{"id":146,"date":"2024-11-27T06:26:53","date_gmt":"2024-11-27T06:26:53","guid":{"rendered":"https:\/\/top-autonomous-college-in-odisha.gift.edu.in\/eee\/?page_id=146"},"modified":"2024-11-27T06:26:54","modified_gmt":"2024-11-27T06:26:54","slug":"course-outcomes-b-tech","status":"publish","type":"page","link":"https:\/\/top-autonomous-college-in-odisha.gift.edu.in\/eee\/course-outcomes-b-tech\/","title":{"rendered":"Course Outcomes (B-Tech)"},"content":{"rendered":"\n
SL No.<\/strong><\/td>Course CODE<\/strong><\/td>SUBJECT<\/strong><\/td>CO<\/strong><\/td>Description of COs<\/strong><\/td><\/tr>
1<\/td>C201<\/td>Mathematics – 3<\/td>C201.1<\/td>C201.1 Apply the knowledge of the transformation with Laplace & Fourier series.<\/td><\/tr>
C201.2<\/td>C201.2 Analysis the essential tool of the Laplace & Fourier Transformation.<\/td><\/tr>
C201.3<\/td>C201.3 Illustrate the concept of the application in the Laplace & Fourier Transformation.<\/td><\/tr>
C201.4<\/td>C201.4 Understand the concept of the Z-Transformation.<\/td><\/tr>
C201.5<\/td>C201.5 Identification of the Laplace, Fourier & Z-Transformation in the real world.<\/td><\/tr>
 <\/td> <\/td> <\/td>C201.6<\/td>C201.6 Implement their knowladge into power series, taylor series, residue-integration methods to solve complex problems in engineering.<\/td><\/tr>
2<\/td>C202<\/td>Object Oriented Programming using JAVA<\/td>C202.1<\/td>C202.1 Understand the Object-oriented programming concepts and every term of the program.<\/td><\/tr>
C202.2<\/td>C202.2 Execute the programmes by Object and Class and implement inheritance property.<\/td><\/tr>
C202.3<\/td>C202.3 Implement polymorphism and string manipulation.<\/td><\/tr>
C202.4<\/td>C202.4 Determine data abstraction and wrapper classes to achieve code reusability.<\/td><\/tr>
C202.5<\/td>C202.5 Analyse the multithreading and package implementation.<\/td><\/tr>
 <\/td> <\/td> <\/td>C202.6<\/td>C202.6 Create new solutions on complex issues by applying static and dynamic polymerphism such as function overloading and virtual function.<\/td><\/tr>
3<\/td>C203<\/td>Engineering Economics<\/td>C203.1<\/td>C203.1 Remembering: Define the basic concept of micro and macroeconomics, engineering economics and their application in engineering economy.<\/td><\/tr>
C203.2<\/td>C203.2 Understanding: Evaluate numerically the effects of changes in demand and supply on price determination of products and services.<\/td><\/tr>
C203.3<\/td>C203.3 Analyze: the macroeconomic environment and financial systems of the country and its impact on business, society and enterprise.<\/td><\/tr>
C203.4<\/td>C203.4 Develop: the ability to account for time value of money using engineering economy factors and formulas.<\/td><\/tr>
C203.5<\/td>C203.5 Apply: knowledge of mathematics, economics and engineering principles to solve engineering problems and to analyze decision alternatives in engineering projects considering upon depreciation, taxes and inflation.<\/td><\/tr>
 <\/td> <\/td>C203.6<\/td>C203.6 Remembering: Define the basic concept of micro and macroeconomics, engineering economics and their application in engineering economy.<\/td><\/tr>
4<\/td>C204<\/td>Analog Electronics Circuits<\/td>C204.1<\/td>C204.1 Define and understand fundamentals of BJT,FET, MOSFET.<\/td><\/tr>
C204.2<\/td>C204.2 Explain different types of amplifier and their design.<\/td><\/tr>
C204.3<\/td>C204.3 Apply various types of BJT and FET amplifiers.<\/td><\/tr>
C204.4<\/td>C204.4 Analyse the hardware components of  amplifier circuits.<\/td><\/tr>
C204.5<\/td>C204.5 Design different amplifier and oscillator circuits and its  applications<\/td><\/tr>
C204.6<\/td>C204.6 Review frequency response of BJT and JFET Amplifiers.<\/td><\/tr>
5<\/td>C205<\/td>Network Theory                <\/td>C205.1<\/td>C205.1 Understand basic concept of AC & DC circuit.<\/td><\/tr>
C205.2<\/td>C205.2 Solve the electrical network problems using theorems and coupling circuit.<\/td><\/tr>
C205.3<\/td>C205.3 Analyze transient behavior and resonance of DC and AC circuit.<\/td><\/tr>
C205.4<\/td>C205.4 Summarize application of Laplace transformation.<\/td><\/tr>
C205.5<\/td>C205.5 Determine the  parameters for different circuit analysis.<\/td><\/tr>
C205.6<\/td>C205.6 Construct  various Filters and their application.<\/td><\/tr>
6<\/td>C206<\/td>Environment  Science         <\/td>C206.1<\/td>C206.1 Assess societal, health, safety and legal issues by applying Environmental Engineering knowledge.<\/td><\/tr>
C206.2<\/td>C206.2 Make use of their knowledge to interpret the data by experimental analysis to provide valid conclusions<\/td><\/tr>
C206.3<\/td>C206.3 Identify, formulate, review research literature and analyze complex Environmental Engineering problems using fundamentals of mathematics, sciences and engineering.<\/td><\/tr>
C206.4<\/td>C206.4 Develop solutions for Environmental Engineering problems and design system components and processes to meet the specified needs with appropriate consideration for the public health and safety.<\/td><\/tr>
