ECE CO's

MATHEMATICS – I
 (MA101BS)
Course Outcomes:
1)    After learning the contents of this paper the student must be able to
2)    Write the matrix representation of a set of linear equations and to analyse the solution of the system of equations  Find the Eigen values and Eigen vectors  
3)    Reduce the quadratic form to canonical form using orthogonal transformations. Analyse the nature of sequence and series. 
4)    Solve the applications on the mean value theorems. 
5)    Evaluate the improper integrals using Beta and Gamma functions ind the extreme values of functions of two variables with/ without constraints.

ENGINEERING GRAPHICS
 (ME104ES/ME204ES)
Course Outcomes:
At the end of the course, the student will be able to: 
1)    Preparing working drawings to communicate the ideas and information. 
2)    Read, understand and interpret engineering drawings.
3)    Apply Orthographic Projection Techniques
4)    Visualize and Draw Isometric Projections
5)    Understand and Draw Projections of Solids

PROGRAMMING FOR PROBLEM SOLVING 
(CS103ES/CS203ES)
Course Outcomes:
The student will learn 
1)    To write algorithms and to draw flowcharts for solving problems. 
2)    To convert the algorithms/flowcharts to C programs. 
3)    To code and test a given logic in C programming language. 
4)    To decompose a problem into functions and to develop modular reusable code. 
5)    To use arrays, pointers, strings and structures to write C programs. 

APPLIED PHYSICS 
(AP102BS/AP202BS)
Course Outcomes:
Upon graduation: 
1)    The student would be able to learn the fundamental concepts on Quantum behaviour of matter 
in its micro state. 
2)    The knowledge of fundamentals of Semiconductor physics, Optoelectronics, Lasers and fibre 
optics enable the students to apply to various systems like communications, solar cell, photo 
cells and so on. 
3)    Design, characterization and study of properties of material help the students to prepare new 
materials for various engineering applications. 
4)    The course also helps the students to be exposed to the phenomena of electromagnetism 
5)    The course also helps the students to be exposed to have exposure on magnetic materials and dielectric materials.

APPLIED PHYSICS LAB
(AP105BS/AP205BS)
Course Outcomes: 
The students will be able to: 
1)    Know the determination of the Planck’s constant using Photo electric effect and identify the material whether it is n-type or p-type by Hall experiment. 
2)    Appreciate quantum physics in semiconductor devices and optoelectronics.
3)    Gain the knowledge of applications of dielectric constant. 
4)    Understand the variation of magnetic field and behavior of hysteresis curve.
5)    Carried out data analysis.

PROGRAMMING FOR PROBLEM SOLVING LAB
(CS106ES/CS206ES)
Course Outcomes:
The candidate is expected to be able to: 
1)    formulate the algorithms for simple problems 
2)    translate given algorithms to a working and correct program 
3)    correct syntax errors as reported by the compilers 
4)    identify and correct logical errors encountered during execution 
5)    represent and manipulate data with arrays, strings and structures 
6)    use pointers of different types 
7)    create, read and write to and from simple text and binary files modularize the code with functions so that they can be reused

ENVIRONMENTAL SCIENCE
(*MC109ES)
Course Outcomes:
1)    Based on this course, the Engineering graduate will understand /evaluate / develop
technologies on the basis of ecological principles and environmental regulations which in turn
helps in sustainable development
2)    Understand the Fundamentals of Environmental Science
3)    Identify the Components of the Environment
4)    Analyze Human Impact on the Environment
5)    Understand the Importance of Natural Resources

MATHEMATICS – II
(MA201BS)
Course Outcomes:
After learning the contents of this paper the student must be able to  
1)    Identify whether the given differential equation of first order is exact or not 
2)    Solve higher differential equation and apply the concept of differential equation to real world 
problems 
3)    Evaluate the multiple integrals and apply the concept to find areas, volumes, centre of mass 
4)    Evaluate the multiple integrals and apply the concept to find Gravity for cubes, sphere and rectangular parallelopiped 
5)    Evaluate the line, surface and volume integrals and converting them from one to another

CHEMISTRY
( CH102BS/CH202BS)
Course Outcomes:
1)    The basic concepts included in this course will help the student to gain: 
2)    The knowledge of atomic, molecular and electronic changes, band theory related to conductivity. 
3)    The required principles and concepts of electrochemistry, corrosion and in understanding the 
problem of water and its treatments. 
4)    The required skills to get clear concepts on basic spectroscopy and application to medical and 
other fields. 
5)    The knowledge of configurational and conformational analysis of molecules and reaction 
mechanisms.

