PO, PSO & CO's

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Mechatronics Engineering

PO, PSO & CO's

Program Outcomes

PO1. Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.

PO2. Problem analysis: Identify, formulate, research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences.

PO3. Design/development of solutions: Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for the public health and safety, and the cultural, societal, and environmental considerations.

PO4. Conduct investigations of complex problems: Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions.

PO5. Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of the limitations.

PO6. The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice.

PO7. Environment and sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts and demonstrate the knowledge of, and need for sustainable development.

PO8. Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.

PO9. Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.

PO10. Communication: Communicate effectively on complex engineering activities with the engineering community and with society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.

PO11. Project management and finance: Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments.

PO12. Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.

 

 

 Program Specific Outcomes

PSO-1: Inculcate professional skills:  Ability to adapt a multi-disciplinary approach to develop solutions for industrial and societal related problems.

PSO-2: Cultivate employability and entrepreneurship: Entrepreneurship and inculcation of continuous learning towards professional career.

 

Course Outcomes

Second Year Engineering  SEM I
Course code and Name: 217541- Engineering Material
CO 1 Understand crystal structures and deformation of materials
CO 2 Determine mechanical properties of materials using destructive and non-destructive meeting
CO 3 Understand and draw phase and iron-carbide diagram
CO 4 Describe different heat treatment processes.
CO 5 Understand different types of ferrous materials
CO 6 Understand different types of non-ferrous materials
Course code and Name: 217542- Heat and Mass Transfer
CO 1 Demonstrate understanding of basic concepts of thermodynamics
CO 2 Analyze performance of Boilers and steam turbine.
CO 3 Analyze the various power cycles
CO 4 Identify & explain the three modes of heat transfer (conduction, convection and radiation).
CO 5 Interpret heat transfer by convection and radiation between simple geometry for black and graysurface
CO 6 Design and analyze different heat exchangers
Course code and Name: 217542- Heat and Mass Transfer (Practical)
CO 1 Determination of thermal characteristics for different system 
CO 2 Survey of temperature sensors used in various thermal systems.
CO 3 Perform Thermodynamic Analysis of any System / Model by using any Computer Software.
Course code and Name: 217543- Digital Electronics
CO 1 Simplify Boolean Expressions using K Map.
CO 2 Design and implement combinational circuits.
CO 3 Design and implement sequential circuits.
CO 4 Develop simple real-world application using ASM and PLD.
CO 5 Choose appropriate logic families IC packages as per the given design specifications.
CO 6 Explain organization and architecture of computer system
Course code and Name: 217543- Digital Electronics (Practical)
CO 1 To develop the Fundamental Digital Circuit Design Skills
CO 2 To design the Proficiency in Flip-Flop and Counter Design
CO 3 To understand Advanced Sequential Logic and Shift Register Understanding
Course code and Name: 217544- Analysis of Mechanical Structure
CO 1 DEFINE various types of stresses and strain developed on determinate and indeterminate members.
CO 2 DRAW Shear force and bending moment diagram for various types of transverse loading and support.
CO 3 COMPUTE the slope & deflection, bending stresses and shear stresses on a beam.
CO 4 CALCULATE torsional shear stress in shaft and buckling on the column.
CO 5 APPLY the concept of principal stresses and theories of failure to determine stresses on a 2- D element.