C206.5<\/td>C206.5 Apply the knowledge of mathematics, Science and Engineering fundamentals for solution of problems of Environmental Engineering.<\/td><\/tr>
C206.6<\/td>C206.6 Assess societal, health, safety and legal issues by applying Environmental Engineering knowledge.<\/td><\/tr>
7<\/td>C207<\/td>Analog Electronics Circuits Lab (AEC LAB)<\/td>C207.1<\/td>C207.1 Investigate and analyze the logical behavior of basic logic gates (NOT, AND, OR, NAND, NOR, EX-OR, EX-NOR) and verify their truth tables.<\/td><\/tr>
C207.2<\/td>C207.2 Apply gate-level minimization techniques to implement optimized two-level and multi-level Boolean functions.<\/td><\/tr>
C207.3<\/td>C207.3 Implement digital circuits using universal gates (NAND and NOR) and simplify complex logic designs.<\/td><\/tr>
C207.4<\/td>C207.4 Design, assemble, and test combinational circuits like adders, subtractors, and code converters for practical digital applications.<\/td><\/tr>
C207.5<\/td>C207.5 Demonstrate proficiency in designing multiplexers, de-multiplexers, and understanding their roles in digital systems.<\/td><\/tr>
C207.6<\/td>C207.6 Assemble, test, and investigate the operation of flip-flops (SR, D, J-K) and shift registers, and explore their use in sequential circuits and data storage.<\/td><\/tr>
8<\/td>C208<\/td>Network Theory (NT LAB)<\/td>C208.1<\/td>C208.1 Explain the different network theorems.<\/td><\/tr>
C208.2<\/td>C208.2 Analyse the transient circuit and calculate the time constants.<\/td><\/tr>
C208.3<\/td>C208.3 Identify the resonant behaviour of a R-L-C circuit.<\/td><\/tr>
C208.4<\/td>C208.4 Determine the different parameters of two-port network.<\/td><\/tr>
C208.5<\/td>C208.5 Design the passive filter circuits.<\/td><\/tr>
C208.6<\/td>C208.6 Demonstrate the PSPIECE for different circuits.<\/td><\/tr>
9<\/td>C209<\/td>Object Oriented Programming using JAVA (OOPS LAB)<\/td>C209.1<\/td>C209.1 Demonstrate the ability to write, compile, and execute basic Java programs, understanding the core structure of a Java application.<\/td><\/tr>
C209.2<\/td>C209.2 Apply knowledge of Java data types, variables, and control structures (if, switch) to design and implement programs with conditional logic.<\/td><\/tr>
C209.3<\/td>C209.3 Utilize loop control structures (for, while, do-while) in Java to solve iterative problems efficiently.<\/td><\/tr>
C209.4<\/td>C209.4 Understand and apply object-oriented principles, including the use of classes, objects, inheritance, polymorphism, and abstract classes, in Java program design.<\/td><\/tr>
C209.5<\/td>C209.5  Implement Java interfaces, inner classes, and explore packages for organizing code and enabling code reuse and modularity.<\/td><\/tr>
C209.6<\/td>C209.6 Develop Java applications with advanced concepts such as exception handling, multithreading, applets, AWT, and Swing, gaining proficiency in creating interactive and robust Java programs.<\/td><\/tr>
10<\/td>C210<\/td> Evaluation of Summer Internship (ESI-1)<\/td>C210.1<\/td>C210.1 Understand the functioning of organization and observe changes for self-improvement.<\/td><\/tr>
C210.2<\/td>C210.2 Explain how the internship placement site fits into a broader career field.<\/td><\/tr>
C210.3<\/td>C210.3 Apply appropriate workplace behaviours in a professional setting.<\/td><\/tr>
C210.4<\/td>C210.4 Solve real life challenges in the workplace by analysing work environment and conditions, and selecting appropriate skill sets acquired from the course<\/td><\/tr>
C210.5<\/td>C210.5 Evaluate the internship experience in terms of personal, educational and career needs.<\/td><\/tr>
C210.6<\/td>C210.6 Develop ideas for suitable startups to become successful entrepreneur.<\/td><\/tr>
11<\/td>C211<\/td>Digital Electronics Circuit<\/td>C211.1<\/td>C211.1 Understand the basic components and laws of digital circuits.<\/td><\/tr>
C211.2<\/td>C211.2 Learn the representation and simplification of digital circuits<\/td><\/tr>
C211.3<\/td>C211.3 Analyse various Combinational circuits.<\/td><\/tr>
C211.4<\/td>C211.4 Design various Sequentialal circuits.<\/td><\/tr>
C211.5<\/td>C211.5 Apply the HDL for digital circuits.<\/td><\/tr>
C211.6<\/td>C211.6 Validate combinational logic circuits using programmable logic devices.<\/td><\/tr>
12<\/td>C212<\/td>Electrical Machines-I<\/td>C212.1<\/td>C212.1 Understand the operation of dc machines,single phase transformers and three phase Induction motor.<\/td><\/tr>
C212.2<\/td>C212.2 Analyze the characterstics of  dc machines,single phase transformers and three phase Induction motor.<\/td><\/tr>
C212.3<\/td>C212.3 Differentiate the operation of different types of dc machine .<\/td><\/tr>
C212.4<\/td>C212.4 Evaluate the perfermance of dc machines and transfermers.<\/td><\/tr>
C212.5<\/td>C212.5 Design the single phase transformers and three phase Induction motor.<\/td><\/tr>
