COs(IE)

Sr. No.

COs of Sem I

Sensors and Transducers

        1

Understand the working principle, construction, operation, characteristics and features of Displacement, Speed and Vibration measurement Sensors and Transducers

        2

Examine the performance specifications of various Force and Torque measurement sensors and transducers

        3

Understand the working principle, construction, operation, characteristics and features
of pressure measurement Sensors and Transducers

       4

Select specific temperature measurement sensors and transducers for applications and also design signal conditioning circuit for it

       5

Select sensors and transducers for measurement of flow in applications

       6

Examine the performance specifications of various level, viscosity, density and humidity measurement sensors and transducers

                                                        Linear Integrated Circuits

       1

Illustrate the concepts of the basic characteristics, construction, open loop & close loop operations of operational amplifier.

       2

Apply different configurations of op-amp.

       3

Analyze and design different linear circuits using Op- amp with practical consideration.

       4

Analyze and design different nonlinear circuits using Op- amp with practical consideration.

       5

Demonstrate Electronic Circuits for Multivibrator and Voltage regulator using special purpose ICs.

       6

Illustrate types of filter, their applications and enable students to implement active filter circuits.

                                                          Control System Components

       1

Implementation of logic gates using relays

       2

Develop electrical circuits for motor control operations

       3

Construct pneumatic circuits for control applications using appropriate pneumatic components

       4

Construct hydraulic circuits for control applications using appropriate hydraulic components

       5

Design of SCR triggering circuit using UJT

       6

Understand the need of electronic safety circuits

                                                        Engineering Mathematics III

       1

Solve higher order linear differential equation using appropriate techniques to model and analyze electrical circuits.

       2

Apply Integral transforms such as Laplace transform to solve problems related to signal processing and control systems.

       3

Apply Integral transforms such as Fourier transform and Z-Transform to solve problems related to signal processing and control systems.

      4

Apply Statistical methods like correlation, regression and Probability theory as applicable to analyze and interpret experimental data related to energy management, power systems, testing and quality control.

      5

Perform Vector differentiation and integration, analyze the vector fields and apply to wave theory and electro-magnetic fields.

      6

Analyze Complex functions, conformal mappings, and perform contour integration in the study of electrostatics, signal and image processing.

                                                    Communication Skills

Communicate, interact and present his ideas to the other professionals.

Demonstrate the importance, role and contents of soft skills through instructions, knowledge acquisition, demonstration and practice

Develop self-motivation, raised aspirations and belief in one’s own abilities, defining and committing to achieving one’s goals

Assess the requirements of a task, identifying the strengths within the team, utilizing the diverse skills of the group to achieve the set objective

                                                Process Dynamics & Control

      1

Understand the basic principles & importance of process control.

       2

Formulate experimental model and analysis of process loops.

       3

Design, development and performance evaluation of feedback control loops.

       4

Apply knowledge of various process control strategies for multiloop systems.

       5

Use of decoupling control for multivariable control systems.

       6

Define a problem and solve process control assignments.

                                            Project Engineering and Management

Discuss the role and responsibilities in the project organization structure

 Computer Techniques & Applications

  1

Explain the operating system functions in detail.

   2

Compare various techniques of memory management.

   3

Differentiate real time operating system and operating system.

   4

Select the proper communication channel and software for transforming and storing the data

   5

Evaluate the performance of any developed software.

   6

List and compare various Software development Models

                                                     Industrial Internet Of Things

 1

Present a survey on building blocks of IOT

 2

Compare the connectivity technologies and protocols in IOT

3

Select IOT platform for an application

4

Comparison of different resources in IOT

5

Discuss Security issues in IOT

6

Develop Architectural Approach for IOT Empowerment Introduction

                                              Automotive Instrumentation

1

Explain batteries, starting system, charging and ignition system, lighting and other electrical systems inside an automobile.

2

Understand all the sensors and actuators used in automotive systems.

3

Explain the Power train, transmission of different types of automobiles with every detail parts of the system.

4

Explain the functioning of Chassis and Brake System.

5

teach the basic and advanced controls in automotive systems.

6

impart knowledge about the electronics and software involved in automotive systems.

                                               Smart and Wireless Instrumentation

1

Analyze Smart and Wireless Instrumentation with respect to various performance parameters.

2

Design and develop Applications using WSN (Wireless sensor Network).

