CES Report 2019-20


A0 = No stars; A1 = 1 star; A2 = 2 stars; A3 = 3 stars; A4 = 4 stars; A5 = 5 stars;
Total = [A0]+[A1]+[A2]+[A3]+[A4]+[A5]
Score = ([A0]*0+[A1]*1+[A2]*2+[A3]*3+[A4]*4+[A5]*5) / ([Total]*5)
Max_30 = 6 * ([A0]*0+[A1]*1+[A2]*2+[A3]*3+[A4]*4+[A5]*5) / ([Total])

Course: Semester: Division:

Course Subject CO Outcome A0 A1 A2 A3 A4 A5 Total Score Max_30
AE3-A Applied Mathematics III CO1 Able to find the Laplace transform and inverse Laplace transform of a given function. 3 4 0 5 6 6 24 0.61 18.25
AE3-A Applied Mathematics III CO2 Able to solve the initial value problems and boundary value problems using Laplace transform. 4 2 5 4 8 1 24 0.51 15.25
AE3-A Applied Mathematics III CO3 Able to identify the analytic function, harmonic function and to find the orthogonal trajectories. 4 4 2 4 7 3 24 0.53 15.75
AE3-A Applied Mathematics III CO4 Able to find the bilinear transformation and image of a given geometry from z-plane to w-plane. 4 5 2 1 8 4 24 0.53 16.00
AE3-A Applied Mathematics III CO5 Able to evaluate complex integrals by using suitable theorems and formulae. 5 6 1 4 4 4 24 0.47 14.00
AE3-A Applied Mathematics III CO6 Able to represent the given function in terms of sine and cosine, using Fourier series and to solve the partial differential equations. 6 3 1 5 6 3 24 0.49 14.75
AE3-A Applied Mathematics III CO7 Able to Fit a curve to the data. 6 2 2 3 2 9 24 0.57 17.00
AE3-A Applied Mathematics III CO8 Able to Find correlation coefficient, rank correlation coefficient, regression lines, regression coefficients to the data. 6 2 2 5 4 5 24 0.52 15.50
AE3-A Computer Aided Machine Drawing CO1 Able to use basics principles of drawing, intersection of curves which is needed in sheet metal industry. 6 1 0 2 6 9 24 0.63 19.00
AE3-A Computer Aided Machine Drawing CO2 Able to read and interpret the given drawing by using conventional representation of various machining and mechanical details as per IS convention. 6 1 1 0 4 12 24 0.66 19.75
AE3-A Computer Aided Machine Drawing CO3 Able to draw any type of mechanical system in terms of detail and assembly drawing 6 0 0 2 5 11 24 0.68 20.25
AE3-A Computer Aided Machine Drawing CO4 Able to produce finished drawings of product for manufacturing in the industry using manufacturing considerations i.e. limits fits and tolerance. 6 0 0 3 4 11 24 0.67 20.00
AE3-A Computer Aided Machine Drawing CO5 Able to create 2-D and 3-D models using any standard CAD software with manufacturing considerations. 6 1 0 0 5 12 24 0.68 20.25
AE3-A Material Technology CO1 Able to identify the various types of materials viz.metals, polymers, ceramics and composites and their relevance in engineering 7 0 0 3 6 8 24 0.61 18.25
AE3-A Material Technology CO2 Have understood the importance of various phase transformations in steels and their significance for heat treatments 6 0 0 2 8 8 24 0.65 19.50
AE3-A Material Technology CO3 Have been made aware of different methods used to strengthen materials and will be able to apply them 6 0 1 4 8 5 24 0.59 17.75
AE3-A Material Technology CO4 Understood of the different types of fracture failures and the mechanisms that lead to failure 6 0 2 3 6 7 24 0.60 18.00
AE3-A Material Technology CO5 Able to suggest appropriate methods to eliminate or minimize failure by fatigue 6 1 0 1 7 9 24 0.64 19.25
AE3-A Material Technology CO6 Have understood the importance of composites , nanomaterials and smart materials and their processing 6 2 0 4 6 6 24 0.57 17.00
AE3-A PBL CO1 Was able to plan and design the project 6 0 0 5 4 9 24 0.63 19.00
AE3-A PBL CO2 Theoretical concepts were understood while doing the project 6 2 0 1 9 6 24 0.59 17.75
AE3-A PBL CO3 Understood the importance of modeling software to any project 7 1 0 2 6 8 24 0.59 17.75
AE3-A PBL CO4 Built confidence in me to do more/better projects 6 0 1 3 7 7 24 0.62 18.50
AE3-A PBL CO5 Was able to learn things beyond syllabus 6 0 0 2 7 9 24 0.66 19.75
AE3-A Production Process I CO1 Able to select feasible material deposition technique with respect to the material and the end use. 6 1 0 2 5 10 24 0.64 19.25
AE3-A Production Process I CO2 Able to understand and advocate importance of Quality in in manufacturing. 6 1 0 2 4 11 24 0.65 19.50
AE3-A Production Process I CO3 Able to select and apply non-destructive testing technique to the finished products and installed structures. 6 0 1 3 5 9 24 0.63 19.00
AE3-A Production Process I CO4 Able to be conversant with various polymer processing and manufacturing techniques in use in the industry. 5 0 0 3 6 10 24 0.69 20.75
AE3-A Production Process I CO5 Able to signify the use and the process chronology of powdered metal manufacturing technique. 5 1 0 5 2 11 24 0.66 19.75
AE3-A Strength of Materials CO1 Able to create free body diagrams of parts under various loadings, so as to assess the internal resisting forces and moments. 5 0 1 4 6 8 24 0.65 19.50
AE3-A Strength of Materials CO2 Able to determine the material properties by conducting simple experiments on testing machines; record readings and create graphs, and conclude from the results thus obtained. 5 0 1 1 12 5 24 0.65 19.50
AE3-A Strength of Materials CO3 Able to compute analytically the induced stresses and deflections (failure characteristics) in beams. 5 1 0 1 12 5 24 0.64 19.25
AE3-A Strength of Materials CO4 Able to discriminate between buckling failure and crushing failure in columns and struts. 5 1 1 2 6 9 24 0.65 19.50
AE3-A Strength of Materials CO5 Able to discriminate between material properties i.e., ductility, hardness, toughness, etc. and between different loading conditions i.e. gradual, sudden and impact loads. 5 0 1 1 10 7 24 0.67 20.00
AE3-A Strength of Materials CO6 Able to compute the resultant stresses arising out of combined direct and bending stresses. 5 0 1 2 9 7 24 0.66 19.75
AE3-A Thermodynamics CO1 Able to Demonstrate understanding of basic concept of Thermodynamics 5 1 0 1 9 8 24 0.67 20.00
AE3-A Thermodynamics CO2 Able to Differentiate between quality and quantity of energy, heat and work, enthalpy and entropy etc. 5 0 0 3 4 12 24 0.71 21.25
AE3-A Thermodynamics CO3 Able to Analyse basic power cycles. 5 0 0 2 8 9 24 0.69 20.75
AE3-A Thermodynamics CO4 Able to Apply the law of thermodynamics for various types of systems. 5 0 0 2 7 10 24 0.70 21.00
AE3-A Thermodynamics CO5 Able to explain the concept of Availability and Irreversibility. 4 0 1 1 7 11 24 0.73 22.00
AE3-A Thermodynamics CO6 Able to evaluate amount of work required for reciprocating air compressor. 4 0 0 4 1 15 24 0.76 22.75
AE5-A Automotive Systems CO1 Able to Identify different automotive systems and subsystems. 0 0 0 5 5 16 26 0.88 26.54
AE5-A Automotive Systems CO2 Able to Identify different automotive components. 0 0 0 2 8 16 26 0.91 27.23
AE5-A Automotive Systems CO3 Able to Illustrate working and functions of various automotive components 0 0 1 4 7 14 26 0.86 25.85
AE5-A Automotive Systems CO4 Able to Illustrate working and function of electric drive lines. 0 1 0 4 5 16 26 0.87 26.08
AE5-A Automotive Systems CO5 Able to Comprehend working of Special vehicles through case study. 0 0 2 2 5 17 26 0.88 26.54
AE5-A Automotive Systems CO6 Able to Identify and Demonstrate different vehicle layouts. 0 0 1 5 5 15 26 0.86 25.85
AE5-A Business Communication and Ethics CO1 To hone the writing skills necessary for the design of a precise professional and technical document 0 0 0 7 11 8 26 0.81 24.23
AE5-A Business Communication and Ethics CO2 To develop analytical and logical skills to solve real life problems in interpersonal communication 0 0 0 7 7 12 26 0.84 25.15
AE5-A Business Communication and Ethics CO3 To inculcate professional and ethical attitude 0 0 0 4 10 12 26 0.86 25.85
AE5-A Business Communication and Ethics CO4 To train students for effective formal presentation 0 0 1 3 9 13 26 0.86 25.85
AE5-A Business Communication and Ethics CO5 To enhance employment skills and effective communication skills required for life-long learning 0 0 1 3 10 12 26 0.85 25.62
AE5-A Business Communication and Ethics CO6 To train studens in the techniques of participating effectively in group discussion 0 0 0 7 7 12 26 0.84 25.15
AE5-A Heat Transfer CO1 Able to identify and explain the three modes of heat transfer 0 0 1 7 8 10 26 0.81 24.23
AE5-A Heat Transfer CO2 Able to understand and solve steady state and transient heat conduction problems 0 0 1 5 10 10 26 0.82 24.69
AE5-A Heat Transfer CO3 Able to understand use of fins and estimate heat dissipation rate. Calculate fin effectivness and fin efficiency 0 0 0 8 4 14 26 0.85 25.38
AE5-A Heat Transfer CO4 Able to select and apply empirical correlations to estimate heat transfer coefficients in convective heat transfer applications 0 1 0 8 7 10 26 0.79 23.77
AE5-A Heat Transfer CO5 Able to explain different laws of radiation and estimate radiation heat transfer rate. 0 0 1 7 10 8 26 0.79 23.77
AE5-A Heat Transfer CO6 Able to size and rate different heat exchangers using LMTD and Effectivness NTU appraoch 0 0 1 5 11 9 26 0.82 24.46
AE5-A Internal Combustion Engine CO1 Able to demonstrate the working of different systems and processes of S I Engines. 0 0 3 6 7 10 26 0.78 23.54
AE5-A Internal Combustion Engine CO2 Able to demonstrate the working of different systems and processes of C.I. engines 0 0 3 10 5 8 26 0.74 22.15
AE5-A Internal Combustion Engine CO3 Able to Illustrate the working of lubrication, cooling and supercharging systems. 0 0 2 7 8 9 26 0.78 23.54
AE5-A Internal Combustion Engine CO4 Able to analyze engine performance 0 0 2 7 9 8 26 0.78 23.31
AE5-A Internal Combustion Engine CO5 Able to illustrate the emission norms and emission control. 0 0 4 7 7 8 26 0.75 22.38
AE5-A Internal Combustion Engine CO6 Able to comprehend different technological advances in engines i.e alternate fuel. 0 0 2 10 4 10 26 0.77 23.08
AE5-A Mechanical Measurments and Control CO1 Classify various types of static characteristics and types of errors occurring in the system. 0 0 2 7 11 6 26 0.76 22.85
AE5-A Mechanical Measurments and Control CO2 Able to identify and select proper measuring instrument for specific application. 0 0 1 7 6 12 26 0.82 24.69
AE5-A Mechanical Measurments and Control CO3 Able to illustrate working principle of measuring instruments for liner 0 1 2 9 4 10 26 0.75 22.62
AE5-A Mechanical Measurments and Control CO4 Able to Analyze control system under different time domain. 0 0 4 6 7 9 26 0.76 22.85
AE5-A Mechanical Measurments and Control CO5 Able to study mathematical model and analyze system/process for standard input responses. 0 0 2 5 11 8 26 0.79 23.77
AE5-A Mechanical Measurments and Control CO6 Able to plot, analyze, understand system behavior and its stability using graphical methods. 0 0 1 9 9 7 26 0.77 23.08
AE5-A Machining Sciences and Tool Design CO1 Calculate the various values of various forces invovled in Machining operations 0 1 2 4 13 6 26 0.76 22.85
AE5-A Machining Sciences and Tool Design CO2 Design Various single and Multipoint cutting tools 0 0 2 6 7 11 26 0.81 24.23
AE5-A Machining Sciences and Tool Design CO3 Analyis heat generation in machining operation and coolant operations 0 0 3 6 6 11 26 0.79 23.77
AE5-A Machining Sciences and Tool Design CO4 Illustrate the properties of Various cutting tool Materials and hence select an appropriate tool Material for particular machining application 0 2 2 5 6 11 26 0.77 23.08
AE5-A Machining Sciences and Tool Design CO5 Demonstarte interrelationship between cutting parameter and machining performances measures like power requirement , cutting time, tool life and surface finish 0 2 1 5 7 11 26 0.78 23.54
AE5-A Machining Sciences and Tool Design CO6 Analysis Economics of machining operations 0 2 1 5 10 8 26 0.76 22.85
AE7-A Automotive Design CO1 Able to design Gearbox 0 0 1 7 7 24 39 0.88 26.31
AE7-A Automotive Design CO2 Able to Design various Engine components. 0 0 0 7 8 24 39 0.89 26.62
AE7-A Automotive Design CO3 Able to Design clutches with drive lines 0 0 1 4 9 25 39 0.90 26.92
AE7-A Automotive Design CO4 Able to Design Brakes 0 1 0 9 6 23 39 0.86 25.69
AE7-A Automotive Design CO5 Able to design Cam and follower for given requirement 0 0 2 6 7 24 39 0.87 26.15
AE7-A Automotive Design CO6 Able to Select standard components such as Bearings/belts and also able to design them. 0 0 1 5 12 21 39 0.87 26.15
AE7-A Automotive Embedded Systems CO1 Able to illustrate basic concepts of embedded systems. 0 0 1 4 8 26 39 0.90 27.08
AE7-A Automotive Embedded Systems CO2 Able to understand various types of communication protocols used in Automobiles. 0 1 1 4 9 24 39 0.88 26.31
AE7-A Automotive Embedded Systems CO3 Able to demonstrate various types of X by wire technologies with its challenges and opportunities. 0 0 1 5 10 23 39 0.88 26.46
AE7-A Automotive Embedded Systems CO4 Able to identify various hardware modules used in embedded system. 0 0 0 5 11 23 39 0.89 26.77
AE7-A Automotive Embedded Systems CO5 Able to recognize tools for software development from Automobile viewpoint. 0 1 1 4 10 23 39 0.87 26.15
AE7-A Automotive Embedded Systems CO6 Able to comprehend embedded systems used in automobiles like power windows using different case studies. 0 1 0 5 10 23 39 0.88 26.31
AE7-A Autotronics CO1 Able to Illustrate working of different batteries and fuel cells used in automobiles 0 0 0 7 9 23 39 0.88 26.46
AE7-A Autotronics CO2 Able to Demonstrate working of Charging system used in automobiles. 0 0 1 4 12 22 39 0.88 26.46
AE7-A Autotronics CO3 Able to Illustrate working of starting system and drives used in automobiles. 0 0 1 5 10 23 39 0.88 26.46
AE7-A Autotronics CO4 Able to understand lighting and wiring systems in automobile. 0 1 3 2 10 23 39 0.86 25.85
AE7-A Autotronics CO5 Able to Comprehend working of different sensors and actuators used in automobiles. 0 0 1 7 8 23 39 0.87 26.15
AE7-A Autotronics CO6 Able to Elaborate working of Electronic control module (ECM) with its importance in vehicle operation. 0 0 0 7 9 23 39 0.88 26.46
AE7-A CAD/CAM/CAE CO1 Identify proper computer graphics techniques for geometric modelling. 0 2 2 9 8 18 39 0.79 23.85
AE7-A CAD/CAM/CAE CO2 Transform, manipulate objects & store and manage data and interfacing through API. 0 2 3 9 10 15 39 0.77 23.08
AE7-A CAD/CAM/CAE CO3 CAM Toolpath Creation and NC- G code output. 0 2 3 5 7 22 39 0.83 24.77
AE7-A CAD/CAM/CAE CO4 Use rapid prototyping and tooling concepts in any real life applications. 0 2 4 7 6 20 39 0.79 23.85
AE7-A CAD/CAM/CAE CO5 Identify the tools for Analysis of a complex engineering component. 0 2 4 8 7 18 39 0.78 23.38
AE7-A CAD/CAM/CAE CO6 Apply the concepts of computer integrated manufacturing. 0 4 2 7 7 19 39 0.78 23.38
CS3-A Applied Mathematics-III CO1 Understand complex variable theory,application of harmonic conjugate to get orthogonal trajectories and analytic functios 2 1 0 10 15 31 59 0.83 25.02
CS3-B Applied Mathematics-III CO1 Understand complex variable theory,application of harmonic conjugate to get orthogonal trajectories and analytic functios 0 1 2 2 11 19 35 0.86 25.71
CS3-A Applied Mathematics-III CO2 Able to find the image in the w-plane for the given geometry in Z-plane by complex transformation. 1 0 2 11 14 31 59 0.84 25.22
CS3-B Applied Mathematics-III CO2 Able to find the image in the w-plane for the given geometry in Z-plane by complex transformation. 0 0 2 4 8 21 35 0.87 26.23
CS3-A Applied Mathematics-III CO3 Able to apply Laplace transform and inverse Laplace transform of various functions in solving an ordinary differential equation. 1 1 1 7 12 37 59 0.87 26.14
CS3-B Applied Mathematics-III CO3 Able to apply Laplace transform and inverse Laplace transform of various functions in solving an ordinary differential equation. 0 1 0 2 6 26 35 0.92 27.60
CS3-A Applied Mathematics-III CO4 Expand the periodic function by using fourier series and complex form of fourier series . 1 1 1 12 14 30 59 0.83 24.92
CS3-B Applied Mathematics-III CO4 Expand the periodic function by using fourier series and complex form of fourier series . 0 1 2 1 9 22 35 0.88 26.40