C212.6<\/td>C212.6 Recognise the application of dc machines,single phase transformers and three phase Induction motors in industrial use.<\/td><\/tr>
13<\/td>C213<\/td>Organisational Behaviour<\/td>C213.1<\/td>C213.1 Understand the conceptual framework of the discipline of OB and its practical applications in the organizational set up.<\/td><\/tr>
C213.2<\/td>C213.2 Analyse the role of individual, groups and structure in achieving organizational goals effectively and efficiently.<\/td><\/tr>
C213.3<\/td>C213.3 Evaluate various theories and models that contributes in the overall understanding of the discipline.<\/td><\/tr>
C213.4<\/td>C213.4 Creat knowladge in creative and innovative ideas that could positively shape the organizations.<\/td><\/tr>
C213.5<\/td>C213.5 Identify working with different people from different cultural and diverse background in the workplace.<\/td><\/tr>
C213.6<\/td>C213.6  Compose the implementation of organizational change.<\/td><\/tr>
14<\/td>C214<\/td>Power Electronics<\/td>C214.1<\/td>C214.1 Understanding the semiconductors devices and its performance.<\/td><\/tr>
C214.2<\/td>C214.2 Analyze the controlled and uncontrolled converter.<\/td><\/tr>
C214.3<\/td>C214.3 Evaluating the perfermance of DC-DC converter.<\/td><\/tr>
C214.4<\/td>C214.4 Applying the idea on AC-AC converter.<\/td><\/tr>
C214.5<\/td>C214.5 Outline the PWM techniques and its different applications.<\/td><\/tr>
C214.6<\/td>C214.6 Illustrate the design of  DC-AC converters<\/td><\/tr>
15<\/td>C215<\/td>Electrical and
Electronics
Measurement<\/td>		C215.1<\/td>C215.1 Understand  the measurement systems and different type of measuring instruments<\/td><\/tr>
C215.2<\/td>C215.2 Analyze the problems using bridge circuits.<\/td><\/tr>
C215.3<\/td>C215.3 Evaluate insulation and ground resistance.<\/td><\/tr>
C215.4<\/td>C215.4 Create knowledge on instruments transformer.<\/td><\/tr>
C215.5<\/td>C215.5 Identify different electronics instruments..<\/td><\/tr>
C215.6<\/td>C215.6 Develop the knowledge on different sensors and Transducers.<\/td><\/tr>
16<\/td>C216<\/td>Digital Signal
Processing<\/td>		C216.1<\/td>C216.1 Explain the stability and causality of the LSI systems using Z-Transform.<\/td><\/tr>
C216.2<\/td>C216.2 Analyze discrete signals & systems using DFT technique.<\/td><\/tr>
C216.3<\/td>C216.3 Recognize the various types of filters.<\/td><\/tr>
C216.4<\/td>C216.4 Illustrate the IIR and FIR filters using various techniques.<\/td><\/tr>
C216.5<\/td>C216.5 Estimate the basics of Multi-rate Signal Processing system.<\/td><\/tr>
C216.6<\/td>C216.6 Realize different structures of FIR and IIR discrete time systems.<\/td><\/tr>
17<\/td>C217<\/td>CONSTITUTION OF INDIA<\/td>C217.1<\/td>C217.1 Remember the basic information about Indian constitution.<\/td><\/tr>
C217.2<\/td>C217.2 Analyze the legalities and related issues of drafting, adoption and enforcement of the Indian Constitution as a fundamental law of the nation and the provisions and privileges of Indian Citizenship.<\/td><\/tr>
C217.3<\/td>C217.3 Understand and judiciously use the fundamental rights and privileges envisaged in the constitution.<\/td><\/tr>
C217.4<\/td>C217.4 Relate the major dimensions of Indian Political System and to contribute in protecting and preserving the sovereignty and integrity of India.<\/td><\/tr>
C217.5<\/td>C217.5  Identify the successful functioning of democracy in India.<\/td><\/tr>
C217.6<\/td>C217.6 Explain their obligations, responsibilities, privileges &amp; rights, duties and the role that they have to play in deciding the Administrative Machinery of the country.<\/td><\/tr>
18<\/td>C218<\/td>Digital Electronics
Laboratory
(DEC LAB)<\/td>		C218.1<\/td>C218.1 State the truth table of basic gates, universal gates and exclusive gates.<\/td><\/tr>
C218.2<\/td>C218.2 Explain the various Boolean Expression using universal gates.<\/td><\/tr>
C218.3<\/td>C218.3 Demonstrate various  sequential circuit operations like latch and flip-flop.<\/td><\/tr>
C218.4<\/td>C218.4 Analyse VHDL code for various combinational and sequential circuit.<\/td><\/tr>
C218.5<\/td>C218.5 Design and test various combinational  Circuits using Gates.<\/td><\/tr>
C218.6<\/td>C218.6 Justify various Registers using flipflop.<\/td><\/tr>
19<\/td>C219<\/td>Electrical Machines-I
Laboratory
(EM-1 LAB)<\/td>		C219.1<\/td>C219.1 Find  the critical speed and resistance of dc generator .<\/td><\/tr>
C219.2<\/td>C219.2 Practice of armature resistance and field flux control method for dc motor speed control.<\/td><\/tr>
C219.3<\/td>C219.3 Interpret the differences between the internal and external characteristics and their implications for generator performance.<\/td><\/tr>
C219.4<\/td>C219.4 Examine the efficiency of a DC machine  using Brake Test or  Swinburne\u2019s Test and Hopkinson\u2019s Test .<\/td><\/tr>
C219.5<\/td>C219.5 Assess the experimental setup to evaluate  transformer efficiency.<\/td><\/tr>
C219.6<\/td>C219.6 Discuss the effectiveness of load sharing and synchronization in the parallel operation setup two single phase transformer.<\/td><\/tr>