ENGLISH 
(EN105HS/EN205HS)
Course Outcomes:
Students should be able to 
1)    Use English Language effectively in spoken and written forms. 
2)    Comprehend the given texts and respond appropriately. 
3)    Communicate confidently in various contexts and different cultures. 
4)    Acquire basic proficiency in English including reading and listening comprehension, writing 
5)    and speaking skills.

ENGINEERING CHEMISTRY LAB
( CH106BS/CH206BS)
Course Outcomes:
1)    The experiments will make the student gain skills on: 
2)    Determination of parameters like hardness and chloride content in water. 
3)    Estimation of rate constant of a reaction from concentration – time relationships.
4)    Determination of physical properties like adsorption and viscosity. 
5)    Calculation of Rf values of some organic molecules by TLC technique.

ENGLISH LANGUAGE  AND COMMUNICATION SKILLS LAB
( EN107HS/EN207HS)
Course Outcomes:
Students will be able to attain 
1)    Better understanding of nuances of English language through audio- visual experience 
2)    Better understanding of nuances of English language through group activities 
3)    Neutralization of accent for intelligibility 
4)    Speaking skills with clarity and confidence
5)     which in turn enhances their employability  Skills

BASIC ELECTRICAL ENGINEERING 
(EE103ES/EE203ES)
Course Outcomes:
1)    To analyze and solve electrical circuits using network laws and theorems. 
2)    To understand and analyze basic Electric 
3)    To understand and analyze  Magnetic circuits 
4)    To study the working principles of Electrical Machines 
5)    To introduce components of Low Voltage Electrical Installations

BASIC ELECTRICAL ENGINEERING LAB
( EE108ES/EE208ES)
Course Outcomes:
1)    Get an exposure to basic electrical laws.  
2)    Understand the response of different types of electrical circuits to different excitations.  
3)    Understand the measurement, calculation and relation between the basic electrical parameters
4)    Understand the basic characteristics of transformers
5)    Understand the basic characteristics of electrical machines.  

ENGINEERING WORKSHOP 
(ME105ES/ME205ES)
Course Outcomes:
At the end of the course, the student will be able to:  
1)    Study and practice on machine tools and their operations  
2)    Practice on manufacturing of components using workshop trades including pluming, fitting, carpentry, foundry,. 
3)    Practice on manufacturing of components using workshop trades including house wiring and welding
4)    Identify and apply suitable tools for different trades of Engineering processes including drilling, material removing, measuring, chiseling. 
5)    Apply basic electrical engineering knowledge for house wiring practice.

SIGNALS AND SYSTEMS
(EC304PC)
Course Outcomes:
Upon completing this course, the student will be able to 
1)    Differentiate various signal functions.  
2)    Represent any arbitrary signal in time domain and frequency domain. 
3)    Represent any arbitrary signal in frequency domain
4)    Understand the characteristics of linear time invariant systems. 
5)    Analyze the signals with different transform technique

NETWORK ANALYSIS AND TRANSMISSION LINES
( EC302PC)
Course Outcomes:

Upon successful completion of the course, students will be able to:  
1)    Gain the knowledge on basic RLC circuits behavior. 
2)    Analyze the Steady state analysis of RLC Circuits. 
3)    Analyze the transient analysis of RLC Circuits
4)    Know the characteristics of two port network parameters. 
5)    Analyze the transmission line parameters and configurations.

DIGITAL SYSTEM DESIGN
 (EC303PC)
Course Outcomes:
Upon completing this course, the student will be able to  
1)    Understand the  numerical information in different forms 
2)    Understand Boolean Algebra theorems  
3)    Postulates of Boolean algebra and to minimize combinational functions 
4)    Design and analyze combinational and sequential circuits 
5)    Known about the logic families and realization of logic gates.