CS3-A Applied Mathematics-III CO5 Able to find Z-transform and its inverse of the given sequence. 1 1 1 11 16 29 59 0.83 24.92
CS3-B Applied Mathematics-III CO5 Able to find Z-transform and its inverse of the given sequence. 0 1 2 1 10 21 35 0.87 26.23
CS3-A Applied Mathematics-III CO6 Apply the concept of correlation and regression to the engeneering problems. 1 0 1 11 11 35 59 0.86 25.83
CS3-B Applied Mathematics-III CO6 Apply the concept of correlation and regression to the engeneering problems. 0 0 0 2 15 18 35 0.89 26.74
CS3-A Digital Logic Design and Analysis CO1 Able to Remember the basic need of various logic gates covered in the subject. 4 0 1 5 17 32 59 0.83 24.92
CS3-B Digital Logic Design and Analysis CO1 Able to Remember the basic need of various logic gates covered in the subject. 2 0 0 0 12 21 35 0.87 26.23
CS3-A Digital Logic Design and Analysis CO2 Able to Understand basic operations of logic gates and Universal gates to implement various logic circuits 1 0 2 5 19 32 59 0.86 25.93
CS3-B Digital Logic Design and Analysis CO2 Able to Understand basic operations of logic gates and Universal gates to implement various logic circuits 0 0 0 1 8 26 35 0.94 28.29
CS3-A Digital Logic Design and Analysis CO3 Able to Apply knowledge acquired in this subject to understand applications of various Combinational ckts such as Encoder, Decoder, MUX, DEMUX, Adder, subtractor, Comparator etc. 1 0 2 9 14 33 59 0.85 25.63
CS3-B Digital Logic Design and Analysis CO3 Able to Apply knowledge acquired in this subject to understand applications of various Combinational ckts such as Encoder, Decoder, MUX, DEMUX, Adder, subtractor, Comparator etc. 0 0 1 3 8 23 35 0.90 27.09
CS3-A Digital Logic Design and Analysis CO4 Able to Analyze the working of Sequential ckts using Timing diagrams 1 0 3 15 11 29 59 0.81 24.41
CS3-B Digital Logic Design and Analysis CO4 Able to Analyze the working of Sequential ckts using Timing diagrams 0 0 2 3 6 24 35 0.90 26.91
CS3-A Digital Logic Design and Analysis CO5 Able to Evaluate optimized logic expression using different techniques studied in this subject such as boolean algebra, K-Map etc. 1 0 1 7 18 32 59 0.86 25.93
CS3-B Digital Logic Design and Analysis CO5 Able to Evaluate optimized logic expression using different techniques studied in this subject such as boolean algebra, K-Map etc. 0 0 0 2 8 25 35 0.93 27.94
CS3-A Digital Logic Design and Analysis CO6 Able to Use Digital Trainer Kit for designing & implementing various logic ckts studied in this subject 1 1 1 11 14 31 59 0.84 25.12
CS3-B Digital Logic Design and Analysis CO6 Able to Use Digital Trainer Kit for designing & implementing various logic ckts studied in this subject 0 0 0 5 6 24 35 0.91 27.26
CS3-A Discrete Mathematics CO1 Able to reason logically. 1 1 1 5 18 33 59 0.86 25.93
CS3-B Discrete Mathematics CO1 Able to reason logically. 0 0 0 3 11 21 35 0.90 27.09
CS3-A Discrete Mathematics CO2 Able to understand use of functions ,graphs in programming applications. 1 1 0 9 16 32 59 0.85 25.63
CS3-B Discrete Mathematics CO2 Able to understand use of functions ,graphs in programming applications. 0 0 0 4 9 22 35 0.90 27.09
CS3-A Discrete Mathematics CO3 Able to understand use of groups and codes in encoding and decoding. 1 0 1 7 17 33 59 0.87 26.03
CS3-B Discrete Mathematics CO3 Able to understand use of groups and codes in encoding and decoding. 0 0 0 3 9 23 35 0.91 27.43
CS3-A Discrete Mathematics CO4 Understand the notion of mathematical thinking ,mathematical proofs and to apply them in problem solving. 1 1 0 9 16 32 59 0.85 25.63
CS3-B Discrete Mathematics CO4 Understand the notion of mathematical thinking ,mathematical proofs and to apply them in problem solving. 0 0 1 3 9 22 35 0.90 26.91
CS3-A Discrete Mathematics CO5 Apply discrete structures into other computing problems such as formal specification,verification,artificial intelligence ,cryptography,Data Analysis and Data Mining etc. 1 1 1 10 17 29 59 0.83 25.02
CS3-B Discrete Mathematics CO5 Apply discrete structures into other computing problems such as formal specification,verification,artificial intelligence ,cryptography,Data Analysis and Data Mining etc. 0 0 1 3 11 20 35 0.89 26.57
CS3-A Discrete Mathematics CO6 Able to understand types of realtions,Diagraph and lattices. 1 1 1 3 20 33 59 0.87 26.14
CS3-B Discrete Mathematics CO6 Able to understand types of realtions,Diagraph and lattices. 0 0 0 3 9 23 35 0.91 27.43
CS3-A Data Structures CO1 Able to remember the functionality and need of various data structures covered   in the subject. 2 2 0 11 13 31 59 0.82 24.61
CS3-B Data Structures CO1 Able to remember the functionality and need of various data structures covered   in the subject. 0 1 0 5 9 20 35 0.87 26.06
CS3-A Data Structures CO2 Able to understand basic operations & algorithms to implement various Data structures and their scope 1 2 3 7 14 32 59 0.83 24.92
CS3-B Data Structures CO2 Able to understand basic operations & algorithms to implement various Data structures and their scope 0 0 1 5 9 20 35 0.87 26.23
CS3-A Data Structures CO3 Able to apply knowledge acquired in this subject to understand applications of various data structures like Stack, Queue, Linked list, Tree , Graph 0 2 4 6 18 29 59 0.83 24.92
CS3-B Data Structures CO3 Able to apply knowledge acquired in this subject to understand applications of various data structures like Stack, Queue, Linked list, Tree , Graph 0 0 1 4 10 20 35 0.88 26.40
CS3-A Data Structures CO4 Able to analyze use of various sorting & searching techniques used in computer programming . 1 2 3 4 19 30 59 0.83 25.02
CS3-B Data Structures CO4 Able to analyze use of various sorting & searching techniques used in computer programming . 0 0 0 5 8 22 35 0.90 26.91
CS3-A Data Structures CO5 Able to evaluate the diffenence between Linear & non Linear data Structures studied in this subject. 1 2 2 9 14 31 59 0.83 24.81
CS3-B Data Structures CO5 Able to evaluate the diffenence between Linear & non Linear data Structures studied in this subject. 0 0 0 3 9 23 35 0.91 27.43
CS3-A Data Structures CO6 Able to use softwares like C for designing & implementing various Data structures studied in this subject 1 2 2 9 15 30 59 0.82 24.71
CS3-B Data Structures CO6 Able to use softwares like C for designing & implementing various Data structures studied in this subject 0 0 2 3 10 20 35 0.87 26.23
CS3-A Electronic Circuits and Communication Fundamentals CO1 To understand the use of semiconductor devices in circuits and analyze them. 6 0 2 5 14 32 59 0.80 23.90
CS3-B Electronic Circuits and Communication Fundamentals CO1 To understand the use of semiconductor devices in circuits and analyze them. 0 0 0 5 12 18 35 0.87 26.23
CS3-A Electronic Circuits and Communication Fundamentals CO2 To understand importance of oscillators and power amplifiers in communication system. 2 0 1 10 15 31 59 0.84 25.12
CS3-B Electronic Circuits and Communication Fundamentals CO2 To understand importance of oscillators and power amplifiers in communication system. 0 0 0 6 10 19 35 0.87 26.23
CS3-A Electronic Circuits and Communication Fundamentals CO3 To understand basic concepts of operational amplifier and their applications. 2 1 0 7 17 32 59 0.85 25.42
CS3-B Electronic Circuits and Communication Fundamentals CO3 To understand basic concepts of operational amplifier and their applications. 0 0 0 4 9 22 35 0.90 27.09
CS3-A Electronic Circuits and Communication Fundamentals CO4 To understand the fundamental concepts of electronic communication. 2 1 1 7 13 35 59 0.85 25.53
CS3-B Electronic Circuits and Communication Fundamentals CO4 To understand the fundamental concepts of electronic communication. 0 0 0 4 12 19 35 0.89 26.57
CS3-A Electronic Circuits and Communication Fundamentals CO5 To apply knowledge of electronic devices and circuits to communication applications. 2 1 2 10 10 34 59 0.83 24.92
CS3-B Electronic Circuits and Communication Fundamentals CO5 To apply knowledge of electronic devices and circuits to communication applications. 0 0 0 4 7 24 35 0.91 27.43
CS3-A Electronic Circuits and Communication Fundamentals CO6 To study basic concepts of information theory. 2 1 0 9 17 30 59 0.83 25.02
CS3-B Electronic Circuits and Communication Fundamentals CO6 To study basic concepts of information theory. 0 0 0 5 9 21 35 0.89 26.74
CS3-A Java Programming Lab CO1 To apply fundamental programming constructs. 1 0 0 4 17 37 59 0.90 26.95
CS3-B Java Programming Lab CO1 To apply fundamental programming constructs. 1 0 0 1 6 27 35 0.93 27.77
CS3-A Java Programming Lab CO2 To illustrate the concept of packages, classes and objects. 2 0 0 5 17 35 59 0.87 26.24
CS3-B Java Programming Lab CO2 To illustrate the concept of packages, classes and objects. 0 0 0 2 5 28 35 0.95 28.46
CS3-A Java Programming Lab CO3 To elaborate the concept of strings, arrays and vectors. 1 0 0 8 14 36 59 0.88 26.44
CS3-B Java Programming Lab CO3 To elaborate the concept of strings, arrays and vectors. 0 0 0 2 5 28 35 0.95 28.46
CS3-A Java Programming Lab CO4 To implement the concept of inheritance and interfaces. 1 0 0 8 16 34 59 0.87 26.24
CS3-B Java Programming Lab CO4 To implement the concept of inheritance and interfaces. 0 0 0 2 5 28 35 0.95 28.46
CS3-A Java Programming Lab CO5 To implement the notion of exception handling and multithreading. 2 0 0 7 15 35 59 0.87 26.03
CS3-B Java Programming Lab CO5 To implement the notion of exception handling and multithreading. 0 0 1 4 5 25 35 0.91 27.26
CS3-A Java Programming Lab CO6 To develop GUI based application. 0 0 0 6 17 36 59 0.90 27.05
CS3-B Java Programming Lab CO6 To develop GUI based application. 0 0 0 5 5 25 35 0.91 27.43
CS3-A Project Based Learning CO1 Able to formulate a problem definition and select appropriate hardware and software. 1 1 0 7 19 31 59 0.86 25.73
CS3-B Project Based Learning CO1 Able to formulate a problem definition and select appropriate hardware and software. 0 0 0 3 11 21 35 0.90 27.09
CS3-A Project Based Learning CO2 Able to analyse and practically implement theoretical concepts. 1 1 0 6 15 36 59 0.88 26.34
CS3-B Project Based Learning CO2 Able to analyse and practically implement theoretical concepts. 0 0 0 2 12 21 35 0.91 27.26
CS3-A Project Based Learning CO3 Able to think critically and apply different problem solving approaches for a given problem statement. 1 1 1 6 13 37 59 0.87 26.24
CS3-B Project Based Learning CO3 Able to think critically and apply different problem solving approaches for a given problem statement. 0 0 0 3 10 22 35 0.91 27.26
CS3-A Project Based Learning CO4 Able to develop self-learning skills and presentation skills 1 1 1 7 13 36 59 0.87 26.03
CS3-B Project Based Learning CO4 Able to develop self-learning skills and presentation skills 0 0 0 2 11 22 35 0.91 27.43
CS3-A Project Based Learning CO5 Able to develop team spirit and work in multi-disciplinary teams. 2 1 0 4 17 35 59 0.87 26.03
CS3-B Project Based Learning CO5 Able to develop team spirit and work in multi-disciplinary teams. 1 0 0 1 12 21 35 0.89 26.74
CS5-A Advance Algorithm CO1 To understand different techniques for algorithm 11 0 0 14 11 21 57 0.67 20.11
CS5-B Advance Algorithm CO1 To understand different techniques for algorithm 14 1 0 7 3 13 38 0.52 15.63
CS5-A Advance Algorithm CO2 "To understand randomization in the analysis of algorithm 11 0 0 13 10 23 57 0.68 20.42
CS5-B Advance Algorithm CO2 "To understand randomization in the analysis of algorithm 14 1 1 5 4 13 38 0.52 15.63
CS5-A Advance Algorithm CO3 Able to analyse advance data structure like red black tree , binomial heap 11 0 1 5 14 26 57 0.71 21.37
CS5-B Advance Algorithm CO3 Able to analyse advance data structure like red black tree , binomial heap 14 1 0 3 7 13 38 0.54 16.26
CS5-A Advance Algorithm CO4 "To understand randomization in the analysis of algorithm 11 0 4 10 11 21 57 0.66 19.68
CS5-B Advance Algorithm CO4 "To understand randomization in the analysis of algorithm 14 1 0 3 8 12 38 0.54 16.11
CS5-A Advance Algorithm CO5 Able to analyse various flow network 10 0 1 7 14 25 57 0.72 21.47
CS5-B Advance Algorithm CO5 Able to analyse various flow network 14 2 1 3 2 16 38 0.53 15.95
CS5-A Advance Algorithm CO6 To understand different polynomial and non polynomial algorithm 11 0 3 12 6 25 57 0.67 20.11
CS5-B Advance Algorithm CO6 To understand different polynomial and non polynomial algorithm 14 1 0 3 6 14 38 0.55 16.42
CS5-A Advance Operating System CO1 To understand design issues of Advanced Operating systems. 1 0 1 2 2 6 12 0.77 23.00
CS5-B Advance Operating System CO1 To understand design issues of Advanced Operating systems. 0 2 0 3 9 4 18 0.74 22.33
CS5-A Advance Operating System CO2 To understand the architecture, kernel and file management of Unix operating system. 1 0 1 1 4 5 12 0.77 23.00
CS5-B Advance Operating System CO2 To understand the architecture, kernel and file management of Unix operating system. 0 2 0 5 7 4 18 0.72 21.67
CS5-A Advance Operating System CO3 To understand basic concepts and need of Distributed operating systems. 1 0 0 2 5 4 12 0.77 23.00
CS5-B Advance Operating System CO3 To understand basic concepts and need of Distributed operating systems. 0 1 1 5 4 7 18 0.77 23.00
CS5-A Advance Operating System CO4 To understand concepts and working of different advanced Operating systems like Multiprocessor OS, Real time OS, Mobile OS. 0 1 1 4 0 6 12 0.75 22.50
CS5-B Advance Operating System CO4 To understand concepts and working of different advanced Operating systems like Multiprocessor OS, Real time OS, Mobile OS. 0 2 1 4 6 5 18 0.72 21.67
CS5-A Business Comm. & Ethics CO1 To hone the writing skills necessary for the design of a precise professional and technical document. 0 0 1 7 27 22 57 0.85 25.37
CS5-B Business Comm. & Ethics CO1 To hone the writing skills necessary for the design of a precise professional and technical document. 1 0 0 3 15 19 38 0.86 25.89
CS5-A Business Comm. & Ethics CO2 To develop analytical and logical skills to solve real life problems in interpersonal communication. 0 0 1 6 19 31 57 0.88 26.42
CS5-B Business Comm. & Ethics CO2 To develop analytical and logical skills to solve real life problems in interpersonal communication. 1 0 0 4 13 20 38 0.86 25.89
CS5-A Business Comm. & Ethics CO3 To inculcate professional and ethical attitude. 0 0 1 3 20 33 57 0.90 26.95
CS5-B Business Comm. & Ethics CO3 To inculcate professional and ethical attitude. 2 0 0 3 12 21 38 0.85 25.58
CS5-A Business Comm. & Ethics CO4 To train students for effective formal presentation. 1 0 0 8 19 29 57 0.86 25.79
CS5-B Business Comm. & Ethics CO4 To train students for effective formal presentation. 1 0 1 1 14 21 38 0.87 26.21
CS5-A Business Comm. & Ethics CO5 To enhance employment skills and effective communication skills required for life-long learning. 2 0 2 7 19 27 57 0.83 24.84
CS5-B Business Comm. & Ethics CO5 To enhance employment skills and effective communication skills required for life-long learning. 1 0 1 0 15 21 38 0.88 26.37
CS5-A Business Comm. & Ethics CO6 To train students in the techniques of participating effectively in group discussion. 2 0 2 6 20 27 57 0.83 24.95
CS5-B Business Comm. & Ethics CO6 To train students in the techniques of participating effectively in group discussion. 1 0 0 4 9 24 38 0.88 26.53
CS5-A Computer Network CO1 Demonstrate the concepts of data communication at physical layer and compare ISO - OSI model with TCP/IP model. 0 1 6 15 15 20 57 0.76 22.95
CS5-B Computer Network CO1 Demonstrate the concepts of data communication at physical layer and compare ISO - OSI model with TCP/IP model. 1 0 0 6 14 17 38 0.84 25.11
CS5-A Computer Network CO2 Demonstrate the knowledge of networking protocols at data link layer 0 1 5 13 17 21 57 0.78 23.47
CS5-B Computer Network CO2 Demonstrate the knowledge of networking protocols at data link layer 1 0 2 8 12 15 38 0.79 23.84