CO 6 UTILIZE the concepts of SFD & BMD, torsion and principal stresses to solve combined loading application based problems.
Course code and Name: 217544- Analysis of Mechanical Structure (Practical)
CO 1 Calculate tensile strength for a circular bar of ductile material through Tension Test.
CO 2 Calculate shear strength of a ductlie material workpiece on UTM.
CO 3 Verify Torsion formula for circular bar by Torsion Test.
Course code and Name: 217545- Modelling of Mechatronics System (Lab) 
CO 1 Visualize and prepare detail drawing of a given object.
CO 2 Draw details and assembly of mechatronics systems.
CO 3 Read and interpret a given machine drawing.
CO 4 Create 2-D and 3-D models using any standard CAD software with manufacturing considerations. 
Course code and Name: 217546- Object Oriented Programming Lab     
CO 1 Analyse the strengths of object oriented programming
CO 2 Design and apply OOP principles for effective programming
CO 3 Develop the application using object oriented programming language(C++)
CO 4 Apply object-oriented concepts for advanced programming
Course code and Name: 202046 - Audit Course - III
CO 1 DIFFERENTIATE Good and bad habits
CO 2 DEVELOP Communication skill
CO 3 EMPLOY technology in communication through E-mail, mobile
Second Year Engineering  SEM II
Course code and Name: 217547-  Kinematics of Machinery
CO 1 Apply kinematic analysis to Simple Mechanisms.
CO 2 Analyse Velocity and Acceleration Mechanisms by vector method.
CO 3 Analyse velocity and acceleration mechanisms by graphical method.
CO 4 Synthesize the four bar/ slider crank mechanisms with analytical and graphical methods using Inversion and Relative Pole Methods.
CO 5 Apply fundamentals of gear theory as a prerequisite for gear design
CO 6 Construct cam profile for the motion of follower as UV, SHM, UARM
Course code and Name: 217547-  Kinematics of Machinery (Practical)
CO 1 Use experimental methods in kinematic analysis
CO 2 Analyze the velocity and acceleration in mechanisms using graphical approach
CO 3 Apply softwares in analysis of mechanis
CO 4 Use virtual lab in study of mechanisms
CO 5 Do Forward and Inverse Kinematics of 2 DOF Manipulators
Course code and Name: 217548:-  Fluid Mechanics and Machinery
CO 1 Understand the physical properties and characteristic of fluids
CO 2 Explain the Kinematics and dynamics of fluid
CO 3 Apply the principles of fluid mechanics to incompressible fluid flow
CO 4 Apply dimensional analysis for different models.
CO 5 Understand the basic concepts of hydraulic turbine
CO 6 Understand the basic concepts of hydraullic pump
Course code and Name: 217548:-  Fluid Mechanics and Machinery (Practical)
CO 1 Demonstrate an ability to perform and evaluate the properties of fluid for real life problems
CO 2 Demonstrate an ability to perform calibration of given instrument required for solving real life problems
Course code and Name: 217549:-  Electrical Machines and drive 
CO 1 Understand basic theory of DC Motors
CO 2 Explain the concept of three 3-phase induction motors
CO 3 Describe the working of Synchronous Motor
CO 4 Understand the basics of electrical drive and drive dynamics
CO 5 Evaluate the steady state behaviour of DC Motors
CO 6 Understand the basic concept of DC Drives
Course code and Name: 217549:-  Electrical Machines and drive (Practical)
CO 1 Evaluate the steady state behavior and basic operating characteristics of D.C Machine
CO 2 Evaluate the steady state behavior and basic operating characteristics of THREE PHASE INDUCTION Machine
CO 3 Understand the basics of electric drives and fundamentals of drive dynamics
CO4 Analyze DC drive, Induction and Synchronous DC Motors Drives.
CO5 Analyze DC drive, Induction and AC Synchronous Motors Drives.
CO6 Analyze DC drive, Induction and Synchronous Motors Drives.
Course code and Name: 217550:- Sensor and Actator
CO 1 Understand the basic characteristics of sensors and concept of signal conditioning
CO 2 Describe the various displacement sensors
CO 3 Illustrate the various pressure, flow and temparature sensors