20<\/td>C220<\/td>Power Electronics
Laboratory
(PE LAB)<\/td>		C220.1<\/td>C220.1 Understand the V-I characteristics of semiconductors device and calculate the parameters.<\/td><\/tr>
C220.2<\/td>C220.2  Analyze the controlled converter.<\/td><\/tr>
C220.3<\/td>C220.3 Creating the knowledge on DC-DC converter.<\/td><\/tr>
C220.4<\/td>C220.4 Determine BUCK and BOOST converter.<\/td><\/tr>
C220.5<\/td>C220.5 Practicing the operation of cycloconverter.<\/td><\/tr>
C220.6<\/td>C220.6 Design the Voltage source inverter.<\/td><\/tr>
21<\/td>C301<\/td>Electric Power Transmission and
Distribution<\/td>		C301.1<\/td>C301.1 Analyzing the Sustainability of Conventional Energy Sources.<\/td><\/tr>
C301.2<\/td>C301.2 Understanding Inductance and Capacitance in Power Transmission (over head and underground)<\/td><\/tr>
C301.3<\/td>C301.3 Assessing the Impact of Skin Effect,ferranti effect  and Proximity Effect on Power Transmission.<\/td><\/tr>
C301.4<\/td>C301.4 Identifying Distribution Network Analysis and Voltage Regulation Techniques.<\/td><\/tr>
C301.5<\/td>C301.5 Applying the Role and Function of Compensation Techniques in Power Systems.<\/td><\/tr>
C301.6<\/td>C301.6 Construct the earthing system for power systems .<\/td><\/tr>
22<\/td>C302<\/td>Control System<\/td>C302.1<\/td>C302.1 Understanding industrial control systems and mathematical modeling.<\/td><\/tr>
C302.2<\/td>C302.2 Remembering the different types of signal and its response.<\/td><\/tr>
C302.3<\/td>C302.3 Analyze the stability criteria and concept of stability.<\/td><\/tr>
C302.4<\/td>C302.4 Applying different techniques for stability criteria with practical application of PID controller tuning.<\/td><\/tr>
C302.5<\/td>C302.5 Summarize the relationship between time and frequency responses, including robustness analysis with PLC technique for compensation.<\/td><\/tr>
C302.6<\/td>C302.6 Outline in state-space models and stability analysis for discrete-time systems.<\/td><\/tr>
23<\/td>C303<\/td>Electrical Machines-II<\/td>C303.1<\/td>C303.1 Understand the construction and working of different AC machines three phase & single phase.<\/td><\/tr>
C303.2<\/td>C303.2 Organizing different characteristics of 3-phase AC machines.<\/td><\/tr>
C303.3<\/td>C303.3 Evaluate the equivalent circuit parameters of different synchronous & asynchronous machines.<\/td><\/tr>
C303.4<\/td>C303.4 Applying different methods for operation of different AC machines.<\/td><\/tr>
C303.5<\/td>C303.5 Identify the problems and solution occurred during operation of synchronous generators.<\/td><\/tr>
C303.6<\/td>C303.6 Summarizing the details of Synchronous Motors.<\/td><\/tr>
24<\/td>C304<\/td>Industrial Process Control and Dynamics<\/td>C304.1<\/td>C304.1 Apply the concepts to draw block diagrams for any process control system and differentiate between analog and digital control systems.<\/td><\/tr>
C304.2<\/td>C304.2 Analyze the functioning of analog and digital signal conditioning in process control systems.<\/td><\/tr>
C304.3<\/td>C304.3 Understand different types of thermal sensors, mechanical sensors & optical sensors used in process control systems.<\/td><\/tr>
C304.4<\/td>C304.4 Identify different types of final control elements used in process control systems.<\/td><\/tr>
C304.5<\/td>C304.5 Organizing the performance and application of various analog and digital controllers in process control systems.<\/td><\/tr>
C304.6<\/td>C304.6 Executing the interrelation of various components in process control systems for improved system performance.<\/td><\/tr>
25<\/td>C305<\/td>Renewable Power Generating System<\/td>C305.1<\/td>C305.1 Understanding the physics of solar radiation.<\/td><\/tr>
C305.2<\/td>C305.2 Analyze the performance of solar energy collectors, methodologies and application of solar energy.<\/td><\/tr>
C305.3<\/td>C305.3 Apply solar energy in a useful way.<\/td><\/tr>
C305.4<\/td>C305.4 Remember the power of wind energy and gain knowledge on DFIG.<\/td><\/tr>
C305.5<\/td>C305.5 Executing the idea of biogas and its applications.<\/td><\/tr>
C305.6<\/td>C305.6 Adopting knowledge on Hybrid systems.<\/td><\/tr>
26<\/td>C306<\/td>Universal Human Values<\/td>C306.1<\/td>C306.1 Understand and appreciate the significance of universal human values in personal and professional life.<\/td><\/tr>
C306.2<\/td>C306.2 Develop critical thinking and ethical reasoning skills to address real-life dilemmas.<\/td><\/tr>
C306.3<\/td>C306.3 Cultivate empathy and compassion towards others, promoting social harmony and well-being.<\/td><\/tr>
C306.4<\/td>C306.4 Enhance self-awareness and personal growth through reflection on one’s values and actions.<\/td><\/tr>
C306.5<\/td>C306.5 Foster a sense of responsibility and commitment to societal and environmental sustainability.<\/td><\/tr>
C306.6<\/td>C306.6 Apply principles of universal human values in decision-making processes to create a positive impact.<\/td><\/tr>