CS5-A Computer Network CO3 Design the network using IP addressing and subnetting / supernetting schemes 0 1 8 13 10 25 57 0.78 23.26
CS5-B Computer Network CO3 Design the network using IP addressing and subnetting / supernetting schemes 1 0 2 6 14 15 38 0.81 24.16
CS5-A Computer Network CO4 Analyze various routing algorithms and protocols at network layer. 1 4 5 10 17 20 57 0.74 22.32
CS5-B Computer Network CO4 Analyze various routing algorithms and protocols at network layer. 1 0 2 11 6 18 38 0.79 23.84
CS5-A Computer Network CO5 Analyze transport layer protocols and congestion control algorithms 0 1 7 13 14 22 57 0.77 23.16
CS5-B Computer Network CO5 Analyze transport layer protocols and congestion control algorithms 1 2 2 5 11 17 38 0.79 23.68
CS5-A Computer Network CO6 Explore protocols at application layer 2 3 6 10 18 18 57 0.73 21.79
CS5-B Computer Network CO6 Explore protocols at application layer 1 1 0 10 9 17 38 0.80 24.00
CS5-A Database Management System CO1 Understand the fundamentals of a database systems. 1 0 2 14 17 23 57 0.80 24.11
CS5-B Database Management System CO1 Understand the fundamentals of a database systems. 1 1 1 7 9 19 38 0.82 24.47
CS5-A Database Management System CO2 Design and draw ER and EER diagram for the real life problems. 0 0 4 11 21 21 57 0.81 24.21
CS5-B Database Management System CO2 Design and draw ER and EER diagram for the real life problems. 1 0 2 8 13 14 38 0.79 23.68
CS5-A Database Management System CO3 Convert conceptual model to relational model and formulate relational algebra queries. 1 0 4 16 13 23 57 0.78 23.47
CS5-B Database Management System CO3 Convert conceptual model to relational model and formulate relational algebra queries. 1 0 3 8 13 13 38 0.77 23.21
CS5-A Database Management System CO4 Design and querying database using SQL. 0 0 7 8 22 20 57 0.79 23.79
CS5-B Database Management System CO4 Design and querying database using SQL. 1 0 3 8 10 16 38 0.79 23.68
CS5-A Database Management System CO5 Analyze and apply concepts of normalization to relational database design. 0 0 4 15 15 23 57 0.80 24.00
CS5-B Database Management System CO5 Analyze and apply concepts of normalization to relational database design. 1 0 3 5 11 18 38 0.82 24.47
CS5-A Database Management System CO6 Understand the concept of transaction, concurrency and recovery. 0 0 3 9 23 22 57 0.82 24.74
CS5-B Database Management System CO6 Understand the concept of transaction, concurrency and recovery. 1 1 1 5 13 17 38 0.82 24.47
CS5-A Microprocessor CO1 Discribe architecture of x86 processor 0 0 1 7 16 33 57 0.88 26.53
CS5-B Microprocessor CO1 Discribe architecture of x86 processor 1 1 0 3 11 22 38 0.86 25.89
CS5-A Microprocessor CO2 Interpret the instruction of 8086 and write the assembly and mixed language programs. 0 0 1 9 15 32 57 0.87 26.21
CS5-B Microprocessor CO2 Interpret the instruction of 8086 and write the assembly and mixed language programs. 1 0 1 4 13 19 38 0.85 25.42
CS5-A Microprocessor CO3 Explain the concept of intrrupts. 0 0 1 7 14 35 57 0.89 26.74
CS5-B Microprocessor CO3 Explain the concept of intrrupts. 1 0 0 5 8 24 38 0.88 26.37
CS5-A Microprocessor CO4 Indentify the specification of peripheral chip 0 0 0 12 10 35 57 0.88 26.42
CS5-B Microprocessor CO4 Indentify the specification of peripheral chip 1 0 0 4 12 21 38 0.87 26.05
CS5-A Microprocessor CO5 Design 8086 based system using memory and peripheral chips 0 0 0 7 17 33 57 0.89 26.74
CS5-B Microprocessor CO5 Design 8086 based system using memory and peripheral chips 1 0 2 6 9 20 38 0.83 24.95
CS5-A Microprocessor CO6 Appraise the architecture of advanced prosessor. 0 0 0 8 17 32 57 0.88 26.53
CS5-B Microprocessor CO6 Appraise the architecture of advanced prosessor. 2 0 1 5 12 18 38 0.82 24.47
CS5-A Project Based Learning CO1 Able to formulate a problem definition and select appropriate hardware and software. 2 2 4 8 22 19 57 0.76 22.84
CS5-B Project Based Learning CO1 Able to formulate a problem definition and select appropriate hardware and software. 1 0 2 4 14 17 38 0.83 24.79
CS5-A Project Based Learning CO2 Able to analyse and practically implement theoretical concepts. 0 2 8 8 16 23 57 0.78 23.26
CS5-B Project Based Learning CO2 Able to analyse and practically implement theoretical concepts. 1 0 1 5 14 17 38 0.83 24.95
CS5-A Project Based Learning CO3 Able to think critically and apply different problem solving approaches for a given problem statement. 0 2 8 10 12 25 57 0.78 23.26
CS5-B Project Based Learning CO3 Able to think critically and apply different problem solving approaches for a given problem statement. 1 0 1 6 12 18 38 0.83 24.95
CS5-A Project Based Learning CO4 Able to develop self-learning skills and presentation skills 0 3 1 11 13 29 57 0.82 24.74
CS5-B Project Based Learning CO4 Able to develop self-learning skills and presentation skills 1 0 0 5 14 18 38 0.85 25.42
CS5-A Project Based Learning CO5 Able to develop team spirit and work in multi-disciplinary teams. 0 2 6 10 14 25 57 0.79 23.68
CS5-B Project Based Learning CO5 Able to develop team spirit and work in multi-disciplinary teams. 1 0 1 8 10 18 38 0.82 24.63
CS5-A Theory of Computer Science CO1 Able to Identify the central concepts in theory of computation and differentiate between deterministic and nondeterministic automata, also obtain equivalence of NFA and DFA. 1 0 0 7 27 22 57 0.84 25.16
CS5-B Theory of Computer Science CO1 Able to Identify the central concepts in theory of computation and differentiate between deterministic and nondeterministic automata, also obtain equivalence of NFA and DFA. 1 0 1 4 11 21 38 0.86 25.74
CS5-A Theory of Computer Science CO2 Able to understand the equivalence of languages described by finite automata and regular expressions. 0 0 0 8 20 29 57 0.87 26.21
CS5-B Theory of Computer Science CO2 Able to understand the equivalence of languages described by finite automata and regular expressions. 1 0 0 7 8 22 38 0.86 25.74
CS5-A Theory of Computer Science CO3 Able to design regular, context free grammars while recognizing the strings and tokens. 0 0 0 9 21 27 57 0.86 25.89
CS5-B Theory of Computer Science CO3 Able to design regular, context free grammars while recognizing the strings and tokens. 1 0 0 7 9 21 38 0.85 25.58
CS5-A Theory of Computer Science CO4 Able to design pushdown automata to recognize the language. 0 0 0 7 25 25 57 0.86 25.89
CS5-B Theory of Computer Science CO4 Able to design pushdown automata to recognize the language. 1 0 1 3 13 20 38 0.86 25.74
CS5-A Theory of Computer Science CO5 Able to develop an understanding of computation through Turing Machine. 0 0 1 10 21 25 57 0.85 25.37
CS5-B Theory of Computer Science CO5 Able to develop an understanding of computation through Turing Machine. 1 0 0 7 10 20 38 0.85 25.42
CS5-A Theory of Computer Science CO6 Able to understand and differentiate different machines 0 0 2 7 23 25 57 0.85 25.47
CS5-B Theory of Computer Science CO6 Able to understand and differentiate different machines 1 0 2 3 11 21 38 0.85 25.58
CS5-A Web Design Lab CO1 Able to understand the core concepts and features of Web Technology 0 2 6 12 18 19 57 0.76 22.84
CS5-B Web Design Lab CO1 Able to understand the core concepts and features of Web Technology 1 1 1 5 11 19 38 0.83 24.79
CS5-A Web Design Lab CO2 Able to develop static web pages using HTML5 and CSS3 0 3 4 13 14 23 57 0.78 23.26
CS5-B Web Design Lab CO2 Able to develop static web pages using HTML5 and CSS3 1 0 2 3 11 21 38 0.85 25.58
CS5-A Web Design Lab CO3 Able to apply client side validation and develop dynamic web pages using JavaScript and JQuery. 0 2 2 23 13 17 57 0.74 22.32
CS5-B Web Design Lab CO3 Able to apply client side validation and develop dynamic web pages using JavaScript and JQuery. 1 0 3 3 14 17 38 0.82 24.63
CS5-A Web Design Lab CO4 Able to apply client and server side technologies and create Interactive web pages using PHP , AJAX with database connectivity using MySQL. 0 5 3 17 13 19 57 0.73 22.00
CS5-B Web Design Lab CO4 Able to apply client and server side technologies and create Interactive web pages using PHP , AJAX with database connectivity using MySQL. 1 1 1 6 8 21 38 0.83 24.95
CS5-A Web Design Lab CO5 Able to understand the basics of XML, DTD and XSL and develop web pages using XML / XSLT. 0 5 8 14 12 18 57 0.71 21.16
CS5-B Web Design Lab CO5 Able to understand the basics of XML, DTD and XSL and develop web pages using XML / XSLT. 1 1 2 8 8 18 38 0.79 23.84
CS5-A Web Design Lab CO6 Able to analyze end user requirements and create web application using appropriate web technologies and web development framework 0 6 4 14 17 16 57 0.72 21.47
CS5-B Web Design Lab CO6 Able to analyze end user requirements and create web application using appropriate web technologies and web development framework 1 0 1 7 12 17 38 0.82 24.63
CS7-A Artificial Intelligence and Soft Computing CO1 Identify the various characteristics of Artificial Intelligence and Soft Computing techniques. 1 1 1 6 11 15 35 0.80 24.00
CS7-B Artificial Intelligence and Soft Computing CO1 Identify the various characteristics of Artificial Intelligence and Soft Computing techniques. 1 3 9 9 13 16 51 0.71 21.18
CS7-A Artificial Intelligence and Soft Computing CO2 Choose an appropriate problem solving method for an agent to find a sequence of actions to reach the goal state. 0 1 2 7 7 18 35 0.82 24.69
CS7-B Artificial Intelligence and Soft Computing CO2 Choose an appropriate problem solving method for an agent to find a sequence of actions to reach the goal state. 1 1 9 9 13 18 51 0.74 22.12
CS7-A Artificial Intelligence and Soft Computing CO3 Analyse the strength and weakness of AI approaches to knowledge representation, reasoning and planning. 0 1 0 8 11 15 35 0.82 24.69
CS7-B Artificial Intelligence and Soft Computing CO3 Analyse the strength and weakness of AI approaches to knowledge representation, reasoning and planning. 1 3 5 13 12 17 51 0.73 21.76
CS7-A Artificial Intelligence and Soft Computing CO4 Construct supervised and unsupervised ANN for real world applications. 0 1 2 9 6 17 35 0.81 24.17
CS7-B Artificial Intelligence and Soft Computing CO4 Construct supervised and unsupervised ANN for real world applications. 1 5 3 13 14 15 51 0.71 21.29
CS7-A Artificial Intelligence and Soft Computing CO5 Design fuzzy controller system. 0 1 1 8 6 19 35 0.83 25.03
CS7-B Artificial Intelligence and Soft Computing CO5 Design fuzzy controller system. 1 5 4 14 9 18 51 0.71 21.29
CS7-A Artificial Intelligence and Soft Computing CO6 Apply Hybrid approach for expert system design. 0 1 2 8 8 16 35 0.81 24.17
CS7-B Artificial Intelligence and Soft Computing CO6 Apply Hybrid approach for expert system design. 2 6 7 10 10 16 51 0.67 20.00
CS7-A Advance System Security and Digital Forensics CO1 Able to understand cyber attacks and apply access control policies and control mechanisms. 0 0 0 3 0 9 12 0.90 27.00
CS7-B Advance System Security and Digital Forensics CO1 Able to understand cyber attacks and apply access control policies and control mechanisms. 1 0 1 4 2 4 12 0.70 21.00
CS7-A Advance System Security and Digital Forensics CO2 Able to identify malicious code and targeted malicious code. 0 0 0 3 0 9 12 0.90 27.00
CS7-B Advance System Security and Digital Forensics CO2 Able to identify malicious code and targeted malicious code. 1 1 1 3 3 3 12 0.65 19.50
CS7-A Advance System Security and Digital Forensics CO3 Able to Detect and counter threats to web applications. 0 0 0 4 0 8 12 0.87 26.00
CS7-B Advance System Security and Digital Forensics CO3 Able to Detect and counter threats to web applications. 1 1 2 4 2 2 12 0.58 17.50
CS7-A Advance System Security and Digital Forensics CO4 Able to understand the vulnerabilities of Wi-Fi networks and explore different measures to secure wireless protocols 0 0 0 4 4 4 12 0.80 24.00
CS7-B Advance System Security and Digital Forensics CO4 Able to understand the vulnerabilities of Wi-Fi networks and explore different measures to secure wireless protocols 1 0 2 3 2 4 12 0.68 20.50
CS7-A Advance System Security and Digital Forensics CO5 Able to understand the ethical and legal issues associated with cyber crimes and be able to mitigate impact of crimes with suitable policies. 0 0 0 4 3 5 12 0.82 24.50
CS7-B Advance System Security and Digital Forensics CO5 Able to understand the ethical and legal issues associated with cyber crimes and be able to mitigate impact of crimes with suitable policies. 1 1 2 4 2 2 12 0.58 17.50
CS7-A Advance System Security and Digital Forensics CO6 Able to use different forensic tools to acquire and duplicate data from compromised systems and analyse the same. 0 0 1 3 1 7 12 0.83 25.00
CS7-B Advance System Security and Digital Forensics CO6 Able to use different forensic tools to acquire and duplicate data from compromised systems and analyse the same. 1 1 2 3 3 2 12 0.60 18.00
CS7-A Big Data and Analytics CO1 You were able to identify and understand the key issues in big data management and its associated applications in intelligent business and scientific computing. 0 0 0 3 6 14 23 0.90 26.87
CS7-B Big Data and Analytics CO1 You were able to identify and understand the key issues in big data management and its associated applications in intelligent business and scientific computing. 0 0 1 3 17 18 39 0.87 26.00
CS7-A Big Data and Analytics CO2 You were able to acquire and apply fundamental enabling techniques and scalable algorithms like Hadoop, MapReduce and NoSQL in big data analytics. 0 0 0 0 4 19 23 0.97 28.96
CS7-B Big Data and Analytics CO2 You were able to acquire and apply fundamental enabling techniques and scalable algorithms like Hadoop, MapReduce and NoSQL in big data analytics. 0 0 0 3 19 17 39 0.87 26.15
CS7-A Big Data and Analytics CO3 You were able to interpret business models and scientific computing paradigms and apply software tools for big data analytics. 0 0 0 1 3 19 23 0.96 28.70
CS7-B Big Data and Analytics CO3 You were able to interpret business models and scientific computing paradigms and apply software tools for big data analytics. 0 0 0 6 14 19 39 0.87 26.00
CS7-A Big Data and Analytics CO4 You were able to gain adequate knowledge of data Mining concepts and algorithms from the perspective of Big Data Analytics. 0 0 0 5 4 14 23 0.88 26.35
CS7-B Big Data and Analytics CO4 You were able to gain adequate knowledge of data Mining concepts and algorithms from the perspective of Big Data Analytics. 0 0 0 3 15 21 39 0.89 26.77
CS7-A Big Data and Analytics CO5 You were able to build adequate understanding of stream data and link analysis in Big Data Analytics. 0 0 0 3 4 16 23 0.91 27.39
CS7-B Big Data and Analytics CO5 You were able to build adequate understanding of stream data and link analysis in Big Data Analytics. 0 0 0 2 14 23 39 0.91 27.23
CS7-A Big Data and Analytics CO6 You were able to achieve adequate perspectives of big data analytics in various applications like recommender systems, social media applications, etc. 0 0 0 2 6 15 23 0.91 27.39
CS7-B Big Data and Analytics CO6 You were able to achieve adequate perspectives of big data analytics in various applications like recommender systems, social media applications, etc. 0 0 0 5 16 18 39 0.87 26.00
CS7-A Computational Lab-I CO1 Able to understand the Hadoop Ecosystem and its commands 2 0 0 6 7 20 35 0.83 25.03
CS7-B Computational Lab-I CO1 Able to understand the Hadoop Ecosystem and its commands 4 1 0 7 17 22 51 0.78 23.53
CS7-A Computational Lab-I CO2 Able to create, maniuplate data using MongoDB and integration of MapReduce in it 2 0 0 4 5 24 35 0.87 26.06
CS7-B Computational Lab-I CO2 Able to create, maniuplate data using MongoDB and integration of MapReduce in it 5 0 1 8 17 20 51 0.76 22.82
CS7-A Computational Lab-I CO3 Able to use and implement variuos hadoop ecosystem tools like Pig and Hive 2 0 0 3 4 26 35 0.89 26.57
CS7-B Computational Lab-I CO3 Able to use and implement variuos hadoop ecosystem tools like Pig and Hive 5 0 1 10 13 22 51 0.76 22.82
CS7-A Computational Lab-I CO4 Able to implement algorithms for data stream mining like FM algorithm and Bloom Filters. 2 0 0 4 5 24 35 0.87 26.06