CO 4 Explain the different electrical acuation system
CO 5 Implement pneumatic and hydraulic actuation system
CO 6 Select the actuators based on different parameters.
Course code and Name: 217550:- Sensor and Actator (Practical)
CO 1 Understand the different measurement techniques
CO 2 Apply the different sensors for different parameter measurment
CO 3 Explain the different actuation systems.
Course code and Name: 217551:- Aplication of Integrated Circuits
CO 1 Understand Fundamentals of Op-amp
CO 2 Design Linear Application of OpAMP.
CO 3 Apply OP-amp for NON- linear application
CO 4 Demonstrate various Data Converter
CO 5 Illustrate the special purpose Integrated Circuits.
CO 6 Describe various voltage regulating circuits
Course code and Name: 217551:- Aplication of Integrated Circuits (Practical)
CO 1 Development of OP-AMP Circuit to Measure Performance Characteristics
CO 2 Demonstrate the Use of OP-AMP as (1) Summing Amplifier (2) Subtractor (3) Zero Crossing Detector and (4) Voltage Comparator
CO 3 Design and Obtain Frequency Response of Second Order of Active Filter
Course code and Name: 217552:-  Project Based Learning - II 
CO 1 To emphasize project based learning activities that are long-term, interdisciplinary and studentcentric
CO 2 To inculcate independent and group learning by solving real world problems with the help of available resources.
CO 3 To be able to develop applications based on the fundamentals of mechanical engineering by possibly applying previously acquired knowledge.
CO 4 To get practical experience in all steps in the life cycle of the development of mechanical systems: specification, design, implementation, and testing.
CO 5 To be able to select and utilize appropriate concepts of mechanical engineering to design and analyze selected mechanical system.
Third Year Engineering  SEM I
Course code and Name: 317541- Machine Design
CO 1 Design and analyze the cotter and knuckle Joints, levers and components subjected to eccentric loading.
CO 2 Design shafts, keys and couplings under static loading conditions.
CO 3 Analyze different stresses in power screws and apply its knowledge to design screw jack.
CO 4 Evaluate dimensions of machine components under fluctuate loading conditions.
CO 5 Understand different welded and threaded joints structure and apply its knowledge to analyze its strength.
CO 6 Apply the design and development procedure for different types of springs.
Course code and Name: 317541- Machine Design(Practical)
CO 1 Design and analyze the cotter and knuckle Joints, levers and components subjected to eccentric loading.
CO 2 Design shafts, keys and couplings under static loading conditions.
CO 3 Analyze different stresses in power screws and apply its knowledge to design screw jack.
Course code and Name: 317542- Manufacturing Processes
CO 1 SELECT appropriate moulding, core making and melting practice and estimate pouring time,solidification rate and DESIGN riser size and location for sand casting process
CO 2 UNDERSTAND mechanism of metal forming techniques and CALCULATE load requiredfor flat rolling
CO 3 DEMONSTRATE press working operations and APPLY the basic principles to DESIGN diesand tools for forming and shearing operations
CO 4 CLASSIFY and EXPLAIN different welding processes and EVALUATE weldingcharacteristics
CO 5 DIFFERENTIATE thermoplastics and thermosetting and EXPLAIN polymer processingtechniques
CO 6 UNDERSTAND processing ,assembling and packing of Electronics Circuits
Course code and Name: 317542- Manufacturing Process(Practical)
CO 1 Study various manufacturing processes, including sand casting, permanent mold casting, metal forming etc. 
CO 2 Demonstrate  on indexing mechanisms, surface grinding operations, measuring surface roughness
CO 3 Practical demonstrate on welding machines, surface/cylindrical grinding, milling machines,
Course code and Name: 317543- Control System
CO 1 Determine and use models of physical systems in forms suitable for use in the analysis and design of control systems.