27<\/td>C307<\/td>Electric Power Transmission and
Distribution Lab
(EPTD LAB)<\/td>		C307.1<\/td>C307.1 Understanding and proficiency in analyzing Ferranti effect, ABCD parameters.<\/td><\/tr>
C307.2<\/td>C307.2 Evaluating string efficiency and conducting earth resistance measurements in electrical systems.<\/td><\/tr>
C307.3<\/td>C307.3 Analyzing competence in performing transformer oil tests and comprehending the operation of diverse lightning arresters.<\/td><\/tr>
C307.4<\/td>C307.4 Understanding of power factor improvement in distribution systems through switched capacitor utilization, and
explores the phenomena and effects of corona discharge.<\/td><\/tr>
C307.5<\/td>C307.5 Acquire proficiency in Simulink for studying power system blocks, MATLAB for designing short and long transmission lines, and conducting load flow analysis on simple power system networks.<\/td><\/tr>
C307.6<\/td>C307.6 Utilize MATLAB for simulating power system faults and modeling distribution feeders with varied scenarios.<\/td><\/tr>
28<\/td>C308<\/td>Control and Instrumentation Lab (C & I LAB)<\/td>C308.1<\/td>C308.1 Analyzing a DC motor-driven position control system and understanding the speed-torque characteristics of a two-phase AC servomotor, including the determination of its transfer function.<\/td><\/tr>
C308.2<\/td>C308.2 Evaluating the validation of controllers for temperature control systems and explore position control systems using a
Synchroscope for enhanced understanding and application.<\/td><\/tr>
C308.3<\/td>C308.3 Develop adeptness in measuring linear displacement with LVDT and ascertain unknown resistance, inductance, and capacitance employing various bridge circuits.<\/td><\/tr>
C308.4<\/td>C308.4 Observing second-order process time responses with P, PI, and PID control, apply PID control to a servomotor, and analyze lag and lead compensator frequency responses, advancing comprehension and application abilities.<\/td><\/tr>
C308.5<\/td>C308.5 Utilize MATLAB’s Control Systems Toolbox to derive transfer functions from block diagrams, enhancing both application
and analysis skills.<\/td><\/tr>
C308.6<\/td>C308.6 Understanding in concept of stability by different plots.<\/td><\/tr>
29<\/td>C309<\/td>Electrical Machines Lab-II (EM-2 LAB)<\/td>C309.1<\/td>C309.1 Evaluate voltage regulation of alternator by ZPF and synchronous Impedance method.<\/td><\/tr>
C309.2<\/td>C309.2 Analyzing the speed control of 3-phase Induction motor by frequency variation method.<\/td><\/tr>
C309.3<\/td>C309.3 Understanding the V and Inverted V curve of synchronous motor.<\/td><\/tr>
C309.4<\/td>C309.4 Evaluate efficiency and parameters of 3-phase Induction motor.<\/td><\/tr>
C309.5<\/td>C309.5 Develop the idea of parallel operation of two alternators and calculation of Xd and Xq with power angle characteristics.<\/td><\/tr>
C309.6<\/td>C309.6 Evaluate the techniques to start the 1-phase Induction motors.<\/td><\/tr>
30<\/td>C310<\/td> Evaluation of Summer Internship (ESI-2)<\/td>C310.1<\/td>C310.1 Understand the basic components and laws of digital circuits.<\/td><\/tr>
C310.2<\/td>C310.2 Learn the representation and simplification of digital circuits<\/td><\/tr>
C310.3<\/td>C310.3 Analyse and design various Combinational circuits.<\/td><\/tr>
C310.4<\/td>C310.4 Analyse and design various Sequentialal circuits.<\/td><\/tr>
C310.5<\/td>C310.5 Apply the HDL for digital circuits.<\/td><\/tr>
C310.6<\/td>C310.6 Validate combinational logic circuits using programmable logic devices.<\/td><\/tr>
31<\/td>C311<\/td>Communication Engineering<\/td>C311.1<\/td>C311.1 Define different analog modulation schemes for their efficiency and bandwidth.<\/td><\/tr>
C311.2<\/td>C311.2 Understand the basic concepts of the analog communication systems.<\/td><\/tr>
C311.3<\/td>C311.3  Apply Fourier analysis to communication signals .Derive the energy or power spectral density of signals.<\/td><\/tr>
C311.4<\/td>C311.4 Analyze various analog pulse modulation and demodulation techniques including AM, FM and PM.<\/td><\/tr>
C311.5<\/td>C311.5 Evaluate modulation index, bandwidth and power requirements for various analog modulation schemes including AM,FM and PM.<\/td><\/tr>
C311.6<\/td>C311.6 Create the spectrum and noise performance of particular communication system.<\/td><\/tr>
32<\/td>C312<\/td>Microprocessor and Micro controllers<\/td>C312.2<\/td>C312.2 Explain the architecture of a 16-bit Microprocessor like 8086 including the concept of instruction queue, segmented memory structure and address generation<\/td><\/tr>
C312.3<\/td>C312.3 Explain and analyze the Addressing modes, Assembly language instructions of 8086 and implement them to solve 8086 related design problems<\/td><\/tr>
C312.4<\/td>C312.4 Design Memory Interfacing using memory chips with proper decoder circuits with a 16-bit processor and analyze the interrupt structure of 8086 Microprocessor<\/td><\/tr>