CS7-B Computational Lab-I CO4 Able to implement algorithms for data stream mining like FM algorithm and Bloom Filters. 5 0 0 9 20 17 51 0.75 22.59
CS7-A Computational Lab-I CO5 Able to implement basic commands using R programming 2 0 0 4 5 24 35 0.87 26.06
CS7-B Computational Lab-I CO5 Able to implement basic commands using R programming 5 0 0 7 14 25 51 0.79 23.76
CS7-A Computational Lab-I CO6 Able to explore and understand variuos big data case studies applied on numerous applications. 3 0 0 10 1 21 35 0.79 23.83
CS7-B Computational Lab-I CO6 Able to explore and understand variuos big data case studies applied on numerous applications. 5 0 0 8 19 19 51 0.76 22.94
CS7-A Cyber Security and Laws CO1 Able to Understand the concept of cybercrime and its effect on outside world 1 1 0 7 9 17 35 0.82 24.51
CS7-B Cyber Security and Laws CO1 Able to Understand the concept of cybercrime and its effect on outside world 5 0 0 5 22 19 51 0.78 23.29
CS7-A Cyber Security and Laws CO2 Able to Interpret and apply IT law in various legal issues 0 1 1 8 7 18 35 0.83 24.86
CS7-B Cyber Security and Laws CO2 Able to Interpret and apply IT law in various legal issues 4 0 1 6 18 22 51 0.79 23.76
CS7-A Cyber Security and Laws CO3 Able to Distinguish different aspects of cyber law 0 1 1 9 9 15 35 0.81 24.17
CS7-B Cyber Security and Laws CO3 Able to Distinguish different aspects of cyber law 3 0 0 5 15 28 51 0.84 25.29
CS7-A Cyber Security and Laws CO4 Able to Apply Information Security Standards compliance during software design and development 1 0 0 5 9 20 35 0.86 25.89
CS7-B Cyber Security and Laws CO4 Able to Apply Information Security Standards compliance during software design and development 3 0 0 9 11 28 51 0.83 24.82
CS7-A Digital Signal and Image Processing CO1 Apply the concept of DT Signal and DT Systems. 0 0 0 6 8 21 35 0.89 26.57
CS7-B Digital Signal and Image Processing CO1 Apply the concept of DT Signal and DT Systems. 1 1 3 2 18 26 51 0.84 25.29
CS7-A Digital Signal and Image Processing CO2 Classify and analyze discrete time signals and systems. 0 0 0 8 10 17 35 0.85 25.54
CS7-B Digital Signal and Image Processing CO2 Classify and analyze discrete time signals and systems. 1 0 2 7 15 26 51 0.84 25.29
CS7-A Digital Signal and Image Processing CO3 Implement Digital Signal Transform techniques DFT and FFT. 0 0 0 4 8 23 35 0.91 27.26
CS7-B Digital Signal and Image Processing CO3 Implement Digital Signal Transform techniques DFT and FFT. 1 0 0 8 16 26 51 0.85 25.65
CS7-A Digital Signal and Image Processing CO4 Use the enhancement techniques for digital Image Processing. 0 0 0 7 12 16 35 0.85 25.54
CS7-B Digital Signal and Image Processing CO4 Use the enhancement techniques for digital Image Processing. 1 0 1 7 16 26 51 0.85 25.53
CS7-A Digital Signal and Image Processing CO5 Differentiate between the advantages and disadvantages of different edge detection techniques. 0 0 0 8 12 15 35 0.84 25.20
CS7-B Digital Signal and Image Processing CO5 Differentiate between the advantages and disadvantages of different edge detection techniques. 1 0 0 4 22 24 51 0.86 25.88
CS7-A Digital Signal and Image Processing CO6 Develop small projects of 1-D and 2-D Digital Signal Processing. 0 1 0 4 11 19 35 0.87 26.06
CS7-B Digital Signal and Image Processing CO6 Develop small projects of 1-D and 2-D Digital Signal Processing. 1 0 0 7 17 26 51 0.86 25.76
CS7-A Mobile Communication and Computing CO1 Able to remember the functionality performed by different layers of TCP/IP reference model used in wireless communication. 0 0 0 4 11 20 35 0.89 26.74
CS7-B Mobile Communication and Computing CO1 Able to remember the functionality performed by different layers of TCP/IP reference model used in wireless communication. 2 0 2 7 11 29 51 0.84 25.18
CS7-A Mobile Communication and Computing CO2 Able to understand modulation ( ASK, FSK,PSK and MSK) , multiplexing, multiple access techniques and concepts of cellular transmission. 0 0 0 7 9 19 35 0.87 26.06
CS7-B Mobile Communication and Computing CO2 Able to understand modulation ( ASK, FSK,PSK and MSK) , multiplexing, multiple access techniques and concepts of cellular transmission. 1 0 0 4 20 26 51 0.87 26.12
CS7-A Mobile Communication and Computing CO3 Able to understand the importance of Ad-hoc networks . 0 0 0 7 10 18 35 0.86 25.89
CS7-B Mobile Communication and Computing CO3 Able to understand the importance of Ad-hoc networks . 1 0 1 2 18 29 51 0.88 26.47
CS7-A Mobile Communication and Computing CO4 Able to analyze various telecommunication systems and its working , architecture, protocol architecture, calling/ localization process and also comparison of GSM, PCS, GPRS, UMTS, LTE etc 0 0 0 7 9 19 35 0.87 26.06
CS7-B Mobile Communication and Computing CO4 Able to analyze various telecommunication systems and its working , architecture, protocol architecture, calling/ localization process and also comparison of GSM, PCS, GPRS, UMTS, LTE etc 1 0 0 7 14 29 51 0.87 26.12
CS7-A Mobile Communication and Computing CO5 Able to analyze different emerging wireless technologies as ,WLAN,bluetooth. 0 0 0 7 10 18 35 0.86 25.89
CS7-B Mobile Communication and Computing CO5 Able to analyze different emerging wireless technologies as ,WLAN,bluetooth. 1 0 0 8 15 27 51 0.86 25.76
CS7-A Mobile Communication and Computing CO6 Able to design and deploy 5G,Cellular IP,MIPv6,FMIPv6,HMIPv6. 0 0 0 6 9 20 35 0.88 26.40
CS7-B Mobile Communication and Computing CO6 Able to design and deploy 5G,Cellular IP,MIPv6,FMIPv6,HMIPv6. 1 0 2 4 15 29 51 0.87 26.00
CS7-A Project I CO1 Ability to formulate a problem definition with novelty, originality and social relevance. 1 0 1 3 14 16 35 0.84 25.20
CS7-B Project I CO1 Ability to formulate a problem definition with novelty, originality and social relevance. 2 0 2 5 16 26 51 0.84 25.06
CS7-A Project I CO2 Ability to do an exhaustive survey of existing literature and techniques based on problem definition. 0 0 1 7 7 20 35 0.86 25.89
CS7-B Project I CO2 Ability to do an exhaustive survey of existing literature and techniques based on problem definition. 1 1 1 6 14 28 51 0.85 25.53
CS7-A Project I CO3 Able to design an architecture or model of the proposed system by applying system analysis tools. 0 0 1 5 8 21 35 0.88 26.40
CS7-B Project I CO3 Able to design an architecture or model of the proposed system by applying system analysis tools. 1 0 2 5 14 29 51 0.86 25.88
CS7-A Project I CO4 Ability to use communication and presentation skills to document and present a technical report. 0 0 1 4 10 20 35 0.88 26.40
CS7-B Project I CO4 Ability to use communication and presentation skills to document and present a technical report. 1 0 1 6 17 26 51 0.85 25.65
CS7-A Project I CO5 Able to work in teams effectively, with a clear understanding of professional, legal and ethical issues, to achieve a common goal. 0 0 1 4 8 22 35 0.89 26.74
CS7-B Project I CO5 Able to work in teams effectively, with a clear understanding of professional, legal and ethical issues, to achieve a common goal. 1 0 0 7 20 23 51 0.85 25.41
CS7-A Project I CO6 Recognize the need for an ability to engage in life-long learning. 1 0 1 6 6 21 35 0.85 25.54
CS7-B Project I CO6 Recognize the need for an ability to engage in life-long learning. 1 0 0 7 17 26 51 0.86 25.76
ET3-A Applied Mathematics-III CO1 Able to find the Laplace transform and inverse Laplace transform of a given function. 0 0 0 2 7 15 24 0.91 27.25
ET3-B Applied Mathematics-III CO1 Able to find the Laplace transform and inverse Laplace transform of a given function. 0 0 0 5 4 9 18 0.84 25.33
ET3-A Applied Mathematics-III CO2 Able to solve the initial value problems and boundary value problems i.e. differential equation, integro-differential equation using Laplace transform. 0 0 0 1 7 16 24 0.93 27.75
ET3-B Applied Mathematics-III CO2 Able to solve the initial value problems and boundary value problems i.e. differential equation, integro-differential equation using Laplace transform. 0 0 2 6 3 7 18 0.77 23.00
ET3-A Applied Mathematics-III CO3 Able to identify the analytic function, harmonic function and to find the orthogonal trajectories. 0 0 0 1 6 17 24 0.93 28.00
ET3-B Applied Mathematics-III CO3 Able to identify the analytic function, harmonic function and to find the orthogonal trajectories. 0 0 2 2 7 7 18 0.81 24.33
ET3-A Applied Mathematics-III CO4 Able to find the bilinear transformation and image of a given geometry from z-plane to w-plane. 0 1 0 1 4 18 24 0.92 27.50
ET3-B Applied Mathematics-III CO4 Able to find the bilinear transformation and image of a given geometry from z-plane to w-plane. 0 0 1 6 4 7 18 0.79 23.67
ET3-A Applied Mathematics-III CO5 Able to represent the given function in terms of sine and cosine, using Fourier series and to find Fourier Integral Representation, Fourier Transforms. 0 0 0 2 9 13 24 0.89 26.75
ET3-B Applied Mathematics-III CO5 Able to represent the given function in terms of sine and cosine, using Fourier series and to find Fourier Integral Representation, Fourier Transforms. 0 0 1 2 8 7 18 0.83 25.00
ET3-A Applied Mathematics-III CO6 Able to evaluate gradient, Curl, Divergence hence able to use to evaluate vector Integral by using Green’s theorem, Stoke’s theorem, Gauss divergence theorem. 0 0 1 1 9 13 24 0.88 26.50
ET3-B Applied Mathematics-III CO6 Able to evaluate gradient, Curl, Divergence hence able to use to evaluate vector Integral by using Green’s theorem, Stoke’s theorem, Gauss divergence theorem. 0 2 1 4 2 9 18 0.77 23.00
ET3-A Applied Mathematics-III CO7 Able to obtain required recurrence relation by using recurrence formulae & definition of Jn(x). 1 0 0 5 7 11 24 0.82 24.50
ET3-B Applied Mathematics-III CO7 Able to obtain required recurrence relation by using recurrence formulae & definition of Jn(x). 0 0 3 6 2 7 18 0.74 22.33
ET3-A Circuit Theory and Networks CO1 Able to analyse the DC circuits with and without controlled sources and also understand the concept of mutual inductance and analyse coupled circuits. 0 0 3 4 8 9 24 0.79 23.75
ET3-B Circuit Theory and Networks CO1 Able to analyse the DC circuits with and without controlled sources and also understand the concept of mutual inductance and analyse coupled circuits. 0 0 0 2 4 12 18 0.91 27.33
ET3-A Circuit Theory and Networks CO2 Able to apply the knowledge of graph theory for analysing the circuits. 0 0 0 3 8 13 24 0.88 26.50
ET3-B Circuit Theory and Networks CO2 Able to apply the knowledge of graph theory for analysing the circuits. 0 0 1 3 3 11 18 0.87 26.00
ET3-A Circuit Theory and Networks CO3 Able to find the various parameters of two port network and also the network functions 0 0 2 5 7 10 24 0.81 24.25
ET3-B Circuit Theory and Networks CO3 Able to find the various parameters of two port network and also the network functions 0 0 1 3 6 8 18 0.83 25.00
ET3-A Circuit Theory and Networks CO4 Able to find transient and steady state response of a circuit using time and frequency domain analysis methods. 0 0 2 4 6 12 24 0.83 25.00
ET3-B Circuit Theory and Networks CO4 Able to find transient and steady state response of a circuit using time and frequency domain analysis methods. 0 0 0 3 6 9 18 0.87 26.00
ET3-A Circuit Theory and Networks CO5 Able to synthesize the RC, RL, LC driving point functions. 0 0 2 5 5 12 24 0.83 24.75
ET3-B Circuit Theory and Networks CO5 Able to synthesize the RC, RL, LC driving point functions. 0 0 2 3 3 10 18 0.83 25.00
ET3-A Digital System Design CO1 Able to understand number representation and conversion between different number system. 0 0 0 7 9 8 24 0.81 24.25
ET3-B Digital System Design CO1 Able to understand number representation and conversion between different number system. 0 1 0 3 5 9 18 0.83 25.00
ET3-A Digital System Design CO2 Able to Analyze logic functions and implement them using logic gates as well as different combinational circuits. 0 0 1 3 7 13 24 0.87 26.00
ET3-B Digital System Design CO2 Able to Analyze logic functions and implement them using logic gates as well as different combinational circuits. 0 0 1 4 6 7 18 0.81 24.33
ET3-A Digital System Design CO3 Able to understand difference between combinational and sequential circuits and understand concept of sequential logic to apply for different applications as counters shift registers and the state machines. 0 0 2 5 5 12 24 0.83 24.75
ET3-B Digital System Design CO3 Able to understand difference between combinational and sequential circuits and understand concept of sequential logic to apply for different applications as counters shift registers and the state machines. 0 0 2 6 4 6 18 0.76 22.67
ET3-A Digital System Design CO4 Able to understand the concepts of PLDS like PROM,PLA,PAL ,CPLD and FPGA . 0 0 1 3 10 10 24 0.84 25.25
ET3-B Digital System Design CO4 Able to understand the concepts of PLDS like PROM,PLA,PAL ,CPLD and FPGA . 0 0 1 6 5 6 18 0.78 23.33
ET3-A Digital System Design CO5 Able to understand concept of Memories and their classifications. 0 0 2 4 8 10 24 0.82 24.50
ET3-B Digital System Design CO5 Able to understand concept of Memories and their classifications. 0 0 2 2 6 8 18 0.82 24.67
ET3-A Digital System Design CO6 Able to understand VHDL and implement various combinational and sequential circuits using VHDL. 0 0 4 4 6 10 24 0.78 23.50
ET3-B Digital System Design CO6 Able to understand VHDL and implement various combinational and sequential circuits using VHDL. 0 1 4 3 4 6 18 0.71 21.33
ET3-A Electronic Devices and Circuits I CO1 Able to understand the characteristics and operations of semiconductor devices in electronic circuit. 0 0 0 5 6 13 24 0.87 26.00
ET3-B Electronic Devices and Circuits I CO1 Able to understand the characteristics and operations of semiconductor devices in electronic circuit. 0 0 2 3 3 10 18 0.83 25.00
ET3-A Electronic Devices and Circuits I CO2 Able to perform dc and ac analysis of the basic electronic circuits useful to conclude an application based on these. 0 0 0 2 11 11 24 0.88 26.25
ET3-B Electronic Devices and Circuits I CO2 Able to perform dc and ac analysis of the basic electronic circuits useful to conclude an application based on these. 0 0 1 4 5 8 18 0.82 24.67
ET3-A Electronic Devices and Circuits I CO3 Able to apply concepts for the design of regulators and amplifiers. 0 0 0 3 9 12 24 0.88 26.25
ET3-B Electronic Devices and Circuits I CO3 Able to apply concepts for the design of regulators and amplifiers. 0 0 3 7 1 7 18 0.73 22.00
ET3-A Electronic Devices and Circuits I CO4 Able to design and analyze electronic circuits. 0 0 0 3 3 18 24 0.93 27.75
ET3-B Electronic Devices and Circuits I CO4 Able to design and analyze electronic circuits. 0 0 1 7 4 6 18 0.77 23.00
ET3-A Electronic Devices and Circuits I CO5 Able to evaluate frequency response to understand behavior of electronic circuits. 0 1 0 2 5 16 24 0.89 26.75
ET3-B Electronic Devices and Circuits I CO5 Able to evaluate frequency response to understand behavior of electronic circuits. 0 0 2 2 5 9 18 0.83 25.00
ET3-A Electronic Devices and Circuits I CO6 Able to understand simulation software such as PSPICE for designing of electronic circuit. 0 0 0 3 4 17 24 0.92 27.50
ET3-B Electronic Devices and Circuits I CO6 Able to understand simulation software such as PSPICE for designing of electronic circuit. 0 0 3 4 3 8 18 0.78 23.33
ET3-A Electronic Instrumentation and Control CO1 Able to explain principal of operation of transducers & sensors. 0 0 1 0 5 18 24 0.93 28.00
ET3-B Electronic Instrumentation and Control CO1 Able to explain principal of operation of transducers & sensors. 0 0 2 1 1 14 18 0.90 27.00
ET3-A Electronic Instrumentation and Control CO2 Able to describe functional block daigram of data acquisition system. 0 0 0 2 4 18 24 0.93 28.00
ET3-B Electronic Instrumentation and Control CO2 Able to describe functional block daigram of data acquisition system. 0 0 0 4 2 12 18 0.89 26.67
ET3-A Electronic Instrumentation and Control CO3 Able to find transfer function of the given system. 0 1 1 0 4 18 24 0.91 27.25