ELECTRONIC DEVICES AND CIRCUITS LAB
(EC306PC)
Course Outcomes:
1)    Learn the characteristics of basic electronic devices. 
2)    Learn the Characteristics of UJT 
3)    Learn the Characteristics of FET 
4)    Learn about Power amplifiers. 
5)    Learn about Differential amplifiers CO6 :To understand the concepts of simulation by using Spice tool

ELECTRONIC DEVICES AND CIRCUITS
(EC301PC)
Course Outcomes:
      Upon completion of the Course, the students will be able to: 
1)    Know the characteristics of various components. 
2)    Understand the utilization of components. 
3)    Understand the biasing techniques 
4)    Design  small signal amplifier circuits.
5)    analyze small signal amplifier circuits

BASIC SIMULATION LAB
(EC308ES)
Course Outcomes: :
Upon completing this course, the students will be able to 
1)    Generate, analyze and perform various operations on Signals/Sequences both in time and Frequency domain 
2)    Analyze and Characterize Continuous and Discrete Time Systems both in Time and Frequency domain along with the concept of Sampling 
3)    Generate different Random Signals and capable to analyze their Characteristics

DIGITAL SYSTEM DESIGN LAB
(EC307PC)
Course Outcomes: 
Upon completing this course, the students will be able to
1)    Acquire the knowledge on numerical information in different forms and Boolean Algebra theorems.
2)    Define Postulates of Boolean algebra and to minimize combinational functions, and design the combinational circuits.
3)    Design and analyze sequential circuits for various cyclic functions.
4)    Characterize logic families and analyze them for the purpose of AC and DC parameters.

PROBABILITY THEORY AND STOCHASTIC PROCESSES
(EC305ES)
Course Outcomes:
Upon completing this course, the student will be able to  
1)    Understand the concepts of Random Process and its Characteristics. 
2)    Understand the response of linear time Invariant system for a Random Processes.
3)    Determine the temporal characteristics of Random Signals. 
4)    Determine the Spectral characteristics of Random Signals
5)    Understand the concepts of Noise in Communication systems.

CONSTITUTION OF INDIA
( *MC309/*MC409)
Course Outcomes: 
Students will be able to:  
1)    Discuss the growth of the demand for civil rights in India for the bulk of Indians before the
2)    Arrival of Gandhi in Indian politics. 
3)    Discuss the intellectual origins of the framework of argument that informed the conceptualization of social reforms leading to revolution in India. 
4)    Discuss the circumstances surrounding the foundation of the Congress Socialist Party [CSP]under the leadership of Jawaharlal Nehru and the eventual failure of the proposal of direct elections through adult suffrage in the Indian Constitution  
5)    Discuss the passage of the Hindu Code Bill of 1956.

ELECTROMAGNETIC FIELDS AND WAVES

(EC402PC)

Course Outcomes:

Upon completing this course, the student will be able to  

1. Get the knowledge of Basic Laws, Concepts and proofs related to Electrostatic Fields
2. Get the knowledge of Basic Laws, Concepts and proofs related to

Magnetostatic Fields.

1. Distinguish between the static and time-varying fields, establish the corresponding sets of  

Maxwell’s Equations and Boundary Conditions.    

1. Analyze the Wave  Equations  for  good  conductors, good  dielectrics  and  evaluate  the  UPW 

Characteristics  for  several  practical media  of  interest.

1. To analyze completely  the  rectangular  waveguides,  their  mode  characteristics,  and  design 

waveguides  for  solving  practical  problems.

ELECTRONIC CIRCUIT ANALYSIS

( EC405PC)

Course Outcomes:

Upon completing this course, the student will be able to 

1. Design the multistage amplifiers and understand the concepts of High Frequency Analysis of

Transistors. 

1. Utilize the Concepts of negative feedback to improve the stability of amplifiers and positive

feedback to generate sustained oscillations

1. Design and realize different classes of Power Amplifiers and tuned amplifiers useable for audio

and Radio applications.