3

Demonstration of various Node architectures

4

Demonstration of Fundamentals of wireless digital communication

5

Analyze the power sources

6

Demonstrate an ability to design strategies as per needs and specifications

COs for Sem II

CO Statement

SE

Control Systems

Interpret the various types of control system

Develop mathematical models of LTI (Linear Time Invariant) systems

Design the system in canonical forms(Block Diagram & Signal Flow Graph)

Solve the mathematical model for standard test signals

Analyze the LTI system in time domain (Root Locus)

Digital Electronics

To represent numerical values in various number systems and perform number conversions between different number systems.

Understand the basic logic gates and various variable reduction techniques of digital logic circuit.

Analyze, design and develop combinational and sequential digital circuits.

Understand operation of basic types of flip-flops, registers

Design counters, decoders, encoders, multiplexers and de-multiplexers

Design the combinational and sequential logic circuits using PLDs

Process Loop Elements

Define the control objectives, input variables (manipulated and disturbance) and output variables and draw the process control loops

Measure level/flow with DPT

Determine the response of discontinuous and continuous ( P, I, D, PI, PD and PID) control actions for standard input signals and estimate the PID controller parameters by using process reaction curve, Ziegler-Nichols and frequency response method for a given process

Tune the given controller

Analyze characteristics of control valve, select and determine control valve size for gas, vapor and liquid services

Demonstrate the working of control valve accessories and design a spring and diaphragm actuator

Signals & Systems

Identify and represent the type of signals and systems and Perform elementary operations on signals

Classify systems based on their properties

Understand fundamental properties of LTI systems and be able to determine response of the system for given input

Determine Fourier series and Fourier transform of Continuous time signals and understand how to interpret and plot Fourier transform magnitude and phase functions

Analyze and design of an LTI systems using Fourier transform and Laplace transform

Understand the concept of probability and statistical properties of signals

Data Structures

Understand and comprehend the basics of python programming

Test various operations of Array, Matrix and Lists

Implement various operations on Sets, Maps and Link Structures

Demonstrate various operations on Stacks Ques

Choose appropriate data structure for application

Understand applications that use ADT types of data

TE

Industrial Automation‐II

Understand the fundamentals of DCS Organization in Industrial Automation

Analyze the software and hardware DCS configuration

Differentiate the different security design approaches, engineering and operator interface

Demonstrate control logics using Distributed control system

Analyze the latest networking technologies RS232, RS485, OPC, HART and Field bus

Evaluate applications of DCS in process plants

Digital Signal Processing

Understand benefits and limitations of processing signals digitally and recognize types of discrete-time signals and discrete-time systems

Analyze Discrete Time Systems

Analyze the frequency of Discrete Time Signals

Analyze frequency of signals using DFT and FFT

Design digital IIR filters from analog filters

Design FIR filters using different methods

Building Automation (BA)

Articulate the purpose and operation of HVAC system components, the operation of HVAC systems

Apply knowledge of thermal comfort conditions and its impact on human comfort, productivity and health

Investigate HVAC air systems and water system operations and control philosophies

Evaluate importance of fire safety systems

Demonstrate the security & access control system

Present a review on building blocks of Intelligent Buildings

Machine Learning

Demonstrate machine leaning and its life cycle

Apply regression analysis of machine learning

Explain classification of supervised machine learning

Demonstrate supervised machine learning

Apply extended methods of supervised machine learning

Demonstrate unsupervised machine learning

BE

Process Instrumentation

Analysis and design of controller for Heat Exchangers

Ability to demonstrate usages of boiler controls

Design, evaluation of performance distillation column controls

Apply knowledge of various dryer and evaporation controls

Apprise use of reactor controls

Evaluate applications of pumps and compressor controls

Industrial Automation

Understand architecture of PLC, I/O Module, Communication module and Memory Addressing and designing ladder logic for application

Learn the architecture and programming of SCADA

Understand the need of SIS, risk reduction methods, evaluation of SIL (Safety Integrity Levels)

Learn and understand about the different standard communication protocols and their comparison

Understand and analyze the Distributed Control Systems and its configuration along with its applications in automation

Implement and apply the Process safety and Safety Management Systems

Building Automation

Demonstrate an understanding of the need and importance of HVAC technology, the typical and some advanced and innovative schematic designs, and the goals of HVAC engineering and HVAC systems

Demonstrate an understanding thermal comfort conditions with respect to temperature and humidity and human clothing and activities and its impact on human comfort, productivity, and health

Specify a complete air distribution system including fan, ductwork, and installation requirements for a typical HVAC system

Demonstrate an understanding of the engineering and operation of vapor compression and possibly heat-driven refrigeration systems and evaporative cooling systems