CO 2 Determine and use models of physical systems in forms suitable for use in the analysis and design of control systems.
CO 3 Understand concepts and principles in quantum mechanics. Relate them to some applications.
CO 4 Perform frequency domain analysis of control systems required for stability analysis. 
CO 5 Apply root-locus, Frequency Plots technique to analyze control systems.
CO 6 Express and solve system equations in state variable form..
Course code and Name: 317543- Control Systems (Practical)
CO 1 TO UNDERSTAND experiment on components of control system
CO 2 TO UNDERSTAND Transient response of 1st order & 2nd order system
CO 3 TO ANALYZE Frequency response of 1st order & 2nd order system
CO 4 TO CLASSIFY Steady state error analysis of different types of systems
CO 5 Simulation of Time response analysis
Course code and Name: 317544- Digital Signal Processing
CO 1 Understand the fundamentals of signals and systems
CO 2 Apply the concept of Z- transform for solving the difference equation
CO 3 Apply the Discrete Fourier Transform for signals
CO 4 Understnad the concept of Discrete Fourier Transform and Fast Fourier Transform
CO 5 Design of IIR filter for given specifications.
CO 6 Design of FIR filters for given specifications and expalin the applications of DSP
Course code and Name: 317544- Digital Signal Processing (Practical)
CO 1 Evaluate and analyze the time domain characteristics of Discrete-Time Systems
CO 2 Evaluate and analyze the frequency domain characteristics of Discrete-Time Systems
CO 3 Design and implement different frequency selective filters.
Course code and Name: 317545- Microcontrollers
CO 1 Describe the architecture and features of various types of the microcontroller.
CO 2 Illustrate addressing modes and execute programs in assembly language for the microcontroller.
CO 3 Write programs in C language for microcontroller 8051.
CO 4 Elaborate interrupt structure of 8051 and program to handle interrupt and ADC809
CO 5 Define the protocol for serial communication and understand the microcontroller development systems.
CO 6 Interface input-output devices and measure electrical parameters with 8051 in real time.
Course code and Name: 317545- Microcontrollers (Lab)                                                                          
CO 1 To develop Microcontroller Fundamentals
CO 2 To analyze Assembly Language Programming Proficiency
CO 3 To study Practical Applications in Microcontroller Interfacing
Course code and Name: 317546- Metrology Laboratory Lab                                                                     
CO 1 Evaluate causes of errors in vernier calipers, micrometers by performing experiments in standard metrological conditions, noting deviations at actual and by plotting cause and effect diagram, to reduce uncertainty in measurement.
CO 2 Analyze strain measurement parameters by taking modulus of elasticity in consideration to acknowledge its usage in failure detection and force variations.
CO 3 Examine surface Textures, surface finish using equipment’s like Talysurf and analyze surface finish requirements of metrological equipment’s like gauges, jaws of vernier calipers, micrometers, magnifying glasses of height gauge and more, to optimize surface finish accuracy requirements and cost of measurement
CO 4 Weigh dimensional accuracy using Comparator and limit gauges and appraise their usage in actual measurement or comparison with standards set to reduce measurement lead time
CO 5 Test Flow rate, speed and temperature measurements and their effect on performance in machines and mechanisms like hydraulic or pneumatic trainers, lathe machine etc to increase repeatability and reproducibility
Third Year Engineering SEM II
Course code and Name: 317547-  Industrial Automation
CO 1 Understand the fundamentals of Industrial Automation, PLC
CO 2 Understand the basic PLC programming
CO 3 Develop ladder diagram using advanced PLC programming
CO 4 Compare various analog PLCs
CO 5 Interface various devices with PLC
CO 6 Develop SCADA system for given application.
Course code and Name: 317547-  Industrial Automation (Practical)