ET3-B Electronic Instrumentation and Control CO3 Able to find transfer function of the given system. 0 0 0 1 4 13 18 0.93 28.00
ET3-A Electronic Instrumentation and Control CO4 Able to find stability of the given system using routh criteria and root locus. 0 0 0 0 8 16 24 0.93 28.00
ET3-B Electronic Instrumentation and Control CO4 Able to find stability of the given system using routh criteria and root locus. 0 0 0 4 1 13 18 0.90 27.00
ET3-A Electronic Instrumentation and Control CO5 Able to explain bridges for measurement of R, L, C. 0 0 1 1 6 16 24 0.91 27.25
ET3-B Electronic Instrumentation and Control CO5 Able to explain bridges for measurement of R, L, C. 0 0 0 3 1 14 18 0.92 27.67
ET3-A Electronic Instrumentation and Control CO6 Able to calculate time domain & frequency domain parameter of a given system. 0 0 0 0 6 18 24 0.95 28.50
ET3-B Electronic Instrumentation and Control CO6 Able to calculate time domain & frequency domain parameter of a given system. 0 0 2 1 2 13 18 0.89 26.67
ET3-A OOP using JAVA Laboratory CO1 Able to understand concept of Object Oriented Programming (OOP). 0 0 0 0 11 13 24 0.91 27.25
ET3-B OOP using JAVA Laboratory CO1 Able to understand concept of Object Oriented Programming (OOP). 0 0 6 2 3 7 18 0.72 21.67
ET3-A OOP using JAVA Laboratory CO2 Able to understand basic operations, data types in java & implement various control structures. 0 0 0 2 5 17 24 0.93 27.75
ET3-B OOP using JAVA Laboratory CO2 Able to understand basic operations, data types in java & implement various control structures. 0 1 1 5 6 5 18 0.74 22.33
ET3-A OOP using JAVA Laboratory CO3 Able to remember and implement the concept of strings, arrays, inheritance,etc. 0 0 0 1 6 17 24 0.93 28.00
ET3-B OOP using JAVA Laboratory CO3 Able to remember and implement the concept of strings, arrays, inheritance,etc. 0 1 6 2 3 6 18 0.68 20.33
ET3-A OOP using JAVA Laboratory CO4 Able to analyse method overloading and demonstrate reusability with the help of inheritance. 0 0 0 0 9 15 24 0.93 27.75
ET3-B OOP using JAVA Laboratory CO4 Able to analyse method overloading and demonstrate reusability with the help of inheritance. 0 2 2 3 4 7 18 0.73 22.00
ET3-A OOP using JAVA Laboratory CO5 Able to understand the concept of abstract classes & Interface and evaluate the difference between them. 0 0 0 3 5 16 24 0.91 27.25
ET3-B OOP using JAVA Laboratory CO5 Able to understand the concept of abstract classes & Interface and evaluate the difference between them. 0 2 2 4 4 6 18 0.71 21.33
ET3-A OOP using JAVA Laboratory CO6 Able to understand and implement the concept of multithreading, packages & applet. 0 0 0 1 8 15 24 0.92 27.50
ET3-B OOP using JAVA Laboratory CO6 Able to understand and implement the concept of multithreading, packages & applet. 0 0 2 5 6 5 18 0.76 22.67
ET5-A Business Communication & Ethics Lab CO1 To hone the writing skills necessary for the design of a precise professional and technical document. 1 1 1 2 2 1 8 0.55 16.50
ET5-B Business Communication & Ethics Lab CO1 To hone the writing skills necessary for the design of a precise professional and technical document. 0 3 2 9 9 16 39 0.77 23.08
ET5-A Business Communication & Ethics Lab CO2 To develop analytical and logical skills to solve real life problems in interpersonal communication. 0 1 2 3 0 2 8 0.60 18.00
ET5-B Business Communication & Ethics Lab CO2 To develop analytical and logical skills to solve real life problems in interpersonal communication. 0 3 5 5 7 19 39 0.77 23.23
ET5-A Business Communication & Ethics Lab CO3 To inculcate professional and ethical attitude. 0 2 0 4 1 1 8 0.58 17.25
ET5-B Business Communication & Ethics Lab CO3 To inculcate professional and ethical attitude. 0 1 5 5 13 15 39 0.78 23.54
ET5-A Business Communication & Ethics Lab CO4 To train students for effective formal presentation. 0 1 2 2 0 3 8 0.65 19.50
ET5-B Business Communication & Ethics Lab CO4 To train students for effective formal presentation. 0 2 3 9 6 19 39 0.79 23.69
ET5-A Business Communication & Ethics Lab CO5 To enhance employment skills and effective communication skills required for life-long learning. 0 1 2 1 2 2 8 0.65 19.50
ET5-B Business Communication & Ethics Lab CO5 To enhance employment skills and effective communication skills required for life-long learning. 0 3 3 7 6 20 39 0.79 23.69
ET5-A Business Communication & Ethics Lab CO6 To train studens in the techniques of participating effectively in group discussion. 0 3 2 1 1 1 8 0.48 14.25
ET5-B Business Communication & Ethics Lab CO6 To train studens in the techniques of participating effectively in group discussion. 0 3 0 10 8 18 39 0.79 23.85
ET5-A Digital Communication CO1 Able to understand randam variables and randam processes of signal 0 0 2 1 3 2 8 0.73 21.75
ET5-B Digital Communication CO1 Able to understand randam variables and randam processes of signal 0 2 2 4 6 25 39 0.86 25.69
ET5-A Digital Communication CO2 Able to apply the concepts of information theory in source coding 0 1 0 4 3 0 8 0.63 18.75
ET5-B Digital Communication CO2 Able to apply the concepts of information theory in source coding 0 2 2 3 5 27 39 0.87 26.15
ET5-A Digital Communication CO3 Able to evaluate different methods to eliminate Inter - symbol intereference 0 1 0 2 5 0 8 0.68 20.25
ET5-B Digital Communication CO3 Able to evaluate different methods to eliminate Inter - symbol intereference 0 0 3 5 4 27 39 0.88 26.46
ET5-A Digital Communication CO4 Able to compare different bandpass modulation techniques 0 1 1 4 2 0 8 0.58 17.25
ET5-B Digital Communication CO4 Able to compare different bandpass modulation techniques 0 1 0 7 4 27 39 0.89 26.62
ET5-A Digital Communication CO5 Able to evaluate performance of different error control codes 0 1 1 1 5 0 8 0.65 19.50
ET5-B Digital Communication CO5 Able to evaluate performance of different error control codes 0 1 1 6 3 28 39 0.89 26.62
ET5-A Digital Communication CO6 Realize the areas of application of Digital communication 0 2 1 2 1 2 8 0.60 18.00
ET5-B Digital Communication CO6 Realize the areas of application of Digital communication 0 1 0 4 7 27 39 0.90 27.08
ET5-A Data Compression and Encryption CO1 Able to Implement text compression techniques. 1 0 0 1 0 2 4 0.65 19.50
ET5-B Data Compression and Encryption CO1 Able to Implement text compression techniques. 1 0 0 3 7 13 24 0.85 25.50
ET5-A Data Compression and Encryption CO2 Able to Implement audio compression techniques 0 0 0 1 1 2 4 0.85 25.50
ET5-B Data Compression and Encryption CO2 Able to Implement audio compression techniques 0 1 1 2 8 12 24 0.84 25.25
ET5-A Data Compression and Encryption CO3 Able to Implement video compression techniques 0 0 0 1 1 2 4 0.85 25.50
ET5-B Data Compression and Encryption CO3 Able to Implement video compression techniques 0 0 1 5 5 13 24 0.85 25.50
ET5-A Data Compression and Encryption CO4 Able to Understand Symmetric Key Cryptography schemes 0 0 1 0 1 2 4 0.80 24.00
ET5-B Data Compression and Encryption CO4 Able to Understand Symmetric Key Cryptography schemes 0 0 0 3 6 15 24 0.90 27.00
ET5-A Data Compression and Encryption CO5 Able to Understand Asymmetric Key Cryptography schemes 0 0 0 0 2 2 4 0.90 27.00
ET5-B Data Compression and Encryption CO5 Able to Understand Asymmetric Key Cryptography schemes 0 0 0 7 2 15 24 0.87 26.00
ET5-A Data Compression and Encryption CO6 Able to Understand network security 1 0 0 0 1 2 4 0.70 21.00
ET5-B Data Compression and Encryption CO6 Able to Understand network security 0 0 1 3 5 15 24 0.88 26.50
ET5-A Discrete Time Signal Processing CO1 Able to Understand the concepts of discrete-time Fourier transform and fast Fourier transform. 0 0 0 1 5 2 8 0.83 24.75
ET5-B Discrete Time Signal Processing CO1 Able to Understand the concepts of discrete-time Fourier transform and fast Fourier transform. 0 1 3 7 6 22 39 0.83 24.92
ET5-A Discrete Time Signal Processing CO2 Able to apply the knowledge of design of IIR digital filters to meet arbitrary specifications. 0 0 0 1 5 2 8 0.83 24.75
ET5-B Discrete Time Signal Processing CO2 Able to apply the knowledge of design of IIR digital filters to meet arbitrary specifications. 0 2 2 8 8 19 39 0.81 24.15
ET5-A Discrete Time Signal Processing CO3 Able to apply the knowledge of design of FIR digital filters to meet arbitrary specifications. 0 0 2 1 3 2 8 0.73 21.75
ET5-B Discrete Time Signal Processing CO3 Able to apply the knowledge of design of FIR digital filters to meet arbitrary specifications. 0 1 0 12 7 19 39 0.82 24.62
ET5-A Discrete Time Signal Processing CO4 Able to analyze the effect of hardware limitations on performance of digital filters. 0 0 0 5 2 1 8 0.70 21.00
ET5-B Discrete Time Signal Processing CO4 Able to analyze the effect of hardware limitations on performance of digital filters. 0 1 4 5 10 19 39 0.82 24.46
ET5-A Discrete Time Signal Processing CO5 Able to understand the need of DSP processors. 0 0 1 2 3 2 8 0.75 22.50
ET5-B Discrete Time Signal Processing CO5 Able to understand the need of DSP processors. 0 2 1 10 5 21 39 0.82 24.46
ET5-A Discrete Time Signal Processing CO6 Ableto understand the use and application of DSP processors . 1 0 1 2 3 1 8 0.63 18.75
ET5-B Discrete Time Signal Processing CO6 Ableto understand the use and application of DSP processors . 0 2 3 7 5 22 39 0.82 24.46
ET5-A Electromagnetic Engineering CO1 Able to understand various laws of electrostatics and concepts related to electric field 0 1 0 3 1 3 8 0.73 21.75
ET5-B Electromagnetic Engineering CO1 Able to understand various laws of electrostatics and concepts related to electric field 0 0 1 12 7 19 39 0.83 24.77
ET5-A Electromagnetic Engineering CO2 Able to know electric field in material space. 0 0 1 2 2 3 8 0.78 23.25
ET5-B Electromagnetic Engineering CO2 Able to know electric field in material space. 0 0 4 7 9 19 39 0.82 24.62
ET5-A Electromagnetic Engineering CO3 Able to understand various laws of magnetostatics and concepts related to magnetic field 0 0 0 3 2 3 8 0.80 24.00
ET5-B Electromagnetic Engineering CO3 Able to understand various laws of magnetostatics and concepts related to magnetic field 0 0 3 11 5 20 39 0.82 24.46
ET5-A Electromagnetic Engineering CO4 Able to apply knowledge of electromagnetic laws in deriving Maxwell's equations and wave equations. 0 0 0 4 1 3 8 0.78 23.25
ET5-B Electromagnetic Engineering CO4 Able to apply knowledge of electromagnetic laws in deriving Maxwell's equations and wave equations. 0 0 3 9 6 21 39 0.83 24.92
ET5-A Electromagnetic Engineering CO5 Able to solve problems related to transmission lines using Smith Chart. 0 0 0 3 1 4 8 0.83 24.75
ET5-B Electromagnetic Engineering CO5 Able to solve problems related to transmission lines using Smith Chart. 0 1 1 8 4 25 39 0.86 25.85
ET5-A Electromagnetic Engineering CO6 Able to apply the knowledge of electromagnetics in various applications. 0 0 0 4 2 2 8 0.75 22.50
ET5-B Electromagnetic Engineering CO6 Able to apply the knowledge of electromagnetics in various applications. 0 0 4 7 8 20 39 0.83 24.77
ET5-A Microprocessor & Peripherals Interfacing CO1 Able to understand the basic concept of microcomputer systems. 0 0 1 0 6 1 8 0.78 23.25
ET5-B Microprocessor & Peripherals Interfacing CO1 Able to understand the basic concept of microcomputer systems. 1 0 1 9 5 23 39 0.84 25.23
ET5-A Microprocessor & Peripherals Interfacing CO2 Able to understand architecture and features of microprocessor(Intel 8086). 0 0 1 2 1 4 8 0.80 24.00
ET5-B Microprocessor & Peripherals Interfacing CO2 Able to understand architecture and features of microprocessor(Intel 8086). 0 0 4 5 10 20 39 0.84 25.08
ET5-A Microprocessor & Peripherals Interfacing CO3 Able to know instruction set,addressing modes and write assembly language program of micrprocessor(Intel 8086). 0 0 0 4 2 2 8 0.75 22.50
ET5-B Microprocessor & Peripherals Interfacing CO3 Able to know instruction set,addressing modes and write assembly language program of micrprocessor(Intel 8086). 0 1 1 6 8 23 39 0.86 25.85
ET5-A Microprocessor & Peripherals Interfacing CO4 Able to interface different peripheral devices like 8255,8254,8259 and 8237 with microprocessor (Intel 8086). 0 0 0 3 3 2 8 0.78 23.25
ET5-B Microprocessor & Peripherals Interfacing CO4 Able to interface different peripheral devices like 8255,8254,8259 and 8237 with microprocessor (Intel 8086). 0 1 2 9 4 23 39 0.84 25.08
ET5-A Microprocessor & Peripherals Interfacing CO5 Able to apply knowledge acquired in this subject to design and interface Memory (RAM & ROM) with microprocessor (Intel 8086) and also know co-processor configuration. 0 0 1 3 3 1 8 0.70 21.00
ET5-B Microprocessor & Peripherals Interfacing CO5 Able to apply knowledge acquired in this subject to design and interface Memory (RAM & ROM) with microprocessor (Intel 8086) and also know co-processor configuration. 0 1 4 3 7 24 39 0.85 25.54
ET5-A Microprocessor & Peripherals Interfacing CO6 Able to use software like MASM for writing and executing assembly language programs of microprocessor(Intel 8086). 0 0 3 2 1 2 8 0.65 19.50
ET5-B Microprocessor & Peripherals Interfacing CO6 Able to use software like MASM for writing and executing assembly language programs of microprocessor(Intel 8086). 0 1 1 8 9 20 39 0.84 25.08
ET5-A TV & Video Engineering CO1 Able to undrstand the basic concept of TV signal transmission and reception. 0 1 0 2 1 0 4 0.55 16.50
ET5-B TV & Video Engineering CO1 Able to undrstand the basic concept of TV signal transmission and reception. 0 0 1 2 1 11 15 0.89 26.80
ET5-A TV & Video Engineering CO2 Able to understand the colour theory and colour systems. 0 1 1 0 1 1 4 0.60 18.00
ET5-B TV & Video Engineering CO2 Able to understand the colour theory and colour systems. 0 0 1 2 2 10 15 0.88 26.40
ET5-A TV & Video Engineering CO3 Understand details of compression technique 0 0 2 0 1 1 4 0.65 19.50
ET5-B TV & Video Engineering CO3 Understand details of compression technique 0 0 1 1 2 11 15 0.91 27.20
ET5-A TV & Video Engineering CO4 Know about different dvb standards. 0 1 1 0 1 1 4 0.60 18.00
ET5-B TV & Video Engineering CO4 Know about different dvb standards. 0 1 1 1 2 10 15 0.85 25.60
ET5-A TV & Video Engineering CO5 Understand advanced digital systems 0 1 1 0 0 2 4 0.65 19.50
ET5-B TV & Video Engineering CO5 Understand advanced digital systems 0 1 0 3 1 10 15 0.85 25.60
ET5-A TV & Video Engineering CO6 Able to differentiate between LED and LCD display. 0 0 1 0 1 2 4 0.80 24.00
ET5-B TV & Video Engineering CO6 Able to differentiate between LED and LCD display. 0 0 0 1 2 12 15 0.95 28.40
ET7-A Embedded System CO1 Able to Understand Embedded systems ,its design metrics and characteristics 0 2 1 2 1 3 9 0.64 19.33
ET7-B Embedded System CO1 Able to Understand Embedded systems ,its design metrics and characteristics 0 1 1 0 5 7 14 0.83 24.86
ET7-A Embedded System CO2 Able to understand the detailed processor design technique and methods of communication 0 1 2 2 1 3 9 0.67 20.00
ET7-B Embedded System CO2 Able to understand the detailed processor design technique and methods of communication 0 1 1 3 4 5 14 0.76 22.71
ET7-A Embedded System CO3 Able to study the in-depth program modelling concepts 0 1 1 3 1 3 9 0.69 20.67
ET7-B Embedded System CO3 Able to study the in-depth program modelling concepts 0 1 3 2 3 5 14 0.71 21.43
ET7-A Embedded System CO4 Able to study the serial communication protocol and its specific use in embedded system 0 1 1 3 0 4 9 0.71 21.33
ET7-B Embedded System CO4 Able to study the serial communication protocol and its specific use in embedded system 0 1 1 2 3 7 14 0.80 24.00
ET7-A Embedded System CO5 Able to Study the concept of real time operating systems and write programs 0 1 2 2 1 3 9 0.67 20.00
ET7-B Embedded System CO5 Able to Study the concept of real time operating systems and write programs 0 1 1 1 4 7 14 0.81 24.43
ET7-A Embedded System CO6 Able to Design embedded system applications using RTOS 0 2 1 2 1 3 9 0.64 19.33
ET7-B Embedded System CO6 Able to Design embedded system applications using RTOS 0 1 2 0 5 6 14 0.79 23.57