Identify and describe various types of fire protection systems

Understand the fundamental elements that make up an Access Control System

Renewable Energy Systems (RES)

Recognize current and possible future role of renewable energy sources

Appraise current technologies of utilizing renewable-energy sources

Assess the potential and economic viability of the utilization of a renewable-energy source

Develop strategic skills, show employability skills

Demonstrate a basic understanding of legal and ethical issues in an environment. Participate in a capstone project

Design in order implement and improve a component, process, or integrated system of people, materials, information, equipment, and energy to meet desired needs within realistic constraints

Automation In Agriculture

State the significance of Instrumentation engineering in the field of Agriculture

Analyze the Instrumentation setups for various process plants like Sugar factory and diary industry

Analyze greenhouse automation schemes

Select various sensors used in agriculture field

Enlist various standards used in Food Industry

Explain the application of SCADA & PLC in food industry

Sr. No.

COs of Sem I

Sensors and Transducers

        1

Understand the working principle, construction, operation, characteristics and features of Displacement, Speed and Vibration measurement Sensors and Transducers

        2

Examine the performance specifications of various Force and Torque measurement sensors and transducers

        3

Understand the working principle, construction, operation, characteristics and features
of pressure measurement Sensors and Transducers

       4

Select specific temperature measurement sensors and transducers for applications and also design signal conditioning circuit for it

       5

Select sensors and transducers for measurement of flow in applications

       6

Examine the performance specifications of various level, viscosity, density and humidity measurement sensors and transducers

                                                        Linear Integrated Circuits

       1

Illustrate the concepts of the basic characteristics, construction, open loop & close loop operations of operational amplifier.

       2

Apply different configurations of op-amp.

       3

Analyze and design different linear circuits using Op- amp with practical consideration.

       4

Analyze and design different nonlinear circuits using Op- amp with practical consideration.

       5

Demonstrate Electronic Circuits for Multivibrator and Voltage regulator using special purpose ICs.

       6

Illustrate types of filter, their applications and enable students to implement active filter circuits.

                                                          Control System Components

       1

Implementation of logic gates using relays

       2

Develop electrical circuits for motor control operations

       3

Construct pneumatic circuits for control applications using appropriate pneumatic components

       4

Construct hydraulic circuits for control applications using appropriate hydraulic components

       5

Design of SCR triggering circuit using UJT

       6

Understand the need of electronic safety circuits

                                                        Engineering Mathematics III

       1

Solve higher order linear differential equation using appropriate techniques to model and analyze electrical circuits.

       2

Apply Integral transforms such as Laplace transform to solve problems related to signal processing and control systems.

       3

Apply Integral transforms such as Fourier transform and Z-Transform to solve problems related to signal processing and control systems.

      4

Apply Statistical methods like correlation, regression and Probability theory as applicable to analyze and interpret experimental data related to energy management, power systems, testing and quality control.

      5

Perform Vector differentiation and integration, analyze the vector fields and apply to wave theory and electro-magnetic fields.

      6

Analyze Complex functions, conformal mappings, and perform contour integration in the study of electrostatics, signal and image processing.

                                                    Communication Skills

Communicate, interact and present his ideas to the other professionals.

Demonstrate the importance, role and contents of soft skills through instructions, knowledge acquisition, demonstration and practice

Develop self-motivation, raised aspirations and belief in one’s own abilities, defining and committing to achieving one’s goals

Assess the requirements of a task, identifying the strengths within the team, utilizing the diverse skills of the group to achieve the set objective

                                                Process Dynamics & Control

      1

Understand the basic principles & importance of process control.

       2

Formulate experimental model and analysis of process loops.

       3

Design, development and performance evaluation of feedback control loops.

       4

Apply knowledge of various process control strategies for multiloop systems.

       5

Use of decoupling control for multivariable control systems.

       6

Define a problem and solve process control assignments.

                                            Project Engineering and Management

Discuss the role and responsibilities in the project organization structure

 Computer Techniques & Applications

  1

Explain the operating system functions in detail.

   2

Compare various techniques of memory management.

   3

Differentiate real time operating system and operating system.

   4

Select the proper communication channel and software for transforming and storing the data

   5

Evaluate the performance of any developed software.

   6

List and compare various Software development Models

                                                     Industrial Internet Of Things

 1

Present a survey on building blocks of IOT

 2

Compare the connectivity technologies and protocols in IOT

3

Select IOT platform for an application

4

Comparison of different resources in IOT

5

Discuss Security issues in IOT

6

Develop Architectural Approach for IOT Empowerment Introduction

                                              Automotive Instrumentation

1

Explain batteries, starting system, charging and ignition system, lighting and other electrical systems inside an automobile.