1. Design Multivibrators and sweep circuits for various applications.
2. Design sweep circuits for various applications

LAPLACE TRANSFORMS, NUMERICAL METHODS AND COMPLEX VARIABLES

( MA401BS)

Course Outcomes:

After learning the contents of this paper the student must be able to  

1. Use the Laplace transforms techniques for solving ODE’s .Find the root of a given equation.
2. Estimate the value for the given data using interpolation
3. Find the numerical solutions for a given ODE’s
4. Analyze the complex function with reference to their analyticity, integration using Cauchy’s integral and residue theorems.
5. Taylor’s and Laurent’s series expansions of complex Function

LINEAR IC APPLICATIONS

(EC404PC)

Course Outcomes:

Upon completing this course, the student will be able to 

1. A thorough understanding of operational amplifiers with linear integrated circuits.
2. Attain the knowledge of functional diagrams  
3. applications of IC 555
4. applications of IC 565
5. Acquire the knowledge about the Data converters

IC APPLICATIONS LAB

(EC407PC)

Course Outcomes:

Upon completing this course, the student able to

1. Design and implementation of various analog circuits using 741 ICs.
2. Design and implementation of various Multivibrators using 555 timer.
3. Design and implement various circuits using digital ICs.
4. Design and implement ADC, DAC and voltage regulators.

ELECTRONIC CIRCUIT ANALYSIS LAB

(EC408PC)

Course Outcomes:

Upon completing this course, the students will be able t

1. Design power amplifiers and find its efficiency
2. Design tuned amplifiers and find its Q-factor
3. Design various multivibrators and sweep circuits. Understand the necessity of linearity
4. Design sampling gates and understanding the concepts of frequency division

ANALOG AND DIGITAL COMMUNICATIONS LAB

(EC406PC)

Course Outcomes:

Upon completing this course, the student able to:

1. Design and implement various Analog modulation and demodulation Techniques and observe the time and frequency domain characteristics
2. Design and implement various Pulse modulation and demodulation Techniques and observe the time and frequency domain characteristics
3. Apply different types of Sampling with various Sampling rates and duty Cycles
4. Design and implement various Digital modulation and demodulation Techniques and observe the waveforms of these modulated Signals practically

ANALOG AND DIGITAL COMMUNICATIONS

( EC403PC)

Course Outcomes:

Upon completing this course, the student will be able to 

1. Analyze and design of various continuous wave and angle modulation and demodulation

techniques

1. Understand the effect of noise present in continuous wave and angle modulation techniques.
2. Attain the knowledge about AM , FM Transmitters and Receivers
3. Analyze and design the various Pulse Modulation Techniques.
4. Understand the concepts of Digital Modulation Techniques and Baseband transmission.

GENDER SENSITIZATION LAB

( *MC409/*MC309)

Course Outcomes:

1. Students will have developed a better understanding of important issues related to gender in
   contemporary India.
2. Students will be sensitized to basic dimensions of the biological, sociological, psychological and
   legal aspects of gender. This will be achieved through discussion of materials derived from
   research, facts, everyday life, literature and film.
3. Students will attain a finer grasp of how gender discrimination works in our society and how to
   counter it.
4. Students will acquire insight into the gendered division of labour and its relation to politics and
   economics.
5. Men and women students and professionals will be better equipped to work and live together as
   equals.
6. Students will develop a sense of appreciation of women in all walks of life.
7. Through providing accounts of studies and movements as well as the new laws that provide
   protection and relief to women, the textbook will empower students to understand and respond to
   gender violence.

ADVANCED COMMUNICATION SKILLS LAB

(EN508HS)

Course Outcomes:

1. Gathering ideas and information to organise ideas relevantly and coherently.
2. Making oral presentations.
3. Writing formal letters.
4. Transferring information from non-verbal to verbal texts and vice-versa.
5. Writing project/research reports/technical reports.
6. Participating in group discussions.
7. Engaging in debates.
8. Facing interviews.
9. Taking part in social and professional communication.

MICROPROCESSORS AND MICROCONTROLLERS LAB

(EC505PC)

Course Outcomes:

After going through this course the student will be able to

1. The student will learn the internal organization of popular 8086/8051 microprocessors/microcontrollers.
2. The student will learn hardware and software interaction and integration.
3. To apply the concepts in the design of microprocessor/microcontroller based systems in real time applications

BUSINESS ECONOMICS AND FINANCIAL ANALYSIS

(SM504MS)

Course Outcomes:

The students will understand the various Forms of Business and the impact of

1. Economic variables on the Business.
2. The Demand, Supply, Production, Cost, Market Structure,
3. Pricing aspects are learnt.
4. The Students can study the firm’s financial position by analysing the
5. Financial Statements of a Company.