C312.5<\/td>C312.5 Explain the features of the peripherals such as PPI, Programmable interrupt control, USART and their interfacing with a 16- bit processor<\/td><\/tr>
C312.6<\/td>C312.6 Explain and analyze memory organization of a 8-bit Microcontroller (like 8051), its addressing modes, instructions, timers & counters and its serial communication<\/td><\/tr>
33<\/td>C313<\/td>Optimization in Engineering<\/td>C313.1<\/td>C313.1 Understand basic theoretical principles for formulation of optimization models and its solution<\/td><\/tr>
C313.3<\/td>C313.3 Apply detailed theoretical and practical aspects of intelligent modeling, optimization and control of linear and non-linear systems.<\/td><\/tr>
C313.4<\/td>C313.4 Cast engineering minima\/maxima problems into optimization framework.<\/td><\/tr>
C313.5<\/td>C313.5 Learn efficient computational procedures to solve optimization problems.<\/td><\/tr>
C313.6<\/td>C313.6 Analyze Matlab to implement important optimization methods.<\/td><\/tr>
34<\/td>C314<\/td>Power System Operation and Control<\/td>C314.1<\/td>C314.1 Understand concept of  Power system.<\/td><\/tr>
C314.2<\/td>C314.2 Perform the optimal power flow solutions using different techniques.<\/td><\/tr>
C314.4<\/td>C314.4 Determining the control strategy for AGC for single area and two area system.<\/td><\/tr>
C314.5<\/td>C314.5 Outline the power system stability in single machine system.<\/td><\/tr>
C314.6<\/td>C314.6 Estimate the parameters for multi-machine system stability.<\/td><\/tr>
35<\/td>C315<\/td>Artificial Intelligence and Machine Learning<\/td>C315.1<\/td>C315.1 Understand the fundamental concepts, theories, and principles of Artificial Intelligence to architect intelligent agents.<\/td><\/tr>
C315.2<\/td>C315.2 Acquire knowledge about different search techniques of AI applications.<\/td><\/tr>
C315.3<\/td>C315.3 Develop practical skills to identify suitable solutions using heuristic functions, optimization algorithms and search algorithms.<\/td><\/tr>
C315.4<\/td>C315.4 Learn techniques for logic, reasoning &amp; knowledge representation in AI, basics of Machine Learning as a subfield of Artificial Intelligence area.<\/td><\/tr>
C315.5<\/td>C315.5 Apply AI applications to solve and analyze real world problems.<\/td><\/tr>
C315.6<\/td>C315.6 Illustrate the safty of using AI tools.<\/td><\/tr>
36<\/td>C316<\/td>Essence of Indian Knowledge Tradition – I<\/td>C316.1<\/td>C316.1 Identify the concept of Traditional knowledge and its importance.<\/td><\/tr>
C316.2<\/td>C316.2 Explain the need and importance of protecting traditional knowledge.<\/td><\/tr>
C316.3<\/td>C316.3 Illustrate the various enactments related to the protection of traditional knowledge.<\/td><\/tr>
C316.4<\/td>C316.4 Interpret the concepts of Intellectual property to protect the traditional knowledge.<\/td><\/tr>
C316.5<\/td>C316.5 Explain the importance of Traditional knowledge in Agriculture and Medicine.<\/td><\/tr>
C316.6<\/td>C316.6 Identify the concept of Traditional knowledge and its importance.<\/td><\/tr>
37<\/td>C317<\/td>Communication Engineering (CE LAB)<\/td>C317.1<\/td>C317.1 Define pre-emphasis and de-emphasis at the transmitter and receiver respectively<\/td><\/tr>
C317.2<\/td>C317.2 Understand different analog modulation schemes and evaluate modulation index.<\/td><\/tr>
C317.3<\/td>C317.3 Apply various techniques in solving communication problems .<\/td><\/tr>
C317.4<\/td>C317.4 Comprehend and analyze the concepts of different digital modulation techniques in communication.<\/td><\/tr>
C317.5<\/td>C317.5 Evaluate analog modulated waveform in time \/frequency domain and also find modulation index<\/td><\/tr>
C317.6<\/td>C317.6 Create the writing and simulation environments in PWM, PPM, Mixer and ring modulation.<\/td><\/tr>
38<\/td>C318<\/td>Microprocessor and Micro controllers (MPMC LAB)<\/td>C318.1<\/td>C318.1 Express the fundamentals of evolution, operating concept, and assembly language programming & instruction sets of 8086 Microprocessor.<\/td><\/tr>
C318.2<\/td>C318.2 Develop and apply assembly language programs using loop, branch, arithmetic, logical, shift, rotate, array & String operations.<\/td><\/tr>
C318.3<\/td>C318.3 Formulate programs like finding largest\/smallest numbers, check existence of data.<\/td><\/tr>
C318.4<\/td>C318.4 Experiment with assembly level programming of 8051 microcontroller & its functions for various applications.<\/td><\/tr>
C318.5<\/td>C318.5 Analyze modes of operation of 8255 PPI and peripheral interfacing using A\/D and D\/A converter, Stepper motor controller, and keyboard with display interface using 8279 PIC.<\/td><\/tr>
C318.6<\/td>C318.6 Create square-wave with 8255 chip.<\/td><\/tr>
39<\/td>C319<\/td>Future-ready Contributor Program (FRCP LAB)<\/td>C319.1<\/td>C319.1 Developing self-efficacy and basic inner strength<\/td><\/tr>
C319.2<\/td>C319.2 Building ability to make more effective career choices<\/td><\/tr>
C319.3<\/td>C319.3 Career Development Pathways for a changing world<\/td><\/tr>