ET7-A Internet Communication Engineering CO1 Able to explain the operation of the components of a router including, DHCP, NAT/PAT, Routing function, Switching function 0 0 0 0 2 5 7 0.94 28.29
ET7-B Internet Communication Engineering CO1 Able to explain the operation of the components of a router including, DHCP, NAT/PAT, Routing function, Switching function 0 0 0 1 2 1 4 0.80 24.00
ET7-A Internet Communication Engineering CO2 Able to describe how DNS works in the global Internet including caching and root servers. 0 0 0 2 2 3 7 0.83 24.86
ET7-B Internet Communication Engineering CO2 Able to describe how DNS works in the global Internet including caching and root servers. 0 0 0 0 1 3 4 0.95 28.50
ET7-A Internet Communication Engineering CO3 Able to Understand the current state-of-the-art developments in Internet technologies for multimedia communications. 0 0 0 2 1 4 7 0.86 25.71
ET7-B Internet Communication Engineering CO3 Able to Understand the current state-of-the-art developments in Internet technologies for multimedia communications. 0 0 0 0 2 2 4 0.90 27.00
ET7-A Internet Communication Engineering CO4 Able toUnderstand the security protocol and services In the Internet 0 0 0 0 3 4 7 0.91 27.43
ET7-B Internet Communication Engineering CO4 Able toUnderstand the security protocol and services In the Internet 0 0 1 1 1 1 4 0.70 21.00
ET7-A Internet Communication Engineering CO5 "Able to Appreciate the principles used in designing multimedia protocols, and so understand why 0 0 0 2 2 3 7 0.83 24.86
ET7-B Internet Communication Engineering CO5 "Able to Appreciate the principles used in designing multimedia protocols, and so understand why 0 0 0 0 2 2 4 0.90 27.00
ET7-A Internet Communication Engineering CO6 Able to Understand the system design principles of multimedia communications systems. 0 0 0 2 1 4 7 0.86 25.71
ET7-B Internet Communication Engineering CO6 Able to Understand the system design principles of multimedia communications systems. 0 0 1 0 0 3 4 0.85 25.50
ET7-A Mobile Communication System CO1 "Able to understand the basic concept of different evolution systems in mobile communication system. 0 1 1 3 3 8 16 0.80 24.00
ET7-B Mobile Communication System CO1 "Able to understand the basic concept of different evolution systems in mobile communication system. 0 0 1 2 3 12 18 0.89 26.67
ET7-A Mobile Communication System CO2 "Able to have the knowledge of the basics of cellular concepts. 0 1 3 2 2 8 16 0.76 22.88
ET7-B Mobile Communication System CO2 "Able to have the knowledge of the basics of cellular concepts. 0 0 0 3 7 8 18 0.86 25.67
ET7-A Mobile Communication System CO3 Able to understand GSM, CDMA concepts and architecture, frame structure, system capacity and service provided. 0 0 2 1 5 8 16 0.84 25.13
ET7-B Mobile Communication System CO3 Able to understand GSM, CDMA concepts and architecture, frame structure, system capacity and service provided. 0 0 0 4 6 8 18 0.84 25.33
ET7-A Mobile Communication System CO4 "Able to study the evolution of mobile communication generations 2G, 2.5G, 3G with their characteristics and limitations. 0 0 1 2 4 9 16 0.86 25.88
ET7-B Mobile Communication System CO4 "Able to study the evolution of mobile communication generations 2G, 2.5G, 3G with their characteristics and limitations. 0 0 0 5 6 7 18 0.82 24.67
ET7-A Mobile Communication System CO5 "Able to understand emerging technologies required for fourth generation mobile systems such as SDR, MIMO etc. 0 1 1 3 2 9 16 0.81 24.38
ET7-B Mobile Communication System CO5 "Able to understand emerging technologies required for fourth generation mobile systems such as SDR, MIMO etc. 0 0 0 3 5 10 18 0.88 26.33
ET7-A Mobile Communication System CO6 "Knowledge of understand different indoor and outdoor propagation models related to losses and different types of fading. 0 0 1 3 4 8 16 0.84 25.13
ET7-B Mobile Communication System CO6 "Knowledge of understand different indoor and outdoor propagation models related to losses and different types of fading. 0 0 1 3 2 12 18 0.88 26.33
ET7-A Microwave Engineering CO1 Able to understand fundamentals of microwave frequencies and applications. 0 1 1 5 1 8 16 0.78 23.25
ET7-B Microwave Engineering CO1 Able to understand fundamentals of microwave frequencies and applications. 0 0 1 3 6 8 18 0.83 25.00
ET7-A Microwave Engineering CO2 To identify different microwave passive devices and their operating principles. 0 1 1 4 2 8 16 0.79 23.63
ET7-B Microwave Engineering CO2 To identify different microwave passive devices and their operating principles. 0 0 1 5 4 8 18 0.81 24.33
ET7-A Microwave Engineering CO3 Able to learn microwave signal generation ,and modifications in structures for power and banwidth requirement. 0 1 1 5 5 4 16 0.73 21.75
ET7-B Microwave Engineering CO3 Able to learn microwave signal generation ,and modifications in structures for power and banwidth requirement. 0 0 4 2 5 7 18 0.77 23.00
ET7-A Microwave Engineering CO4 Acquire knowledge of semiconductor devices used in microwave frequencies like Gunn,IMPATT, TRAPATT, PIN AND FETs 0 2 1 4 3 6 16 0.73 21.75
ET7-B Microwave Engineering CO4 Acquire knowledge of semiconductor devices used in microwave frequencies like Gunn,IMPATT, TRAPATT, PIN AND FETs 0 1 2 3 2 10 18 0.80 24.00
ET7-A Microwave Engineering CO5 Apply the techniques of measurement for frequency,VSWR, IMPEDANCE 0 2 2 3 2 7 16 0.73 21.75
ET7-B Microwave Engineering CO5 Apply the techniques of measurement for frequency,VSWR, IMPEDANCE 0 1 3 2 3 9 18 0.78 23.33
ET7-A Microwave Engineering CO6 Introduced to Microwave Integrated circuits and basic requirement. 0 1 1 5 2 7 16 0.76 22.88
ET7-B Microwave Engineering CO6 Introduced to Microwave Integrated circuits and basic requirement. 0 1 0 4 4 9 18 0.82 24.67
ET7-A Optical Communication CO1 To be able to apply the fundamental principles of optics and light wave to design optical fiber communicationsystems. 0 1 0 4 4 7 16 0.80 24.00
ET7-B Optical Communication CO1 To be able to apply the fundamental principles of optics and light wave to design optical fiber communicationsystems. 0 0 1 3 3 11 18 0.87 26.00
ET7-A Optical Communication CO2 To Identify structures, functions, materials, and working principle of optical fibers, light sources, couplers,detectors, and multiplexers. 0 1 0 5 2 8 16 0.80 24.00
ET7-B Optical Communication CO2 To Identify structures, functions, materials, and working principle of optical fibers, light sources, couplers,detectors, and multiplexers. 0 0 1 2 5 10 18 0.87 26.00
ET7-A Optical Communication CO3 To design optical fiber communication links using appropriate optical fibers, light sources, couplers, detectors, and multiplexers 0 1 0 4 4 7 16 0.80 24.00
ET7-B Optical Communication CO3 To design optical fiber communication links using appropriate optical fibers, light sources, couplers, detectors, and multiplexers 0 0 0 3 4 11 18 0.89 26.67
ET7-A Optical Communication CO4 To explore concepts of designing and operating principles of modern optical communication systems and networks. 0 1 0 4 5 6 16 0.79 23.63
ET7-B Optical Communication CO4 To explore concepts of designing and operating principles of modern optical communication systems and networks. 0 0 0 2 4 12 18 0.91 27.33
ET7-A Optical Communication CO5 To be able to realise link budged and optical networks, design and management 0 2 0 3 4 7 16 0.78 23.25
ET7-B Optical Communication CO5 To be able to realise link budged and optical networks, design and management 0 0 0 3 5 10 18 0.88 26.33
ET7-A Optical Communication CO6 To be able to apply the knowledge developed in-class to contemporary optical fiber communication research and industrial areas 0 1 2 3 4 6 16 0.75 22.50
ET7-B Optical Communication CO6 To be able to apply the knowledge developed in-class to contemporary optical fiber communication research and industrial areas 0 0 0 3 3 12 18 0.90 27.00
EX3-A Applied Mathematics III CO1 Able to find the Laplace transform and inverse Laplace transform of a given function. 0 0 2 1 9 8 20 0.83 24.90
EX3-A Applied Mathematics III CO2 Able to solve the initial value problems and boundary value problems i.e. differential equation, integro-differential equation using Laplace transform. 0 0 1 2 6 11 20 0.87 26.10
EX3-A Applied Mathematics III CO3 Able to identify the analytic function, harmonic function and to find the orthogonal trajectories. 1 0 1 5 4 9 20 0.78 23.40
EX3-A Applied Mathematics III CO4 Able to find the bilinear transformation and image of a given geometry from z-plane to w-plane. 0 0 1 2 7 10 20 0.86 25.80
EX3-A Applied Mathematics III CO5 Able to represent the given function in terms of sine and cosine, using Fourier series and to find Fourier Integral Representation, Fourier Transforms. 0 0 1 4 6 9 20 0.83 24.90
EX3-A Applied Mathematics III CO6 Able to evaluate gradient, Curl, Divergence hence able to use to evaluate vector Integral by using Green’s theorem, Stoke’s theorem, Gauss divergence theorem. 0 0 2 4 6 8 20 0.80 24.00
EX3-A Applied Mathematics III CO7 Able to obtain required recurrence relation by using recurrence formulae & definition of Jn(x). 0 0 2 5 6 7 20 0.78 23.40
EX3-A Digital Circuit Design CO1 Able to understand Number systems, codes and their conversions. 3 0 1 2 3 11 20 0.75 22.50
EX3-A Digital Circuit Design CO2 Able to solve problems based on K-Map and various Boolean Laws. 0 0 0 2 6 12 20 0.90 27.00
EX3-A Digital Circuit Design CO3 Able to design combinational logic circuits. 0 0 0 6 3 11 20 0.85 25.50
EX3-A Digital Circuit Design CO4 Able to design sequential logic circuits. 0 0 0 2 5 13 20 0.91 27.30
EX3-A Digital Circuit Design CO5 Able to understand logic families and their interfacing. 0 0 1 2 5 12 20 0.88 26.40
EX3-A Digital Circuit Design CO6 Knowledge of this course will help me in solving questions in various competitive exams. 0 0 0 3 6 11 20 0.88 26.40
EX3-A Electronic Devices and Circuits I CO1 Able to understand the characteristics and operations of semiconductor devices in electronic circuit. 0 0 0 1 7 12 20 0.91 27.30
EX3-A Electronic Devices and Circuits I CO2 Able to perform dc and ac analysis of the basic electronic circuits useful to conclude an application based on these. 0 0 0 2 2 16 20 0.94 28.20
EX3-A Electronic Devices and Circuits I CO3 Able to apply concepts for the design of regulators and amplifiers. 0 0 0 3 2 15 20 0.92 27.60
EX3-A Electronic Devices and Circuits I CO4 Able to design and analyze electronic circuits using BJT,FET and MOSFETs. 0 0 1 3 3 13 20 0.88 26.40
EX3-A Electronic Devices and Circuits I CO5 Able to select best circuit for the given specifications/applications. 0 0 2 3 1 14 20 0.87 26.10
EX3-A Electronic Devices and Circuits I CO6 6 Able to understand simulation software such as PSPICE for designing of electronic circuit. 0 0 0 3 6 11 20 0.88 26.40
EX3-A Electronics Instruments and Measurement CO1 Able to explain principal of operation of transducers & sensors. 0 0 0 2 2 16 20 0.94 28.20
EX3-A Electronics Instruments and Measurement CO2 Able to use different testing & measuring instrument. 0 0 0 2 3 15 20 0.93 27.90
EX3-A Electronics Instruments and Measurement CO3 Able to understand static & dynamic characteristic of instrument & list different sources of error. 0 0 0 2 4 14 20 0.92 27.60
EX3-A Electronics Instruments and Measurement CO4 Able to understand the use CRO for component testing. 0 0 0 3 3 14 20 0.91 27.30
EX3-A Electronics Instruments and Measurement CO5 Able to explain bridges for measurement of R, L, C. 0 0 0 3 1 16 20 0.93 27.90
EX3-A Electrical Network Analysis and Synthesis CO1 Able to apply their understanding of network theorems in analyzing complex circuits. 0 0 0 4 1 15 20 0.91 27.30
EX3-A Electrical Network Analysis and Synthesis CO2 Able to solve sums on AC circuits and mutually coupled circuits 0 0 0 2 6 12 20 0.90 27.00
EX3-A Electrical Network Analysis and Synthesis CO3 Able to evaluate the time and frequency response of electrical circuits and thereby understand the behavior of electrical networks. 0 0 0 2 6 12 20 0.90 27.00
EX3-A Electrical Network Analysis and Synthesis CO4 Able to evaluate the inter-relationship among various circuit parameters and solve complex networks using these parameters. 0 0 0 3 4 13 20 0.90 27.00
EX3-A Electrical Network Analysis and Synthesis CO5 Able to synthesize electrical networks for a given network function 0 0 0 2 6 12 20 0.90 27.00
EX3-A Electrical Network Analysis and Synthesis CO6 Able to understand and design simple filters. 0 0 1 2 5 12 20 0.88 26.40
EX3-A Object Oriented Programming Methodology Laboratory CO1 Able to understand concept of Object Oriented Programming (OOP). 2 0 1 2 3 12 20 0.80 24.00
EX3-A Object Oriented Programming Methodology Laboratory CO2 Able to understand basic operations, data types in java & implement various control structures. 0 1 1 2 6 10 20 0.83 24.90
EX3-A Object Oriented Programming Methodology Laboratory CO3 Able to remember and implement the concept of strings, arrays, inheritance,etc. 0 0 2 4 4 10 20 0.82 24.60
EX3-A Object Oriented Programming Methodology Laboratory CO4 Able to analyse method overloading and demonstrate reusability with the help of inheritance. 0 0 1 2 6 11 20 0.87 26.10
EX3-A Object Oriented Programming Methodology Laboratory CO5 Able to understand the concept of abstract classes & Interface and evaluate the difference between them. 0 0 1 3 6 10 20 0.85 25.50
EX3-A Object Oriented Programming Methodology Laboratory CO6 Able to understand and implement the concept of multithreading, packages & applet. 0 1 0 2 6 11 20 0.86 25.80
EX5-A Business Communication & Ethics CO1 To hone the writing skills necessary for the design of a precise professional and technical document. 1 0 2 7 9 10 29 0.77 22.97
EX5-A Business Communication & Ethics CO2 To develop analytical and logical skills to solve real life problems in interpersonal communication. 1 1 0 9 7 11 29 0.77 22.97
EX5-A Business Communication & Ethics CO3 To inculcate professional and ethical attitude. 1 1 2 6 8 11 29 0.76 22.76
EX5-A Business Communication & Ethics CO4 To train students for effective formal presentation. 3 1 1 6 6 12 29 0.72 21.72
EX5-A Business Communication & Ethics CO5 To enhance employment skills and effective communication skills required for life-long learning. 1 1 1 6 6 14 29 0.79 23.79
EX5-A Business Communication & Ethics CO6 To train studens in the techniques of participating effectively in group discussion. 1 1 1 5 8 13 29 0.79 23.79
EX5-A Database and Management System CO1 Able to Understand the fundamentals of a database systems 1 1 0 6 5 16 29 0.82 24.62
EX5-A Database and Management System CO2 To Design and draw ER and EER diagram for the real life problem. 1 2 3 1 9 13 29 0.77 23.17
EX5-A Database and Management System CO3 To Convert conceptual model to relational model and formulate relational algebra queries. 1 0 4 5 5 14 29 0.78 23.38
EX5-A Database and Management System CO4 To Design and querying database using SQL. 1 0 3 3 7 15 29 0.81 24.41
EX5-A Database and Management System CO5 To Analyze and apply concepts of normalization to relational database design. 1 0 0 6 7 15 29 0.83 25.03
EX5-A Database and Management System CO6 To Understand the concept of transaction, concurrency and recovery. 1 0 2 3 11 12 29 0.81 24.21
EX5-A Digital Communication CO1 Comprehend the advantages of digital communication over analog communication and explain need for various subsystems in digital communication systems 1 7 6 6 7 2 29 0.52 15.52
EX5-A Digital Communication CO2 Realize the implications of Shannon-Hartley Capacity theorem while designing the efficient Source encoding technique. 1 8 6 5 6 3 29 0.51 15.31
EX5-A Digital Communication CO3 Understand the impact of Inter Symbol Interference in Baseband transmission and methods to mitigate its effect 1 9 7 4 7 1 29 0.47 14.07
EX5-A Digital Communication CO4 Analyze various Digital modulation methods 1 8 4 8 4 4 29 0.52 15.72