DATA COMMUNICATIONS AND NETWORKS

(EC502PC)

Course Outcomes:

Upon completing this course, the student will be able to

1. Know the Categories and functions of various Data communication Networks
2. Design and analyze various error detection techniques.
3. Demonstrate the mechanism of routing the data in network layer
4. Know the significance of various Flow control and Congestion control Mechanisms
5. Know the Functioning of various Application layer Protocols.

MICROPROCESSORS AND MICROCONTROLLERS

(EC501PC)

Course Outcomes:

Upon completing this course, the student will be able to

1. Understands the internal architecture, organization of8086 processors.
2. Understands the assembly language programming of 8086 processors
3. Understands the internal architecture, organization and assembly language programming of
   8051/controllers
4. Understands the interfacing techniques to 8086 and 8051 based systems.
5. Understands the internal architecture of ARM processors and basic concepts of advanced ARM
   processors.

CONTROL SYSTEMS

(EC503PC)

Course Outcomes:

At the end of this course, students will demonstrate the ability to

1. Understand the modeling of linear-time-invariant systems using transfer function
2. Understand the modeling of statespace representations
3. Understand the concept of stability for linear-time invariant systems.
4. Understand the concept of assessment for linear-time invariant systems
5. Design simple feedback controllers.

DATA COMMUNICATIONS AND NETWORKS LAB

             (EC506PC)

Course Outcomes:

1. Understand the practical approach to network communication protocols.
2. Understand network layers, structure/format and role of each network layer.
3. Able to design and implement various network application such as data transmission between client and server, file transfer, real-time multimedia transmission.
4. Understand the various Routing Protocols/Algorithms and Internetworking.

ELECTRONIC MEASUREMENTSAND INSTRUMENTATION

(EC513PE)

Course Outcomes:

1. Upon completing this course, the student will be able to
   Measure electrical parameters with different meters and understand the basic definition of
   measuring parameters.
2. understand the basic definition of measuring parameters
3. Use various types of signal generators, signal analyzers for generating and analyzing various
   real-time signals.
4. Operate an Oscilloscope to measure various signals.
5. Measure various physical parameters by appropriately selecting the transducers

CYBER SECURITY

Course Outcomes:

1. Understand cyber-attacks, types of cybercrimes, cyber laws and also howtoprotectthem self and ultimately the entire Internet community from such attacks
2. Understand the Fundamentals of Cyber Security
3. Apply Security Principles to Network Infrastructure
4. Learn about Cryptography and Encryption
5. Analyze and Defend Against Common Cyber Attacks

INTELLECTUAL PROPERTY RIGHTS

(*MC510)

Course Outcomes:

On successful completion of this course the student should be able to:

1. Distinguish and Explain various forms of IPRs.
2. Identify criteria’s to fit one’s own intellectual work in particular form of IPRs.
3. Apply statutory provisions to protect particular form of IPRs.
4. Analyse rights and responsibilities of holder of Patent, Copyright, Trademark, Industrial Designetc.

Identify procedure to protect different forms of IPRs national and international level.

OBJECT ORIENTED PROGRAMMING THROUGH JAVA

(EI603PC/EC611PE)

Course Outcomes:

1. An appreciation of the principles of object oriented programming;
2. A competence to design, write, compile, test and execute straightforward programsusing a high level language;
3. An understanding of the principles and practice of object oriented programminganddesign in the construction of robust, maintainable programs which satisfytheirrequirements   Able to develop applications using Applet, awt and GUI Programming.
4. Demonstrate the ability to employ various types of selection constructs inaJavaprogram. Be able to employ a hierarchy of Java classes to provide a solution toagivenset of requirements. Be able to make use of members of classes found in the Java API.
5. Be able to implement, compile, test and run Java programs comprising more thanoneclass, to address a particular software problem.good documentation to the finished programs.