CO 1 Develop and simulate ladder programs for various industrial control applications,
CO 2 Interface  PLC to various circuits 
CO 3 Design and Develop SCADA System for application
Course code and Name: 317548:-  Electro-Mechanical System
CO 1 Understand fundamentals of fluid power and its components.
CO 2 Describe hydraulic system with its Actuating Mechanisms
CO 3 Design hydraulic and electro-hydraulic circuits.
CO 4 Describe pneumatic system with its actuating mechanisms.
CO 5 Design pneumatic and electro pneumatic system circuits.
CO 6 Select PLC circuits for Industrial automation.
Course code and Name: 317548:-  Electro-Mechanical System (Practical)
CO 1 Understand the basic hydraulic system and its components.
CO 2 Classify the Hydraulic Pumps
CO 3 Understand the Performance characteristics of Gear Pump
CO 4 Classify the Hydraulic and pneumatic cylinders
CO 5 Classify Hydraulic and Pneumatic Valves
CO 6 Design and implement the hydraulics and electro-hydraulics circuits using hardware and software
CO 7 Design and implement the pneumatics and electro-pneumatic circuits using hardware and software
CO 8 Understand the role of PLC in Automation and Process Control
Course code and Name: 317549:-  Finite Element Analysis
CO 1 Understand the different FEA techniques to solve engineering problems.
CO 2 Develop 1D element stiffness matrix and load vectors for various methods
CO 3 Develop 2D element stiffness matrix and load vectors for various methods.
CO 4 Understand the isoparametric elements and numerical integration
CO 5 Apply FEA techniques for heat transfer problems.
CO 6 Implement FEA techniques for dynamics analysis problem.
Course code and Name: 317549:-  Finite Element Analysis (Practical)
CO 1 Understand the different techniques used to solve mechanical engineering problems.
CO 2 Derive and use 1-D element stiffness matrices and load vectors from various methods to solve for displacements and stresses.
CO 3 ANALYZE and APPLY various numerical methods for different types of analysis
CO4 Explain the inner workings of a finite element code for linear stress, displacement, temperature and modal analysis.
CO5 EVALUATE non-linear and dynamic analysis problems non-linear and dynamic analysis by analytical methods
Course code and Name: 317550:- Embedded System Design
CO 1 Explain architecture of PIC 18F458 microcontroller, its instructions and the addressing modes.
CO 2 Use Ports and timers for peripheral interfacing and delay generation.
CO 3 Interface special and generate events using CCP module.
CO 4 Effectively use interrupt structure in internal and External interrupt mode.
CO 5 Effectively use ADC for parameter measurement and also understand LCD interfacing.
CO 6 Use Serial Communication and various serial communication protocols.
Course code and Name: 317550:- Embedded System Design (Practical)
CO 1 Understanding of Embedded Systems Programming
CO 2 Hands-on Hardware Interfacing Skills
CO 3 Applied Problem-Solving Abilities
Course code and Name: 317551:- Artificial Intelligence & Machine Learning
CO 1 Understand Fundamentals of Artificial Intelligence & Machine Learning.
CO 2 Explain Feature Extraction and Selection Algorithm.
CO 3 Apply machine Learning Algorithms for Classification & Regression.
CO 4 Develop Machine Learning Model using various steps.
CO 5 Explain concept of Reinforced & Deep Learning.
CO 6 Discuss the various application areas of Artifical Intelligence & Machine Learning.
Course code and Name: 317551:- Artificial Intelligence & Machine Learning (Practical)
CO 1 Develop a program acquire, visualize and analyze the data set
CO 2 Develop a program to aquire and select data set & establish training data
CO 3 Demostrate use of supervised learning algorithm
Course code and Name: 317552:-  Mini- Project
CO 1 EXPLAIN plan and execute a Mini Project with team.
CO 2 IMPLEMENT hardware/software/analytical/numerical techniques, etc.
CO 3 DEVELOP a technical report based on the Mini project
CO 4 DELIVER technical seminar based on the Mini Project work carried out