EX5-A Digital Communication CO5 Explain the concept and need for designing efficient Error Correcting codes. 1 9 5 6 4 4 29 0.50 15.10
EX5-A Digital Communication CO6 Realize the areas of application of Digital communication 2 10 3 6 3 5 29 0.49 14.69
EX5-A Design with Linear Integrated Circuits CO1 Able to understand fundamentals of integrated circuit 4 0 1 3 7 14 29 0.75 22.55
EX5-A Design with Linear Integrated Circuits CO2 Able to understand linear and non linear applications of operational amplifier. 1 0 1 5 7 15 29 0.83 24.83
EX5-A Design with Linear Integrated Circuits CO3 To analyze the various applications and circuits based on particular linear integrated circuit 1 0 2 4 10 12 29 0.80 24.00
EX5-A Design with Linear Integrated Circuits CO4 To select and use an appropriate integrated circuit to build a given application. 1 0 1 6 8 13 29 0.81 24.21
EX5-A Design with Linear Integrated Circuits CO5 To design an application with the use of integrated circuit 1 0 2 4 9 13 29 0.81 24.21
EX5-A Design with Linear Integrated Circuits CO6 Able to understand simulation software such as TINA for designing of electronic circuit. 1 0 1 1 12 14 29 0.85 25.45
EX5-A Engineering Electromagnetics CO1 Able to understand the behaviour of electromagnetic waves in different media 1 0 2 6 12 8 29 0.76 22.76
EX5-A Engineering Electromagnetics CO2 To be able to calculate the E/H field from one point to another and to be able to study the polarization of wave 1 0 1 9 6 12 29 0.78 23.38
EX5-A Engineering Electromagnetics CO3 To be able to solve electromagnetic problems using numerical methods 1 1 0 8 13 6 29 0.74 22.14
EX5-A Engineering Electromagnetics CO4 To realize the radiation concepts and the introduction to antennas 1 0 2 5 13 8 29 0.77 22.97
EX5-A Engineering Electromagnetics CO5 To be able to analyse the propogation aspects for good and smooth propogation 1 0 2 6 10 10 29 0.77 23.17
EX5-A Engineering Electromagnetics CO6 To be able to correlate the transmission line parameters with respect to parameters of electromagnetic field like propogation constants 1 1 1 3 10 13 29 0.81 24.21
EX5-A Microcontrollers and Applications CO1 Able to understand architecture and features of 8051 microprocontroller. 1 1 1 5 6 15 29 0.81 24.21
EX5-A Microcontrollers and Applications CO2 Able to understand instruction set and addressing modes of 8051 microcontroller to develop basic assembly language programming. 1 0 4 3 8 13 29 0.79 23.59
EX5-A Microcontrollers and Applications CO3 Able to study 8051 internal Hardware & write its programming. 1 0 3 8 4 13 29 0.77 22.97
EX5-A Microcontrollers and Applications CO4 Able to design and implement 8051 based systems using different peripherals like SSD, LCD, Stepper motor & DC motor. 1 1 2 6 9 10 29 0.75 22.55
EX5-A Microcontrollers and Applications CO5 Able to understand advanced features of Cortex-M3 architecture. 1 0 6 5 8 9 29 0.72 21.52
EX5-A Microcontrollers and Applications CO6 Able to use software like KEIL for writing and executing assembly language programs of 8051 microcontroller. 1 1 2 6 10 9 29 0.74 22.34
EX7-A Advance Networking Technologies CO1 Able to remember wireless LAN and WAN technologies like Wireless network, ATM,CSMA/CA 0 0 0 6 8 10 24 0.83 25.00
EX7-A Advance Networking Technologies CO2 Able to understand the concept of emerging wireless techniques like Bluetooth, Zigbee, UWB, RFID 0 0 2 1 11 10 24 0.84 25.25
EX7-A Advance Networking Technologies CO3 Able to apply knowledge acquired in Optical networking and know the concept like SONET & DWDM. 0 1 2 5 5 11 24 0.79 23.75
EX7-A Advance Networking Technologies CO4 Able to analyze the concept of Network design, security & its management funtional areas like FCAPS,RMON.SNMP. 0 1 0 5 5 13 24 0.84 25.25
EX7-A Advance Networking Technologies CO5 Able to differentiate between Intra and inter domain routing & study types of unicast and mulyicast routing protocol. 0 0 2 5 6 11 24 0.82 24.50
EX7-A Advance Networking Technologies CO6 Able to understand the concept of cloud computing and its impact on users and service providers like Amazon, Google. 0 0 1 2 8 13 24 0.88 26.25
EX7-A Digital signal processing CO1 Able to determine the Discrete Fourier Transform and develop DIT-FFT , DIF-FFT algorithms. 0 0 0 1 13 10 24 0.88 26.25
EX7-A Digital signal processing CO2 Able to decide the selection and design of IIR digital filters and develop algorithms for implementation 0 0 0 2 11 11 24 0.88 26.25
EX7-A Digital signal processing CO3 Able to decide the selection and design of FIR digital filters and develop algorithms for implementation 0 0 1 3 6 14 24 0.88 26.25
EX7-A Digital signal processing CO4 Able to Understand the effect of hardware limitations on performance of digital filters 0 0 1 3 9 11 24 0.85 25.50
EX7-A Digital signal processing CO5 Able to understand the concept of multirate signal processing and FilterBanks 0 0 3 3 5 13 24 0.83 25.00
EX7-A Digital signal processing CO6 Able to use advanced signal processing techniques and digital signal processors in various applications 0 0 1 2 10 11 24 0.86 25.75
EX7-A Instrumentation System Design CO1 Demonstrate the needs of advancement like DCS, SCADA, Virtual Instrumentation in industrail Automation 0 0 1 5 12 6 24 0.79 23.75
EX7-A Instrumentation System Design CO2 Able to undestand the pneumatic & hydraulic systems 0 1 3 3 8 9 24 0.78 23.25
EX7-A Instrumentation System Design CO3 Choose the transmitter / Signal condtioning for a given process parameter(like temp, level) acqusition system 0 2 1 6 6 9 24 0.76 22.75
EX7-A Instrumentation System Design CO4 To study bulding blocks of industral control system 0 3 3 6 6 6 24 0.68 20.25
EX7-A Instrumentation System Design CO5 Design the various controller like Analog(PID) and PLC for a given process or application 1 2 1 7 5 8 24 0.71 21.25
EX7-A Instrumentation System Design CO6 Able to understand Calibration, Various Standard, ISA symbols 0 2 0 6 10 6 24 0.75 22.50
EX7-A Power Electronics CO1 Able to Understand various emerging Power Devices, Comparison of these devices with each other,their working and applications. 0 4 3 3 7 7 24 0.68 20.50
EX7-A Power Electronics CO2 Able to Understand Various triggering circuits to turn the SCR ON, commutation circuits to turn OFF the SCR and the protection schemes. 0 1 2 11 5 5 24 0.69 20.75
EX7-A Power Electronics CO3 Able to understand the basics of single phase converters and effect of source inductance along with the mathematical analysis of their performance parameters . 0 3 3 8 7 3 24 0.63 19.00
EX7-A Power Electronics CO4 Able to Understand the conversion of d.c. to variable a.c. with the help of inverters. 0 3 2 10 5 4 24 0.64 19.25
EX7-A Power Electronics CO5 Able to understand Chopper circuits, which converts fixed d.c. to variable d.c. 0 2 2 10 6 4 24 0.67 20.00
EX7-A Power Electronics CO6 Able to understand the conversion of fixed A.C. to variable A.C with the help of Voltage Converters and Cycloconverters. 0 3 1 9 5 6 24 0.68 20.50
FE1-A Engineering Chemistry-I CO1 Explain the concept of microscopic chemistryin terms of atomic and molecular orbital theory 5 1 0 7 13 19 45 0.75 22.53
FE1-B Engineering Chemistry-I CO1 Explain the concept of microscopic chemistryin terms of atomic and molecular orbital theory 1 1 1 0 3 8 14 0.79 23.57
FE1-C Engineering Chemistry-I CO1 Explain the concept of microscopic chemistryin terms of atomic and molecular orbital theory 0 0 0 1 0 1 2 0.80 24.00
FE1-D Engineering Chemistry-I CO1 Explain the concept of microscopic chemistryin terms of atomic and molecular orbital theory 2 0 1 5 9 31 48 0.87 26.00
FE1-E Engineering Chemistry-I CO1 Explain the concept of microscopic chemistryin terms of atomic and molecular orbital theory 3 0 1 6 9 18 37 0.79 23.68
FE1-F Engineering Chemistry-I CO1 Explain the concept of microscopic chemistryin terms of atomic and molecular orbital theory 3 0 2 5 12 16 38 0.77 23.21
FE1-G Engineering Chemistry-I CO1 Explain the concept of microscopic chemistryin terms of atomic and molecular orbital theory 1 0 3 5 7 3 19 0.67 20.21
FE1-H Engineering Chemistry-I CO1 Explain the concept of microscopic chemistryin terms of atomic and molecular orbital theory 2 1 2 10 10 9 34 0.71 21.18
FE1-A Engineering Chemistry-I CO2 Describe the concept of aromaticity and interpret various aromatic systems 5 0 5 10 11 14 45 0.68 20.53
FE1-B Engineering Chemistry-I CO2 Describe the concept of aromaticity and interpret various aromatic systems 2 0 1 0 6 5 14 0.73 21.86
FE1-C Engineering Chemistry-I CO2 Describe the concept of aromaticity and interpret various aromatic systems 0 0 0 0 1 1 2 0.90 27.00
FE1-D Engineering Chemistry-I CO2 Describe the concept of aromaticity and interpret various aromatic systems 2 0 6 7 12 21 48 0.78 23.25
FE1-E Engineering Chemistry-I CO2 Describe the concept of aromaticity and interpret various aromatic systems 2 2 0 6 11 16 37 0.78 23.35
FE1-F Engineering Chemistry-I CO2 Describe the concept of aromaticity and interpret various aromatic systems 3 0 2 6 14 13 38 0.75 22.58
FE1-G Engineering Chemistry-I CO2 Describe the concept of aromaticity and interpret various aromatic systems 1 0 2 8 4 4 19 0.67 20.21
FE1-H Engineering Chemistry-I CO2 Describe the concept of aromaticity and interpret various aromatic systems 2 2 2 10 6 12 34 0.71 21.18
FE1-A Engineering Chemistry-I CO3 Illustrate the knowledge of various types of intermolecular forces. 5 1 1 6 14 18 45 0.74 22.27
FE1-B Engineering Chemistry-I CO3 Illustrate the knowledge of various types of intermolecular forces. 2 1 1 0 4 6 14 0.70 21.00
FE1-C Engineering Chemistry-I CO3 Illustrate the knowledge of various types of intermolecular forces. 0 0 0 1 0 1 2 0.80 24.00
FE1-D Engineering Chemistry-I CO3 Illustrate the knowledge of various types of intermolecular forces. 2 0 1 2 12 31 48 0.88 26.38
FE1-E Engineering Chemistry-I CO3 Illustrate the knowledge of various types of intermolecular forces. 2 0 2 3 8 22 37 0.84 25.14
FE1-F Engineering Chemistry-I CO3 Illustrate the knowledge of various types of intermolecular forces. 3 1 1 3 17 13 38 0.76 22.89
FE1-G Engineering Chemistry-I CO3 Illustrate the knowledge of various types of intermolecular forces. 1 0 3 6 6 3 19 0.66 19.89
FE1-H Engineering Chemistry-I CO3 Illustrate the knowledge of various types of intermolecular forces. 2 1 0 8 7 16 34 0.78 23.47
FE1-A Engineering Chemistry-I CO4 Interpret various phase transformations using thermodynamics 5 0 3 11 10 16 45 0.71 21.20
FE1-B Engineering Chemistry-I CO4 Interpret various phase transformations using thermodynamics 2 1 1 3 3 4 14 0.63 18.86
FE1-C Engineering Chemistry-I CO4 Interpret various phase transformations using thermodynamics 0 0 0 0 1 1 2 0.90 27.00
FE1-D Engineering Chemistry-I CO4 Interpret various phase transformations using thermodynamics 2 0 2 5 11 28 48 0.85 25.38
FE1-E Engineering Chemistry-I CO4 Interpret various phase transformations using thermodynamics 2 0 1 7 6 21 37 0.82 24.65
FE1-F Engineering Chemistry-I CO4 Interpret various phase transformations using thermodynamics 3 3 2 6 12 12 38 0.70 21.00
FE1-G Engineering Chemistry-I CO4 Interpret various phase transformations using thermodynamics 1 0 2 7 5 4 19 0.68 20.53
FE1-H Engineering Chemistry-I CO4 Interpret various phase transformations using thermodynamics 3 1 4 9 5 12 34 0.68 20.47
FE1-A Engineering Chemistry-I CO5 Illustrate the knowledge of polymers, fabrication methods, conducting polymers in various industrial fields 5 0 0 9 12 19 45 0.76 22.67
FE1-B Engineering Chemistry-I CO5 Illustrate the knowledge of polymers, fabrication methods, conducting polymers in various industrial fields 2 1 0 1 3 7 14 0.73 21.86
FE1-C Engineering Chemistry-I CO5 Illustrate the knowledge of polymers, fabrication methods, conducting polymers in various industrial fields 0 0 0 0 1 1 2 0.90 27.00
FE1-D Engineering Chemistry-I CO5 Illustrate the knowledge of polymers, fabrication methods, conducting polymers in various industrial fields 2 0 0 4 9 33 48 0.89 26.63
FE1-E Engineering Chemistry-I CO5 Illustrate the knowledge of polymers, fabrication methods, conducting polymers in various industrial fields 2 1 1 3 6 24 37 0.84 25.30
FE1-F Engineering Chemistry-I CO5 Illustrate the knowledge of polymers, fabrication methods, conducting polymers in various industrial fields 3 1 2 4 12 16 38 0.76 22.89
FE1-G Engineering Chemistry-I CO5 Illustrate the knowledge of polymers, fabrication methods, conducting polymers in various industrial fields 1 0 5 5 4 4 19 0.64 19.26
FE1-H Engineering Chemistry-I CO5 Illustrate the knowledge of polymers, fabrication methods, conducting polymers in various industrial fields 2 2 2 8 6 14 34 0.73 21.88
FE1-A Engineering Chemistry-I CO6 Analyze the quality of water and suggest suitable methods of treatments. 5 1 2 6 5 26 45 0.77 23.07
FE1-B Engineering Chemistry-I CO6 Analyze the quality of water and suggest suitable methods of treatments. 2 1 0 0 2 9 14 0.77 23.14
FE1-C Engineering Chemistry-I CO6 Analyze the quality of water and suggest suitable methods of treatments. 0 0 0 1 0 1 2 0.80 24.00
FE1-D Engineering Chemistry-I CO6 Analyze the quality of water and suggest suitable methods of treatments. 2 0 1 2 10 33 48 0.89 26.63
FE1-E Engineering Chemistry-I CO6 Analyze the quality of water and suggest suitable methods of treatments. 2 0 3 3 4 25 37 0.84 25.30
FE1-F Engineering Chemistry-I CO6 Analyze the quality of water and suggest suitable methods of treatments. 3 0 1 2 11 21 38 0.83 24.79
FE1-G Engineering Chemistry-I CO6 Analyze the quality of water and suggest suitable methods of treatments. 1 0 2 5 4 7 19 0.74 22.11
FE1-H Engineering Chemistry-I CO6 Analyze the quality of water and suggest suitable methods of treatments. 2 1 1 4 7 19 34 0.81 24.35
FE1-A Engineering Mathematics-I CO1 Illustrate the basic concepts of Complex numbers. 6 0 2 9 9 19 45 0.72 21.60
FE1-B Engineering Mathematics-I CO1 Illustrate the basic concepts of Complex numbers. 2 1 1 2 1 7 14 0.69 20.57
FE1-C Engineering Mathematics-I CO1 Illustrate the basic concepts of Complex numbers. 0 0 0 0 0 2 2 1.00 30.00
FE1-D Engineering Mathematics-I CO1 Illustrate the basic concepts of Complex numbers. 3 0 1 2 18 24 48 0.83 25.00
FE1-E Engineering Mathematics-I CO1 Illustrate the basic concepts of Complex numbers. 4 0 0 4 4 25 37 0.83 24.81
FE1-F Engineering Mathematics-I CO1 Illustrate the basic concepts of Complex numbers. 4 0 2 6 13 13 38 0.73 21.95
FE1-G Engineering Mathematics-I CO1 Illustrate the basic concepts of Complex numbers. 1 0 3 2 4 9 19 0.77 23.05
FE1-H Engineering Mathematics-I CO1 Illustrate the basic concepts of Complex numbers. 3 0 0 3 5 23 34 0.85 25.41
FE1-A Engineering Mathematics-I CO2 Apply the knowledge of complex numbersto solve problems in hyperbolic functions and logarithmic function 5 1 0 5 16 18 45 0.76 22.67
FE1-B Engineering Mathematics-I CO2 Apply the knowledge of complex numbersto solve problems in hyperbolic functions and logarithmic function 2 0 2 3 3 4 14 0.64 19.29
FE1-C Engineering Mathematics-I CO2 Apply the knowledge of complex numbersto solve problems in hyperbolic functions and logarithmic function 0 0 0 0 0 2 2 1.00 30.00
FE1-D Engineering Mathematics-I CO2 Apply the knowledge of complex numbersto solve problems in hyperbolic functions and logarithmic function 2 0 1 10 14 21 48 0.80 24.13
FE1-E Engineering Mathematics-I CO2 Apply the knowledge of complex numbersto solve problems in hyperbolic functions and logarithmic function 2 0 2 5 8 20 37 0.82 24.49
FE1-F Engineering Mathematics-I CO2 Apply the knowledge of complex numbersto solve problems in hyperbolic functions and logarithmic function 3 2 0 4 15 14 38 0.76 22.74
FE1-G Engineering Mathematics-I CO2 Apply the knowledge of complex numbersto solve problems in hyperbolic functions and logarithmic function 1 0 3 5 6 4 19 0.68 20.53
FE1-H Engineering Mathematics-I CO2 Apply the knowledge of complex numbersto solve problems in hyperbolic functions and logarithmic function 2 0 0 5 3 24 34 0.86 25.94
FE1-A Engineering Mathematics-I CO3 Illustrate the basic principles of Partial differentiation 5 1 1 7 14 17 45 0.73 22.00
