chip level issues and need of
testability.
3. Design analog & digital CMOS circuits for
specified applications
404182 Computer Networks 1. Understand fundamental underlying
principles of computer networking
2. Describe and analyze the hardware, software,
components of a network and the
interrelations.
3. Analyze the requirements for a given
organizational structure and select the most
appropriate networking architecture and
technologies;
4. Have a basic knowledge of the use of
cryptography and network security;
5. Have a basic knowledge of installing and
configuring networking applications.
6. Specify and identify deficiencies in existing
protocols, and then go onto select new and
better protocols.
404183 Microwave Engineering 1. Formulate the wave equation in wave guide
for analysis.
2. Identify the use of microwave components
and devices in microwave applications.
3. Understand the working principles of all the
microwave tubes
4. Understand the working principles of all the
solid state devices
5. Choose a suitable microwave tube and solid
state device for a particular application
6. Carry out the microwave network analysis
7. Choose a suitable microwave measurement
instruments and carry out the required
measurements.
404184 I Digital Image Processing 1. Develop and implement algorithms for
digital image processing.
2. Apply image processing algorithms for
practical object recognition applications
404184 I Embedded Systems &
RTOS
1. systems to design real time applications to
match recent trends in technology.
2. Understand Real time systems concepts.
3. Understand Linux operating system and
device drivers.
4. Get to know the hardware – software co
design issues and testing methodology for
embedded system.
404185 PLCs and Automation 1. Understand PLC architecture, PLC
addressing concepts.
2. Develop PLC ladder programs for simple
industrial applications.
3. Design Automation systems for industrial
applications
404189 Mobile Communication 1. Explain and apply the concepts
telecommunication switching, traffic and
networks
2. Analyze the telecommunication traffic.
3. Analyze radio channel and cellular capacity.
4. Explain and apply concepts of GSM and
CDMA system.
404190 Broadband Communication
Systems
1. Carry out Link power budget and Rise Time
Budget by proper selection of components
and check its viability.
2. Carry out Satellite Link design for Up Link
and Down Link.
404191 Audio Video Engineering 1. To study the analysis and synthesis of TV
Pictures, Composite Video Signal, Receiver,
Picture Tubes and Television Camera Tubes.
2. To study the various Colour Television
systems with a greater emphasis on television
standards.
3. To study the advanced topics in Digital
Television and High Definition Television.
4. To study audio recording systems such
CD/DVD recording, Audio Standards, and
Acoustics principles.
404192 Wireless Networks 1. Keep himself updated on latest wireless
technologies and trends in the communication
field
2. Understand the transmission of voice and data
through various networks.
Department of Computer Engineering
COURSE OUTCOME
1 BITL201 Digital Electronics
and Logic Design
1 Minimize logical equations and design code convertors
2 Construct Combinational and Sequential circuits.
3 Validate design outputs using standard test equipments.
4 Describe Programmable Logic Devices.
5 Design of sequential circuits using ASM.
6 Design & develop an application using VHDL.
2 BITP 201 Digital Electronics
and Logic Design
1 Minimize logical equations and design code convertors
2 Construct Combinational and Sequential circuits
3 Validate design outputs using standards test equipment
4 Describe Programmable Logic Devices
5 Design of sequential circuits by using ASM
6 Design & develop an application using VHDL
3 BCOL201 Data Structure
1 Describe concepts of data structures
2 know the concepts of linked list
3 Apply the knowledge to implement the algorithms for
stacks and queues
4 Describe the applications of trees
5 Describe the concepts of graphs and its applications
4 BCOP201 Data Structure lab
1 To understand the Basic concepts of data structures.
2 To learn the representation, implementation and
applications of linear data structures
3 To understand the concepts of stacks and queues with
their applications.
4 To understand the concepts of trees with their
applications.
5 BCOL202 Microprocessor
Based Systems
1 Understand the taxonomy of microprocessors and
knowledge of contemporary microprocessors.
2 Demonstrate programming using the various addressing
modes and instruction set of 8086 microprocessor
3 Understand the concept & types of interrupts
4 Demonstrate interfacing of special purpose
programmable peripheral devices with microprocessor
5 Understand architecture, memory management &
multitasking of 80386 microprocessor
6 Study recent advancements in microprocessor
architectures
6 BITL202 Object Oriented
Programming
1
Describe the procedural and object oriented paradigm
with concepts of streams, classes, functions, data and