C319.4<\/td>C319.4 Building ability to become solution and value creating individuals in the world<\/td><\/tr>
C319.5<\/td>C319.5 Building ability to work collaboratively and as good citizens of organizations and the country<\/td><\/tr>
C319.6<\/td>C319.6 Contribution Project Lab Sessions<\/td><\/tr>
40<\/td>C320<\/td>SEMINAR -1<\/td>C320.1<\/td>C320.1 Outline the topics on modern technology; prepare implementation of the same as the presentation.<\/td><\/tr>
C320.2<\/td>C320.2 Understanding the technologies used by extracting the new things to be implemented by reviewing the journals\/research papers.<\/td><\/tr>
C320.3<\/td>C320.3 Sketch the application of the technology for the use of the mankind.<\/td><\/tr>
C320.4<\/td>C320.4 Analyse and correlate the new technology with the subject of interest for further study.<\/td><\/tr>
C320.5<\/td>C320.5 Evaluate, plan and reframe the technology with the communication skills for a better explanation and presentation.<\/td><\/tr>
C320.6<\/td>C320.6 Modify and design the concept into the realistic world.<\/td><\/tr>
41<\/td>C401<\/td>Entrepreneurship Development<\/td>C401.1<\/td>C401.1 Outline the business environment in order to identify business opportunities.<\/td><\/tr>
C401.2<\/td>C401.2 Understand the legal and financial conditions for starting a business venture.<\/td><\/tr>
C401.3<\/td>C401.3 Apply the knowledge on enterprise and design business plans those are suitable for funding by considering all dimensions of business.<\/td><\/tr>
C401.4<\/td>C401.4 Analyze the effectiveness of different entrepreneurial strategies.<\/td><\/tr>
C401.5<\/td>C401.5 Evaluate the basic performance indicators of entrepreneurial activity.<\/td><\/tr>
C401.6<\/td>C401.6 Generate the importance of marketing and management in small businesses venture.<\/td><\/tr>
42<\/td>C402<\/td>Electric Power System Protection<\/td>C402.1<\/td>C402.1 Understand the electrical protection system.<\/td><\/tr>
C402.2<\/td>C402.2 Recognize the details study of switchgear.<\/td><\/tr>
C402.3<\/td>C402.3 Analyze Relay Design and Construction.<\/td><\/tr>
C402.4<\/td>C402.4 Evaluate Feeder Protection Techniques.<\/td><\/tr>
C402.5<\/td>C402.5 Synthesize Apparatus Protection Strategies.<\/td><\/tr>
C402.6<\/td>C402.6 Understanding concept of Numerical Relays and over-voltage concept.<\/td><\/tr>
43<\/td>C403<\/td>Power Station Engineering<\/td>C403.1<\/td>C403.1 Understand the generation of power by utilising various power sources<\/td><\/tr>
C403.2<\/td>C403.2 Remember the use of steam , its operation in thermal power stations<\/td><\/tr>
C403.3<\/td>C403.3 Discuss the nuclear energy sources, its operation in thermal power stations<\/td><\/tr>
C403.4<\/td>C403.4 Relate the basis of diesel electric power station and hydro electric power station<\/td><\/tr>
C403.5<\/td>C403.5 Identify the basics of gas turbine power station<\/td><\/tr>
C403.6<\/td>C403.6 Examine the tower installation.<\/td><\/tr>
44<\/td>C404<\/td>Mechatronics<\/td>C404.1<\/td>C404.1 Recognize the key elements of mechatronics system and its representation in terms of block diagram.<\/td><\/tr>
C404.2<\/td>C404.2 Analyze the concept of signal processing and use of interfacing systems such as ADC, DAC, digital I\/O.<\/td><\/tr>
C404.3<\/td>C404.3 Interfacing of Sensors, Actuators using appropriate DAQ micro-controller<\/td><\/tr>
C404.4<\/td>C404.4 Asses the time and frequency domain analysis of system model (for control application)<\/td><\/tr>
C404.5<\/td>C404.5  Implementation of PID control in real time systems and Development of PLC ladder programming and implementation in real life system.<\/td><\/tr>
C404.6<\/td>C404.6 Formulate the programming of Microprocessor and Microcontroller  .<\/td><\/tr>
45<\/td>C405<\/td>Green Technology<\/td>C405.1<\/td>C405.1 State the concept of various forms of renewable energy.<\/td><\/tr>
C405.2<\/td>C405.2  Understand the principles of Energy efficient technologies.<\/td><\/tr>
C405.3<\/td>C405.3 Estimate the carbon credits of various activities.<\/td><\/tr>
C405.4<\/td>C405.4 Compare Solar, Wind and bio energy systems, their prospects, Advantages and limitations.<\/td><\/tr>
C405.5<\/td>C405.5 To design processes that are benign and environmentally viable.<\/td><\/tr>
C405.6<\/td>C405.6 Validate the need of Wind Energy and the various components used in energy generation and know the classifications.<\/td><\/tr>
46<\/td>C406<\/td>SOFT COMPUTING<\/td>C406.1<\/td>C406.1 Define importance of applications of soft computing in real life problems.<\/td><\/tr>
C406.2<\/td>C406.2 Explain supervised and unsupervised learning algorithms to find optimized solutions for linear and non-linear problems.<\/td><\/tr>
C406.3<\/td>C406.3 Demonstrate fuzzy systems using knowledge of fuzzy rule based system and fuzzy rule based reasoning.<\/td><\/tr>
C406.4<\/td>C406.4 Analyze derivative free optimization models and optimized search techniques using evolutionary operators.<\/td><\/tr>