Fourth Year Engineering  SEM I
Course code and Name: 417541- Robot Operating System (Theory)
CO 1 Understand the fundamentals of Robot operating system
CO 2 Explain different modes of robot programming and its applications
CO 3 Apply VAL program for robotic applications.
CO 4 Apply RAPID language program for robotic applications.
CO 5 Understand the basic concepts of virtual robot systems
CO 6 Simulate different robot model
Course code and Name: 417541- Robot Operating System (Practical)
CO 1 Select Use of any robotic simulation software to model the different types of robots and calculate work volume for different robots
CO 2 Read and Analyze variety of industrial robots
CO 3 Apply Concept of Robot design and program for different field applications.
CO 4 Evaluate the significance of industrial robot
Course code and Name: 417542- Data Communication
CO 1 Compare and contrast the significance and limitations of analog and digital communication systems.
CO 2 Demonstrate the knowledge of antennas in communication systems
CO 3 Demonstrate a clear understanding of fundamentals of wireless and mobile communication systems
Course code and Name: 417542- Data Communication (Practical)
CO 1 Compare and contrast the significance and limitations of analog and digital communication systems.
CO 2 Demonstrate the knowledge of antennas in communication systems
CO 3 Demonstrate a clear understanding of fundamentals of wireless and mobile communication systems and standards.
Course code and Name: 417543- Micro Electro Mechanical System
CO 1 417543.1 Understand fabrication process of MEMS.
CO 2 417543.2 Discuss various sensors and actuators in MEMS
CO 3 417543.3 Understand fabrication methods used in MEMS
CO 4 417543.4 Explain the scaling laws ad materials used in MEMS
CO 5 417543.5 Apply characterization techniques in MEMS
CO 6 417543.6 Understand the fundamentals of nano-technology
Course code and Name: 417544- Image Processing & Computer Vision
CO 1 417544.1 Apply relevant mathematics required for digital image processing 
CO 2 417544.2 Apply method for image enhancement andalgorithmic approches for image segmentation
CO 3 417544.3 Understand image descriptors and features for computer vision
CO 4 417544.4 Discuss machine learning techniques for computer vision
CO 5 417544.5 Demostrate computer vision using opencv and python
CO 6 417544.6 Discuss the application areas of image processing and computer vision.
Course code and Name: 417544- Image Processing & Computer Vision (Practical)
CO 1 417544.1 To Apply Relevant Mathematics Required for Digital Image Processing
CO 2 417544.2 To apply machine learning for computer vision
CO 3 417544.3 To Understand Open CV for Computer Vision Using Python
Course code and Name: 417544 B- Medical Mechatronics
CO 1 417544 B.1 Select proper electrodes and electrolyte for different measurement of parameters.
CO 2 417544 B.2 Explain the principle and working of any biomedical equipment.
CO 3 417545 B.1 Identify different types of biomedical unit for measurement and analysis techniques.
CO 4 417545 B.2 Design suitable orthotic and prosthetic devices and applications
CO 5 417546 B.1 Explain the working of different imaging techniques in Biomedical Engineering
CO 6 417546 B.2 Demonstrate the significance of safety, telemetry and hospital information system in biomedical Instrumentation
Course code and Name: 417545- Medical Mechatronics (Lab)                                                                          
CO 1 417545.1 Understand the working principle of biomedical equipments
CO 2 417545.2 Understand the measurement techniques in medical electronics
CO 3 417545.3 Understand the working of different imaging techniques
Course code and Name: 417545- Product Design & Development
CO 1 417545.1 UNDERSTAND Product design and Product development processes
CO 2 417545.2 UNDERSTAND Processes, tools and techniques for Market Survey & Product Specification Finalization
CO 3 417545.3 UNDERSTAND Processes, tools and techniques for Concept Inception, Verification and selection
CO 4 417545.4 UNDERSTAND Processes, tools and techniques for Concept Exploration & Development
CO 5 417545.5 UNDERSTAND Processes, tools and techniques for Design Verification and Validation
CO 6 417545.6 UNDERSTAND Processes, tools and techniques for Robust Design and Development
Course code and Name: 417545- Industry 4.0
CO 1 Understand the basic concepts of Industry 4.0 and the other related fields.
CO 2 Understand cyber physical system and the emerging applications.
CO 3 Discuss the differnt energy storage systems
CO 4 Describe Smart grid System
CO 5 Discuss various smart application in industry 4.0
CO 6 Understand the fundamental od industrial internet of things
Course code and Name: 417546- Project Stage- I                                                                  