Fundamentals of Management For Engineers

Course Outcomes:

After completing this course the student must demonstrate the knowledge and ability to:

1. Understand the significance of management in particular profession
2. Understand the various management functions
3. The students can explore the management practices in their domain area 2
4. Understand the management concepts Analyze the concepts of management
5. Applications of concepts in practical aspects  Development of managerial skills for engineers

DIGITAL SIGNAL PROCESSING

(EC602PC)

Course Outcomes:

Upon completing this course, the student will be able to

1. Understand the LTI system characteristics and Multirate signal processing.
2. Understand the inter-relationship between DFT and various transforms.
3. Design a digital filter for a given specification.
4. Understand the significance of various filter structures
5. Understand the significance of various filter structures and effects of round off errors

DIGITAL SIGNAL PROCESSING LAB

(EC604PC)

Course Outcomes:

1. Experiment concepts of DSPand its applications usingMATLABSoftware
2. To understand about the basic signal generation
3. To learn Fourier Transform Concepts
4. To design FIR filters
5. To design IIR filters.
6. Demonstrate their abilities towards DSP processor based implementation of DSP systems

e - CAD LAB

(EC605PC)

Course Outcomes:

1. Design different types of logic gates using CMOS inverter and analyze their transfercharacteristics.
2. Provide design concepts required to design building blocks of data path using gates anddigital circuits using Xilinx and FPGA kits.
3. Design simple memories using MOS transistors and can understand designof largememories.
4. Design & simulation of different digital devices using the front end tools.
5. Designing of ALU to perform arithmetic & logical operations.

VLSI DESIGN

(EC603PC)

Course Outcomes:

Upon completing this course, the student will be able to

1. Acquire qualitative knowledge about the fabrication process of integrated circuits using MOS
   transistors.
2. Draw the layout of any logic circuit which helps to understand and estimate parasitic effect of
   any logic circuit
3. Design building blocks of data path systems, memories
4. Design building blocks of simple logic circuits using PLA,PAL, FPGA and CPLD.
5. Understand different types of faults that can occur in a system and learn the concept of testing
   and adding extra hardware to improve testability of system.

SCRIPTING LANGUAGES LAB

(EC606PC)

Course Outcomes:

1. Ability to understand the differences between Scripting languages and programming languages
2. Able to gain some fluency programming in Ruby, Perl, TCL

ANTENNAS AND PROPAGATION

(EC601PC)

Course Outcomes:

Upon completing this course, the student will be able to explain

1. the mechanismof radiation, definitions of different antenna characteristic parameters and establish their mathematical relations.
2. Characterize the antennas based on frequency, configure the geometry and establish the
   radiation patterns of VHF, UHF and Microwave antennas and also antenna arrays.
3. Specify the requirements for microwave measurements and arrange a setup to carry out the
   antenna far zone pattern and gain measurements in the laboratory.
4. Classify the different wave propagation mechanisms,
5. determine the characteristic features ofdifferent wave propagations, and estimate the parameters involved.

Fundamemtals Of AI

(AM611OE)

Course Outcomes:

1. Gain the knowledge of what is AI, risks and benefits of AI, limits of AI and the ethics involved in building an AI application. 
2. Understand the nature of environments and the structure of agents.
3. Possess the ability to select a search algorithm for a problem and characterize its time and space complexities.
4. Possess the skill for representing knowledge using the appropriate technique
5. Gain an understanding of the applications of AI

NETWORK SECURITY AND CRYPTOGRAPHY (PE – IV)

(EC723PE)

Course Outcomes:

Upon completing this course, the student will be able to

1. Describe network security fundamental concepts and principles
2. Encrypt and decrypt messages using block ciphers and network security technology and
   protocols
3. Analyze key agreement algorithms to identify their weaknesses
4. Identify and assess different types of threats, malware, spyware, viruses, vulnerabilities
5. Identify and assess different types of spyware, viruses, vulnerabilities

MICROWAVE AND OPTICAL COMMUNICATIONS LAB

        (EC703PC)

Course Outcomes:

1. Identify and demonstrate the working of various microwave components.
2. Demonstrate the charcteristics of directional couplers.
3. Analyse the microwave measurement procedures
4. Analyse the characteristics of optical sources by conducting experiments and measuring various parameters
5. Design and analyze an optical fiber communication link
6. Demonstrate the losses of optical fiber links

Principles Of Enterprenuership

(MT701OE)