C406.5<\/td>C406.5 Evaluate and apply hybrid tools to find optimized solutions for highly complex problems by exploiting advanced features of the tool.  <\/td><\/tr>
C406.6<\/td>C406.6 Devlop soft computing techniques to solve real life problems.<\/td><\/tr>
47<\/td>C407<\/td>Essence of Indian Knowledge Tradition – II<\/td>C407.1<\/td>C407.1 Identify the concept of Traditional knowledge and its importance.<\/td><\/tr>
C407.2<\/td>C407.2 Explain the need and importance of protecting traditional knowledge.<\/td><\/tr>
C407.3<\/td>C407.3 Illustrate the various enactments related to the protection of traditional knowledge.<\/td><\/tr>
C407.4<\/td>C407.4 Interpret the concepts of Intellectual property to protect the traditional knowledge.<\/td><\/tr>
C407.5<\/td>C407.5 Explain the importance of Traditional knowledge in Agriculture and Medicine.<\/td><\/tr>
C407.6<\/td>C407.6 Identify the concept of Traditional knowledge and its importance.<\/td><\/tr>
48<\/td>C408<\/td>MINOR PROJECT<\/td>C408.1<\/td>C408.1Apply engineering principles to solve complex problems.<\/td><\/tr>
C408.2<\/td>C408.2 Design and develop solutions using appropriate tools and standards.<\/td><\/tr>
C408.3<\/td>C408.3 Conduct research to create innovative solutions or enhancements.<\/td><\/tr>
C408.4<\/td>C408.4 Manage project resources and collaborate effectively in a team.<\/td><\/tr>
C408.5<\/td>C408.5 Prepare and deliver clear project documentation and presentations.<\/td><\/tr>
C408.6<\/td>C408.6 Evaluate the project\u2019s ethical, societal, and environmental impact.<\/td><\/tr>
49<\/td>C409<\/td>SEMINAR -2<\/td>C409.1<\/td>C409.1 Outline the topics on modern technology; prepare implementation of the same as the presentation.<\/td><\/tr>
C409.2<\/td>C409.2 Understanding the technologies used by extracting the new things to be implemented by reviewing the journals\/research papers.<\/td><\/tr>
C409.3<\/td>C409.3 Sketch the application of the technology for the use of the mankind.<\/td><\/tr>
C409.4<\/td>C409.4 Analyse and correlate the new technology with the subject of interest for further study.<\/td><\/tr>
C409.5<\/td>C409.5 Evaluate, plan and reframe the technology with the communication skills for a better explanation and presentation.<\/td><\/tr>
C409.6<\/td>C409.6 Modify and design the concept into the realistic world.<\/td><\/tr>
50<\/td>C410<\/td>Comprehensive Viva<\/td>C410.1<\/td>C410.1 State the  engineering knowledge learnt in four year graduation course.<\/td><\/tr>
C410.2<\/td>C410.2 Describe the related academic concept.<\/td><\/tr>
C410.3<\/td>C410.3 Apply knowledge in developing  career in particular field.<\/td><\/tr>
C410.4<\/td>C410.4 Classify different techniques.<\/td><\/tr>
C410.5<\/td>C410.5  Deduce engineering problems.<\/td><\/tr>
C410.6<\/td>C410.6 Review different concept in related concepts of engineering<\/td><\/tr>
51<\/td>C411<\/td>MAJOR PROJECT<\/td>C411.1<\/td>C411.1Apply engineering principles to solve complex problems.<\/td><\/tr>
C411.2<\/td>C411.2 Design and develop solutions using appropriate tools and standards.<\/td><\/tr>
C411.3<\/td>C411.3 Conduct research to create innovative solutions or enhancements.<\/td><\/tr>
C411.4<\/td>C411.4 Manage project resources and collaborate effectively in a team.<\/td><\/tr>
C411.5<\/td>C411.5 Prepare and deliver clear project documentation and presentations.<\/td><\/tr>
C411.6<\/td>C411.6 Evaluate the project\u2019s ethical, societal, and environmental impact.<\/td><\/tr><\/tbody><\/table><\/figure>\n\n\n\n

<\/p>\n","protected":false},"excerpt":{"rendered":"

SL No. Course CODE SUBJECT CO Description of COs 1 C201 Mathematics – 3 C201.1 C201.1 Apply the knowledge of the transformation with Laplace & Fourier series. C201.2 C201.2 Analysis the essential tool of the Laplace & Fourier Transformation. C201.3 Read More …<\/a><\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-146","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/top-autonomous-college-in-odisha.gift.edu.in\/eee\/wp-json\/wp\/v2\/pages\/146","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/top-autonomous-college-in-odisha.gift.edu.in\/eee\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/top-autonomous-college-in-odisha.gift.edu.in\/eee\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/top-autonomous-college-in-odisha.gift.edu.in\/eee\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/top-autonomous-college-in-odisha.gift.edu.in\/eee\/wp-json\/wp\/v2\/comments?post=146"}],"version-history":[{"count":1,"href":"https:\/\/top-autonomous-college-in-odisha.gift.edu.in\/eee\/wp-json\/wp\/v2\/pages\/146\/revisions"}],"predecessor-version":[{"id":147,"href":"https:\/\/top-autonomous-college-in-odisha.gift.edu.in\/eee\/wp-json\/wp\/v2\/pages\/146\/revisions\/147"}],"wp:attachment":[{"href":"https:\/\/top-autonomous-college-in-odisha.gift.edu.in\/eee\/wp-json\/wp\/v2\/media?parent=146"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}