CO 1 IMPLEMENT systems approach.
CO 2 CONCEPTUALIZE a novel idea / technique into a product.
CO 3 THINK in terms of a multi-disciplinary environment
CO 4 TAKE ON the challenges of teamwork, and DOCUMENT all aspects of design work.
CO 5 UNDERSTAND the management techniques of implementing a project.
CO 6 DEMONSTRATE the final product for Functionality, Designability, and Manufacturability.
Fourth Year Engineering SEM II
Course code and Name: 417548- Internet of Things
CO 1 Understand building blocks of IOT
CO 2 Compare the connectivity technologies and protocols in IOT
CO 3 Illustrate various IOT platforms for application development
CO 4 Discuss various Resource management in IOT
CO 5 Discuss Security Issues in IOT
CO 6 Understand the Architechtural Approach for IOT applications
Course code and Name: 417548-  Internet of Things (Practical)
CO 1 Demonstrate interfacing of digital & analog sensors
CO 2 Implement PWM technique for LED brightness control
CO 3 Demostrate Data transfer from one development board to other using Wi-Fi or Bluetooth
CO 4 Demostrate connection of development board to internet either with Wi-Fi or GSM
Course code and Name: 417549:-  Vibration Analysis & Control
CO 1 APPLY balancing technique for static and dynamic balancing of multi cylinder inline and radial engines
CO 2 ANALYZE the gyroscopic couple or effect for stabilization of Ship, Airplane and Four wheeler vehicles
CO 3 ESTIMATE natural frequency for single DOF un-damped & damped free vibratory systems
CO 4 DETERMINE response to forced vibrations due to harmonic excitation, base excitation and excitation due to unbalance forces
CO 5 ESTIMATE natural frequencies, mode shapes for 2 DOF undamped free longitudinal and torsional vibratory systems.
CO 6 DESCRIBE noise and vibration measuring instruments for industrial / real life applications along with suitable method for noise and vibration control.
Course code and Name: 417549:-  Vibration Analysis & Control (Practical)
CO 1 Demonstrate vibration characteristics, dynamic behaviour and condition mnoitoring of mechanical systems 
CO 2 Verify experimentally dymanic vibration absorber 
CO 3  Investigate experimentally tthe effect of active gyroscopic couple
Course code and Name: 417550-A:-  App Development
CO 1 Understand  basic android development and environment
CO 2 Understand basic software tools and android development tools
CO 3 Develop a program with android UI representations.
CO 4 Develop a program with connectivity and SQLite Database
CO 5 Describe security in Application Deployment
CO 6 Understand  basics of  web development and application
Course code and Name: 417550-C:- Advanced Control Systems
CO 1 Compute pulse transfer and time response of digital control systems.
CO 2 Realize pulse transfer function and investigate stability of digital control systems using pole locations, Jury stability test, bilinear transformation and Routh stability test.
CO 3 Compute state model from pulse transfer function, pulse transfer function from state model and state transition matrix of digital control systems.
CO 4 Investigate state controllability, state observability and design state regulator, full order state observer and optimal state regulator for digital control systems
CO 5 Investigate stability of continuous and discrete time LTI systems represented in state space using Lyapunov method.
CO 6 Analyze non-linear systems using describing function and phase plane method.
Course code and Name: 417551-B:- Human Machine Interface
CO 1 Design innovative and user-friendly interfaces for industrial application.
CO 2 Criticize existing interface designs, and improve them.
CO 3 Design application for social and technical task with safety concern
Course code and Name: 417551-C:- Electric Vehicles
CO 1 UNDERSTAND the basics related to e-vehicle
CO 2 CLASSIFY the different hybrid vehicles
CO 3 IDENTIFY and EVALUATE the Prime Movers, Energy Storage and Controllers
CO 4 DISCOVER and CATAGORIZE the Electric Vehicle Configuration with respect to Propulsion, Power distribution and Drive-Train Topologies
CO 5 DEVELOP body frame with appropriate suspension system and TESTING of for eVehicles
CO 6 CLASSIFY and EVALUATE Battery Charging techniques and management
Course code and Name: 417552:- Project Stage- II
CO 1 IMPLEMENT systems approach.
CO 2 CONCEPTUALIZE a novel idea / technique into a product.
CO 3 THINK in terms of a multi-disciplinary environment
CO 4 TAKE ON the challenges of teamwork, and DOCUMENT all aspects of design work.
CO 5 UNDERSTAND the management techniques of implementing a project.
CO 6 DEMONSTRATE the final product for Functionality, Designability, and Manufacturability.

 

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