Course Outcomes:

1. Understand basics of Entrepreneurship. (Knowledge)
2. Explain financing and managing the new ventures. (Application)
3. Understand schemes and functions of different corporations. (Evaluation)
4. Explain industrial final support from different corporations. (knowledge)
5. Describe production and marking management. (Comprehension)

DIGITAL IMAGE PROCESSING (PE – III)

(EC713PE/EI812PE)

Course Outcomes:

Upon completing this course, the student will be able to

1. Explore the fundamental relations between pixels and utility of 2-D transforms in image
   processer.
2. Understand the enhancement, segmentation and restoration processes on an image.
3. Implement the various Morphological operations on an image
4. Understand the need of compression of basic compression algorithms
5. Understand the need of evaluation of basic compression algorithms.

MICROWAVE AND OPTICAL COMMUNICATIONS (PC)

(EC701PC)

Course Outcomes:

Upon completing this course, the student will be able to

1. Known power generation at microwave frequencies and derive the performance characteristics.
2. realize the need for solid state microwave sources and understand the principles of solid state
   devices.
3. distinguish between the different types of waveguide and ferrite components, and select proper
   components for engineering applications
4. understand the utility of S-parameters in microwave component design and learn the
   measurement procedure of various microwave parameters.
5. Understand the mechanism of light propagation through Optical Fibres.

PROFESSIONAL PRACTICE, LAW AND ETHICS (PC)

(SM702MS)

Course Outcomes:

1. Understand the importance of professional practice, Law and Ethics in their personal lives and professional careers. (Knowledge)
2. To Understand the importance of professional practice, Law and ethics in personal and professional life. (Knowledge)
3. Understand the rights and responsibilities as an employee, team member and a global citizen (Evaluation)
4. To learn the rights and responsibilities as an employee, team member and a global citizen. (Knowledge)
5.  To develop some ideas of the legal and practical aspects of their professional and their role in the society. (Application)

Project  Stage – I

Course Outcomes:

1. Select a suitable project making use of the technical and engineering knowledge gained  from previous courses with the awareness of impact of technology on the society and their ethical responsibilities.
2. Collect and disseminate information related to selected project. Identify and work with  the modern tools required for the implementation of the project. 
3. Form a team and distribute the work among them. Communicate technical and general information by means of oral as well as written presentation skills with professionalism. 
4. Refine and complete the selected project making use of the technical and engineering knowledge which meets the expected outcome. 
5. Acquire problem solving, system integration, project management and documentation skills

SYSTEM ON CHIP ARCHITECTURE (PE – VI

(EC821PE)

Course Outcomes:

1. Expected to understand SOC Architectural features.
2. To acquire the knowledge on processor selection criteria and limitations
3. To acquires the knowledge of memory architectures on SOC.
4. To understands the interconnection strategies and their customization on SOC.
5. To understands the interconnection their customization on SOC

RADAR SYSTEMS (PE – V)

(EC812PE)

Course Outcomes:

Upon completing this course, the student will be able to

1. Derive the complete radar range equation.
2. Understand the need and functioning of CW, FM-CW radars
3. Understand the need and functioning of MTI radars
4. Known various Tracking methods.
5. Derive the matched filter response characteristics for radar receivers.

Total Quality Management

(MT802OE)

Course Outcomes:

1. Analyze and Understand what total quality management is. (Application)
2. Analyze the concept of customer focus and satisfaction. (Application)
3. Analyze and describe Total Quality Management Organization. (Application)
4. Describe and explain the working principle of Seven Tools of Total Quality Management. (Knowledge)
5. Understand and Discuss the Cost of Quality in total quality management. (Knowledge)

Project  Stage – II

Course Outcomes:

1. Select a suitable project making use of the technical and engineering knowledge gained  from previous courses with the awareness of impact of technology on the society and their ethical responsibilities.
2. Collect and disseminate information related to selected project. Identify and work with  the modern tools required for the implementation of the project. 
3. Form a team and distribute the work among them. Communicate technical and general information by means of oral as well as written presentation skills with professionalism. 
4. Refine and complete the selected project making use of the technical and engineering knowledge which meets the expected outcome. 
5. Acquire problem solving, system integration, project management and documentation skills