FE1-B Engineering Mathematics-I CO3 Illustrate the basic principles of Partial differentiation 2 1 1 2 3 5 14 0.66 19.71
FE1-C Engineering Mathematics-I CO3 Illustrate the basic principles of Partial differentiation 0 0 0 0 1 1 2 0.90 27.00
FE1-D Engineering Mathematics-I CO3 Illustrate the basic principles of Partial differentiation 2 0 1 6 15 24 48 0.83 25.00
FE1-E Engineering Mathematics-I CO3 Illustrate the basic principles of Partial differentiation 2 0 1 2 10 22 37 0.85 25.62
FE1-F Engineering Mathematics-I CO3 Illustrate the basic principles of Partial differentiation 3 1 2 8 11 13 38 0.73 21.79
FE1-G Engineering Mathematics-I CO3 Illustrate the basic principles of Partial differentiation 1 1 2 5 4 6 19 0.69 20.84
FE1-H Engineering Mathematics-I CO3 Illustrate the basic principles of Partial differentiation 2 0 0 3 6 23 34 0.87 26.12
FE1-A Engineering Mathematics-I CO4 Illustrate the knowledge of Maxima, Minima and Successive differentiation. 5 0 1 9 12 18 45 0.74 22.27
FE1-B Engineering Mathematics-I CO4 Illustrate the knowledge of Maxima, Minima and Successive differentiation. 2 1 1 2 3 5 14 0.66 19.71
FE1-C Engineering Mathematics-I CO4 Illustrate the knowledge of Maxima, Minima and Successive differentiation. 0 0 0 0 1 1 2 0.90 27.00
FE1-D Engineering Mathematics-I CO4 Illustrate the knowledge of Maxima, Minima and Successive differentiation. 2 0 0 10 16 20 48 0.81 24.25
FE1-E Engineering Mathematics-I CO4 Illustrate the knowledge of Maxima, Minima and Successive differentiation. 2 0 0 5 7 23 37 0.85 25.62
FE1-F Engineering Mathematics-I CO4 Illustrate the knowledge of Maxima, Minima and Successive differentiation. 3 1 1 7 11 15 38 0.75 22.58
FE1-G Engineering Mathematics-I CO4 Illustrate the knowledge of Maxima, Minima and Successive differentiation. 1 0 4 5 3 6 19 0.68 20.53
FE1-H Engineering Mathematics-I CO4 Illustrate the knowledge of Maxima, Minima and Successive differentiation. 2 0 0 5 5 22 34 0.85 25.59
FE1-A Engineering Mathematics-I CO5 Apply principles of basic operations of matrices, rank and echelon form of matrices to solve simultaneous equations 5 2 1 8 15 14 45 0.70 21.07
FE1-B Engineering Mathematics-I CO5 Apply principles of basic operations of matrices, rank and echelon form of matrices to solve simultaneous equations 2 1 0 0 4 7 14 0.74 22.29
FE1-C Engineering Mathematics-I CO5 Apply principles of basic operations of matrices, rank and echelon form of matrices to solve simultaneous equations 0 0 0 0 1 1 2 0.90 27.00
FE1-D Engineering Mathematics-I CO5 Apply principles of basic operations of matrices, rank and echelon form of matrices to solve simultaneous equations 2 0 2 6 18 20 48 0.81 24.25
FE1-E Engineering Mathematics-I CO5 Apply principles of basic operations of matrices, rank and echelon form of matrices to solve simultaneous equations 2 0 0 6 7 22 37 0.84 25.30
FE1-F Engineering Mathematics-I CO5 Apply principles of basic operations of matrices, rank and echelon form of matrices to solve simultaneous equations 3 1 1 6 9 18 38 0.77 23.21
FE1-G Engineering Mathematics-I CO5 Apply principles of basic operations of matrices, rank and echelon form of matrices to solve simultaneous equations 1 0 3 5 4 6 19 0.71 21.16
FE1-H Engineering Mathematics-I CO5 Apply principles of basic operations of matrices, rank and echelon form of matrices to solve simultaneous equations 2 0 0 3 8 21 34 0.86 25.76
FE1-A Engineering Mathematics-I CO6 Illustrate SCILAB programming techniques to the solution of linear and simultaneous algebraic equations. 5 0 1 9 13 17 45 0.74 22.13
FE1-B Engineering Mathematics-I CO6 Illustrate SCILAB programming techniques to the solution of linear and simultaneous algebraic equations. 2 1 0 0 4 7 14 0.74 22.29
FE1-C Engineering Mathematics-I CO6 Illustrate SCILAB programming techniques to the solution of linear and simultaneous algebraic equations. 0 0 0 0 0 2 2 1.00 30.00
FE1-D Engineering Mathematics-I CO6 Illustrate SCILAB programming techniques to the solution of linear and simultaneous algebraic equations. 2 0 1 8 20 17 48 0.80 23.88
FE1-E Engineering Mathematics-I CO6 Illustrate SCILAB programming techniques to the solution of linear and simultaneous algebraic equations. 2 1 1 3 8 22 37 0.83 24.97
FE1-F Engineering Mathematics-I CO6 Illustrate SCILAB programming techniques to the solution of linear and simultaneous algebraic equations. 3 1 1 7 11 15 38 0.75 22.58
FE1-G Engineering Mathematics-I CO6 Illustrate SCILAB programming techniques to the solution of linear and simultaneous algebraic equations. 1 0 4 5 3 6 19 0.68 20.53
FE1-H Engineering Mathematics-I CO6 Illustrate SCILAB programming techniques to the solution of linear and simultaneous algebraic equations. 2 0 1 2 11 18 34 0.84 25.06
FE1-A Engineering Physics-I CO1 Illustrate the fundamentals of quantum mechanics and its application. 6 0 6 6 14 13 45 0.67 20.13
FE1-B Engineering Physics-I CO1 Illustrate the fundamentals of quantum mechanics and its application. 3 0 0 2 4 5 14 0.67 20.14
FE1-C Engineering Physics-I CO1 Illustrate the fundamentals of quantum mechanics and its application. 0 0 0 0 1 1 2 0.90 27.00
FE1-D Engineering Physics-I CO1 Illustrate the fundamentals of quantum mechanics and its application. 4 6 9 16 7 6 48 0.54 16.25
FE1-E Engineering Physics-I CO1 Illustrate the fundamentals of quantum mechanics and its application. 5 0 1 6 9 16 37 0.74 22.05
FE1-F Engineering Physics-I CO1 Illustrate the fundamentals of quantum mechanics and its application. 3 1 2 7 11 14 38 0.74 22.11
FE1-G Engineering Physics-I CO1 Illustrate the fundamentals of quantum mechanics and its application. 1 1 4 4 6 3 19 0.63 18.95
FE1-H Engineering Physics-I CO1 Illustrate the fundamentals of quantum mechanics and its application. 4 1 1 3 12 13 34 0.74 22.06
FE1-A Engineering Physics-I CO2 Illustrate the knowledge of crystal planes, X-ray diffraction and its application. 5 0 3 12 12 13 45 0.69 20.67
FE1-B Engineering Physics-I CO2 Illustrate the knowledge of crystal planes, X-ray diffraction and its application. 2 1 0 2 2 7 14 0.71 21.43
FE1-C Engineering Physics-I CO2 Illustrate the knowledge of crystal planes, X-ray diffraction and its application. 0 0 0 0 0 2 2 1.00 30.00
FE1-D Engineering Physics-I CO2 Illustrate the knowledge of crystal planes, X-ray diffraction and its application. 2 2 2 7 16 19 48 0.78 23.25
FE1-E Engineering Physics-I CO2 Illustrate the knowledge of crystal planes, X-ray diffraction and its application. 2 1 0 9 9 16 37 0.78 23.35
FE1-F Engineering Physics-I CO2 Illustrate the knowledge of crystal planes, X-ray diffraction and its application. 3 0 4 4 11 16 38 0.76 22.74
FE1-G Engineering Physics-I CO2 Illustrate the knowledge of crystal planes, X-ray diffraction and its application. 2 0 6 1 5 5 19 0.63 18.95
FE1-H Engineering Physics-I CO2 Illustrate the knowledge of crystal planes, X-ray diffraction and its application. 2 1 2 10 7 12 34 0.72 21.71
FE1-A Engineering Physics-I CO3 Illustrate the knowledge of Fermi level in semiconductors and applications of semiconductors in electronic devices. 5 1 7 12 13 7 45 0.61 18.40
FE1-B Engineering Physics-I CO3 Illustrate the knowledge of Fermi level in semiconductors and applications of semiconductors in electronic devices. 2 1 2 1 3 5 14 0.64 19.29
FE1-C Engineering Physics-I CO3 Illustrate the knowledge of Fermi level in semiconductors and applications of semiconductors in electronic devices. 0 0 0 0 1 1 2 0.90 27.00
FE1-D Engineering Physics-I CO3 Illustrate the knowledge of Fermi level in semiconductors and applications of semiconductors in electronic devices. 2 7 6 14 8 11 48 0.62 18.50
FE1-E Engineering Physics-I CO3 Illustrate the knowledge of Fermi level in semiconductors and applications of semiconductors in electronic devices. 2 0 8 4 10 13 37 0.72 21.57
FE1-F Engineering Physics-I CO3 Illustrate the knowledge of Fermi level in semiconductors and applications of semiconductors in electronic devices. 3 2 2 10 9 12 38 0.69 20.84
FE1-G Engineering Physics-I CO3 Illustrate the knowledge of Fermi level in semiconductors and applications of semiconductors in electronic devices. 2 0 4 5 4 4 19 0.62 18.63
FE1-H Engineering Physics-I CO3 Illustrate the knowledge of Fermi level in semiconductors and applications of semiconductors in electronic devices. 2 3 5 5 6 13 34 0.69 20.65
FE1-A Engineering Physics-I CO4 Illustrate the knowledge of interference in thin films and its various applications. 5 1 4 9 9 17 45 0.70 20.93
FE1-B Engineering Physics-I CO4 Illustrate the knowledge of interference in thin films and its various applications. 3 0 2 2 2 5 14 0.61 18.43
FE1-C Engineering Physics-I CO4 Illustrate the knowledge of interference in thin films and its various applications. 0 0 0 0 0 2 2 1.00 30.00
FE1-D Engineering Physics-I CO4 Illustrate the knowledge of interference in thin films and its various applications. 2 2 0 9 12 23 48 0.80 24.00
FE1-E Engineering Physics-I CO4 Illustrate the knowledge of interference in thin films and its various applications. 2 0 3 8 10 14 37 0.76 22.70
FE1-F Engineering Physics-I CO4 Illustrate the knowledge of interference in thin films and its various applications. 3 1 0 5 15 14 38 0.77 23.05
FE1-G Engineering Physics-I CO4 Illustrate the knowledge of interference in thin films and its various applications. 2 2 3 4 4 4 19 0.59 17.68
FE1-H Engineering Physics-I CO4 Illustrate the knowledge of interference in thin films and its various applications. 2 2 1 3 12 14 34 0.77 23.12
FE1-A Engineering Physics-I CO5 Illustrate the basic knowledge of superconductors and supercapacitors. 5 2 4 15 8 11 45 0.63 18.93
FE1-B Engineering Physics-I CO5 Illustrate the basic knowledge of superconductors and supercapacitors. 3 0 1 4 2 4 14 0.60 18.00
FE1-C Engineering Physics-I CO5 Illustrate the basic knowledge of superconductors and supercapacitors. 0 0 0 0 1 1 2 0.90 27.00
FE1-D Engineering Physics-I CO5 Illustrate the basic knowledge of superconductors and supercapacitors. 2 12 3 12 12 7 48 0.57 17.13
FE1-E Engineering Physics-I CO5 Illustrate the basic knowledge of superconductors and supercapacitors. 2 2 3 7 8 15 37 0.74 22.05
FE1-F Engineering Physics-I CO5 Illustrate the basic knowledge of superconductors and supercapacitors. 3 3 3 10 11 8 38 0.65 19.42
FE1-G Engineering Physics-I CO5 Illustrate the basic knowledge of superconductors and supercapacitors. 2 2 6 3 3 3 19 0.53 15.79
FE1-H Engineering Physics-I CO5 Illustrate the basic knowledge of superconductors and supercapacitors. 2 5 2 9 7 9 34 0.64 19.24
FE1-A Engineering Physics-I CO6 Illustrate the knowledge of engineering materials and applications. 5 2 6 13 8 11 45 0.62 18.67
FE1-B Engineering Physics-I CO6 Illustrate the knowledge of engineering materials and applications. 3 0 1 5 1 4 14 0.59 17.57
FE1-C Engineering Physics-I CO6 Illustrate the knowledge of engineering materials and applications. 0 0 0 0 1 1 2 0.90 27.00
FE1-D Engineering Physics-I CO6 Illustrate the knowledge of engineering materials and applications. 2 11 5 10 12 8 48 0.58 17.38
FE1-E Engineering Physics-I CO6 Illustrate the knowledge of engineering materials and applications. 2 5 2 7 6 15 37 0.70 20.92
FE1-F Engineering Physics-I CO6 Illustrate the knowledge of engineering materials and applications. 3 4 1 7 13 10 38 0.68 20.37
FE1-G Engineering Physics-I CO6 Illustrate the knowledge of engineering materials and applications. 2 4 4 5 2 2 19 0.47 14.21
FE1-H Engineering Physics-I CO6 Illustrate the knowledge of engineering materials and applications. 3 4 4 5 10 8 34 0.63 18.88
FE1-A Engineering Physics-I CO7 Able to visulize, analyse and apply Physics to Engineering Problems 5 2 3 10 15 10 45 0.66 19.73
FE1-B Engineering Physics-I CO7 Able to visulize, analyse and apply Physics to Engineering Problems 3 0 2 2 2 5 14 0.61 18.43
FE1-C Engineering Physics-I CO7 Able to visulize, analyse and apply Physics to Engineering Problems 0 0 0 0 0 2 2 1.00 30.00
FE1-D Engineering Physics-I CO7 Able to visulize, analyse and apply Physics to Engineering Problems 2 9 5 13 12 7 48 0.59 17.63
FE1-E Engineering Physics-I CO7 Able to visulize, analyse and apply Physics to Engineering Problems 2 3 1 7 10 14 37 0.74 22.05
FE1-F Engineering Physics-I CO7 Able to visulize, analyse and apply Physics to Engineering Problems 3 2 0 6 11 16 38 0.76 22.74
FE1-G Engineering Physics-I CO7 Able to visulize, analyse and apply Physics to Engineering Problems 2 1 3 5 3 5 19 0.62 18.63
FE1-H Engineering Physics-I CO7 Able to visulize, analyse and apply Physics to Engineering Problems 3 2 5 3 9 12 34 0.69 20.65
FE1-A Basic Electrical Engineering CO1 Able to solve problems using various circuit analysis techniques like Thevenin’s, Norton’s,Superposition theorems, mesh and nodal analysis. 6 0 1 3 11 24 45 0.78 23.33
FE1-B Basic Electrical Engineering CO1 Able to solve problems using various circuit analysis techniques like Thevenin’s, Norton’s,Superposition theorems, mesh and nodal analysis. 2 1 0 0 0 11 14 0.80 24.00
FE1-C Basic Electrical Engineering CO1 Able to solve problems using various circuit analysis techniques like Thevenin’s, Norton’s,Superposition theorems, mesh and nodal analysis. 0 0 0 0 0 2 2 1.00 30.00
FE1-D Basic Electrical Engineering CO1 Able to solve problems using various circuit analysis techniques like Thevenin’s, Norton’s,Superposition theorems, mesh and nodal analysis. 4 1 2 3 9 29 48 0.81 24.38
FE1-E Basic Electrical Engineering CO1 Able to solve problems using various circuit analysis techniques like Thevenin’s, Norton’s,Superposition theorems, mesh and nodal analysis. 2 1 1 2 6 25 37 0.85 25.62
FE1-F Basic Electrical Engineering CO1 Able to solve problems using various circuit analysis techniques like Thevenin’s, Norton’s,Superposition theorems, mesh and nodal analysis. 3 0 0 1 13 21 38 0.84 25.26
FE1-G Basic Electrical Engineering CO1 Able to solve problems using various circuit analysis techniques like Thevenin’s, Norton’s,Superposition theorems, mesh and nodal analysis. 2 0 2 2 6 7 19 0.73 21.79
FE1-H Basic Electrical Engineering CO1 Able to solve problems using various circuit analysis techniques like Thevenin’s, Norton’s,Superposition theorems, mesh and nodal analysis. 2 0 1 1 10 20 34 0.85 25.59
FE1-A Basic Electrical Engineering CO2 Able to analyze single and three phase A.C circuits. 5 1 1 4 10 24 45 0.78 23.33
FE1-B Basic Electrical Engineering CO2 Able to analyze single and three phase A.C circuits. 3 0 0 1 2 8 14 0.73 21.86
FE1-C Basic Electrical Engineering CO2 Able to analyze single and three phase A.C circuits. 0 0 0 0 0 2 2 1.00 30.00
FE1-D Basic Electrical Engineering CO2 Able to analyze single and three phase A.C circuits. 2 0 1 3 13 29 48 0.87 26.00
FE1-E Basic Electrical Engineering CO2 Able to analyze single and three phase A.C circuits. 2 1 0 4 8 22 37 0.84 25.14
FE1-F Basic Electrical Engineering CO2 Able to analyze single and three phase A.C circuits. 3 0 1 6 12 16 38 0.78 23.37
FE1-G Basic Electrical Engineering CO2 Able to analyze single and three phase A.C circuits. 1 1 1 3 6 7 19 0.75 22.42
FE1-H Basic Electrical Engineering CO2 Able to analyze single and three phase A.C circuits. 2 0 2 5 6 19 34 0.81 24.35
FE1-A Basic Electrical Engineering CO3 Able to understand the construction and working of single phase transformers and solve problems based on it. 5 0 3 8 13 16 45 0.72 21.60
FE1-B Basic Electrical Engineering CO3 Able to understand the construction and working of single phase transformers and solve problems based on it. 2 0 0 2 5 5 14 0.73 21.86
FE1-C Basic Electrical Engineering CO3 Able to understand the construction and working of single phase transformers and solve problems based on it. 0 0 0 0 0 2 2 1.00 30.00
FE1-D Basic Electrical Engineering CO3 Able to understand the construction and working of single phase transformers and solve problems based on it. 2 0 3 3 10 30 48 0.85 25.63
FE1-E Basic Electrical Engineering CO3 Able to understand the construction and working of single phase transformers and solve problems based on it.