AUDISANKARA COLLEGE OF ENGINEERING & TECHNOLOGY(AUTONOMOUS):GUDUR: AUDISANKARA COLLEGE OF ENGINEERING & TECHNOLOGY(AUTONOMOUS):GUDUR:
DEPARTMENT OF CIVIL ENGINEERING DEPARTMENT OF CIVIL ENGINEERING
COURSE OUTCOMES   COURSE ARTICULATION MATRIX(CO-PO-PSO MAPPING)
1: Slight (Low)     2: Moderate (Medium)     3: Substantial (High)
S.NO SEM CODE COURSE NAME CO COURSE OUTCOME Cos PO1 PO2 PO3 PO4 PO5 PO6 PO7 PSO1 PSO2
1 I 18ST101 ADVANCED STRUCTURAL ANALYSIS CO1 Demonstrate advanced methods for analysis of structures. CO1   2              
CO2 Find forces and displacements for special structures. CO2 2 1             1
CO3 Compose field applications using advanced methods. CO3   2     3       1
2 I 18ST102 THEORY OF ELASTICITY AND PLASTICITY CO1 Demonstrate theknowledge of fundamental methods of elasticity for 2-D Cartesian and Polar problems. CO1   3             1
CO2 Analyzetorsional problems and apprise various theories to solve 2-D torsional problems. CO2   2             1
CO3 Analyze concept of material yielding and plastic behavior of structures.  CO3 2               1
3 I 18ST103 THEORY AND ANALYSIS OF PLATES CO1 Demonstrate behaviour of various plates and shells. CO1 2               1
CO2 Analyze plates and shellsusing different methods.  CO2   3              
CO3 Evaluate structural actions for practical applications of plates and shells. CO3   2              
4 I 18ST104 MAINTENANCE AND REHABILITATION OF STRUCTURES
CO1 Acquire fundamentals of structural health monitoring CO1     1   1   1 1  
CO2 Assess the health of structure by using Vibration techniques CO2     2   1   1   1
CO3 Apply repairs and rehabilitation measures of the structure  CO3     2   1   2   1
5 I 18ST105 STABILITY OF STRUCTURES CO1 Learn principles of stability of structures CO1 2 1 2 1       1  
CO2 Analyse the structural elements for stability CO2 2 3 3 2 1        
CO3 Study the concept of buckling CO3 3 3 3 1          
6 I 18ST106 SOIL STRUCTURE INTERACTION CO1 Evaluate the lateral earth pressures associated with different earth systems CO1 3 2 3         1  
CO2 Analyse the different types of earth retention system CO2 3 3 3 3         1
CO3 Design the earth retaining structures used for support of fills and excavations CO3 3 2 3 3         1
7 I 18ST107 BRIDGE ENGINEERING CO1 Demonstrate types of bridges , their components and selection of bridge site CO1 3 2           1  
CO2 Analyze various types of bridges with appropriate loads and methods CO2   3 2   2        
CO3 Design of bridges and bearings along with reinforcement details CO3     3   2        
8 I 18ST109 CONCRETE TECHNOLOGY  LAB CO1 Carryout compression test on concrete  CO1       3       1 1
CO2 Determine tensile strength and flexural strength of concrete CO2       3         1
CO3 Prepare the mix design as per IS code method CO3       3         1
9 I 18ST110 COMPUTATIONAL LAB CO1 Define the various loads acting on the structures CO1       1 1     1  
CO2 Model the structures for Load combinations CO2       2 3        
CO3 Analyze the structures for various load combinations CO3       2 3     1  
10 II 18ST111 RESEARCH METHODOLOGY AND IPR CO1 Interpret data from research papers CO1 3 1             1
CO2 Analyze seminar and presentations CO2 3 1           1  
CO3 Write Dissertation on the basis of research carried out CO3 3 2           1  
11 II 18ST201 FINITE ELEMENT METHODS CO1 Find the shape function of 1-D & 2-D elements CO1 3 2   2       2  
CO2 Generate Stiffness matrix & nodal loaded matrix for 3-noded triangular element CO2 3 2   2       2  
CO3 Generate Stiffness matrix & nodal loaded matrix for 4-noded rectangular element CO3 3 2   2       2  
12 II 18ST202 STRUCTURAL DYNAMICS CO1 Demonstrate the dynamic behaviour of structural systems.  CO1   3           1  
CO2 Find response of structural systems under dynamic load.  CO2   2 2           1
CO3 Devise mathematical model for solving field problems CO3   1 3   2       1
13 II 18ST203 ADVANCED STEEL DESIGN CO1 Analyze the steel components for different loads acting on them. CO1 3 3 3 2       1  
CO2 Design various types of steel structural components using provisions of standards, codes of practice for ethical design of steel components and develop professional competencies CO2 3 3 3 2         1
CO3 Propose design solution of industrial steel structures at component and system level. CO3 3 3 3 2         1
14 II 18ST204 EARTHQUAKE RESISTANT STRUCTURES CO1 Explain the concepts in Engineering Seismology, response spectrum, structural configuration, ductility and seismic analysis
CO1 3 3 2         1  
CO2 Apply and illustrate lateral load resisting structural systems using codal provisions and seismic
response control concepts.
CO2 3 3 2   1        
CO3 Formulate and design earthquake resistant structures. CO3 3 3             1
15 II 18ST205 DESIGN OF HIGH RISE STRUCTURES CO1 Demonstrate design philosophy & loading on tall structures.  CO1 2   2   2     1  
CO2 Analyze tall structures for vertical and lateral loads.  CO2   3 3   2       1
CO3 Justify design of tall structures.  CO3   2       1     1
16 II 18ST206 DESIGN OF ADVANCED CONCRETE STRUCTURES CO1 Explain the properties of modern construction materials.  CO1 1 1   1       1  
CO2 Illustrate the use of construction materials CO2 1 1   1   2      
CO3 Identity suitable materials for specific application.  CO3 1 1   1   1      
17 II 18ST208 ADVANCED FOUNDATION ENGINEERING CO1 List out various factors governing type of foundation CO1   1 2           3
CO2 Asses the bearing capacity of Isolated footing with simple loads CO2   2 2           3
CO3 Design column type of RCC footings CO3   3 3           3
18 II 18ST209 CONCRETE TECHNOLOGY LAB - II CO1 Carryout compression test on concrete  CO1       3       1 1
CO2 Determine tensile strength and flexural strength of concrete CO2       3         1
CO3 Prepare the mix design as per IS code method CO3       3         1
19 II 18ST210 STRUCTURAL ENGINEERING LAB CO1 Define the various loads acting on the structures CO1       1 1     1  
CO2 Model the structures for Load combinations CO2       2 3        
CO3 Analyze the structures for various load combinations CO3       2 3     1