2

Understand all the sensors and actuators used in automotive systems.

3

Explain the Power train, transmission of different types of automobiles with every detail parts of the system.

4

Explain the functioning of Chassis and Brake System.

5

teach the basic and advanced controls in automotive systems.

6

impart knowledge about the electronics and software involved in automotive systems.

                                               Smart and Wireless Instrumentation

1

Analyze Smart and Wireless Instrumentation with respect to various performance parameters.

2

Design and develop Applications using WSN (Wireless sensor Network).

3

Demonstration of various Node architectures

4

Demonstration of Fundamentals of wireless digital communication

5

Analyze the power sources

6

Demonstrate an ability to design strategies as per needs and specifications

COs for Sem II

CO Statement

SE

Control Systems

Interpret the various types of control system

Develop mathematical models of LTI (Linear Time Invariant) systems

Design the system in canonical forms(Block Diagram & Signal Flow Graph)

Solve the mathematical model for standard test signals

Analyze the LTI system in time domain (Root Locus)

Digital Electronics

To represent numerical values in various number systems and perform number conversions between different number systems.

Understand the basic logic gates and various variable reduction techniques of digital logic circuit.

Analyze, design and develop combinational and sequential digital circuits.

Understand operation of basic types of flip-flops, registers

Design counters, decoders, encoders, multiplexers and de-multiplexers

Design the combinational and sequential logic circuits using PLDs

Process Loop Elements

Define the control objectives, input variables (manipulated and disturbance) and output variables and draw the process control loops

Measure level/flow with DPT

Determine the response of discontinuous and continuous ( P, I, D, PI, PD and PID) control actions for standard input signals and estimate the PID controller parameters by using process reaction curve, Ziegler-Nichols and frequency response method for a given process

Tune the given controller

Analyze characteristics of control valve, select and determine control valve size for gas, vapor and liquid services

Demonstrate the working of control valve accessories and design a spring and diaphragm actuator

Signals & Systems

Identify and represent the type of signals and systems and Perform elementary operations on signals

Classify systems based on their properties

Understand fundamental properties of LTI systems and be able to determine response of the system for given input

Determine Fourier series and Fourier transform of Continuous time signals and understand how to interpret and plot Fourier transform magnitude and phase functions

Analyze and design of an LTI systems using Fourier transform and Laplace transform

Understand the concept of probability and statistical properties of signals

Data Structures

Understand and comprehend the basics of python programming

Test various operations of Array, Matrix and Lists

Implement various operations on Sets, Maps and Link Structures

Demonstrate various operations on Stacks Ques

Choose appropriate data structure for application

Understand applications that use ADT types of data

TE

Industrial Automation‐II

Understand the fundamentals of DCS Organization in Industrial Automation

Analyze the software and hardware DCS configuration

Differentiate the different security design approaches, engineering and operator interface

Demonstrate control logics using Distributed control system

Analyze the latest networking technologies RS232, RS485, OPC, HART and Field bus

Evaluate applications of DCS in process plants

Digital Signal Processing

Understand benefits and limitations of processing signals digitally and recognize types of discrete-time signals and discrete-time systems

Analyze Discrete Time Systems

Analyze the frequency of Discrete Time Signals

Analyze frequency of signals using DFT and FFT

Design digital IIR filters from analog filters

Design FIR filters using different methods

Building Automation (BA)

Articulate the purpose and operation of HVAC system components, the operation of HVAC systems

Apply knowledge of thermal comfort conditions and its impact on human comfort, productivity and health

Investigate HVAC air systems and water system operations and control philosophies

Evaluate importance of fire safety systems

Demonstrate the security & access control system

Present a review on building blocks of Intelligent Buildings

Machine Learning

Demonstrate machine leaning and its life cycle

Apply regression analysis of machine learning

Explain classification of supervised machine learning

Demonstrate supervised machine learning

Apply extended methods of supervised machine learning

Demonstrate unsupervised machine learning

BE

Process Instrumentation

Analysis and design of controller for Heat Exchangers

Ability to demonstrate usages of boiler controls

Design, evaluation of performance distillation column controls

Apply knowledge of various dryer and evaporation controls

Apprise use of reactor controls

Evaluate applications of pumps and compressor controls

Industrial Automation

Understand architecture of PLC, I/O Module, Communication module and Memory Addressing and designing ladder logic for application

Learn the architecture and programming of SCADA