Syllabus for
Bachelor of Technology (Civil-Construction Engineering and Management)
Academic Year  (2021)

Understanding and application of MATLAB and TINKERCAD for biological analysis which would results in better healthcare and any engineer, irrespective of the parent discipline (mechanical, electrical, civil, computer, electronics, etc.,) can use the disciplinary skills toward designing/improving biological systems. This course is designed to convey the essentials of human physiology.

The course will introduce to the students the various fundamental concepts in MATLAB and TINKERCAD for numerical analysis and circuit design using arduino.

1.      To familiarize with Matlab Online and getting used to basic functionalities used in Matlab (arrays, matrices, tables, functions)

2.      To calculate the Body Mass Index (BMI) of a person and determine under what category the person falls under – underweight, normal, overweight

3.      To determine the R peaks in given ECG and to find HRV using Matlab.

4.      To determine the R peaks in given ECG and to find HRV using Matlab.

5.      To determine the R peaks in given ECG and to find HRV using Matlab.

6.      Introduction to Tinkercad and using the various tools available for running a simple program of lighting a LED bulb using Arduino (digital).

7.      To design a driver motor in Tinkercad using Arduino and driver motor

8.      To design a temperature sensor in Tinkercad using Arduino and TMP36

9.      To design and simulate gas sensors using potentiometers, Arduino and servo motors

10.  To design and simulate measuring pulse sensors using photodiodes, IR LED and Arduino

11.  Preparation of biopolymers (polylactic acid) at home using home-based ingredients.

The objective of this course aims at enabling the students to prepare Working drawing of Building Components and Building Drawing and Line diagram.

Basics of AutoCad, Symbols and sign conventions, Coordinate systems, Understanding Civil Engineering Drawings, Functional aspect of residential, institutional and commercial buildings and byelaws

Prepare working drawing of component of buildings i) Stepped wall footing and isolated RCC column footing, ii) Fully panelled and flush doors, iii) Half panelled and half-glazed window, iv) RCC staircase

Development of plan, elevation, section and schedule of openings from the given line diagram of residential buildings, i) Two-bedroom building, ii) Two storeyed building.

For a given single line diagram, preparation of water supply, sanitary and electrical layouts.

Fundamentals of Building Information Modelling (BIM).

T2 Ajeet Singh (2002), “Working with AUTOCAD 2000 with updates on AUTOCAD 200I”, Tata- Mc Graw-Hill Company Limited, New Delhi.

T3 Venugopal (2007), “Engineering Drawing and Graphics + AUTOCAD”, New Age International Pvt. Ltd.,

R2. Malik R.S., Meo, G.S. (2009) Civil Engineering Drawing, Computech Publication Ltd New Asian.

R3. Sikka, V.B. (2013), A Course in Civil Engineering Drawing, S.K.Kataria& Sons,

ESE marks : 50

Exam hour : 3

Course objectives:  To understand the scope and relevance of Disaster Management in a changing world and to realize the responsibilities of individuals and institutions in a multidisciplinary setting.

Concepts and definitions: disaster, hazard, vulnerability, risk severity, frequency, capacity, impact, prevention and mitigation.

Classification system for Hazards and Disasters; Physical dimensions; Magnitude-Frequency Relations; Disaster effects and impacts; Case studies representing different hazard types such as Floods, Drought, Earthquake, Epidemics, Terrorism, Conflicts (indicative list); Role of Multi disciplines in Disaster Management. Concept of vulnerability

Disaster impacts (environmental, physical, social, ecological, economic, political, etc.); health, psycho-social issues; demographic aspects (gender, age,

special needs); hazard locations; global and national disaster trends; climate change and urban disasters. Disaster Response Mechanisms. Humanitarian logistics and supply chain management.

Disaster management cycle – its phases; prevention, mitigation, preparedness, relief and recovery; structural and non-structural measures; risk analysis, vulnerability and capacity assessment; early warning systems, Post disaster environmental response (water, sanitation, food safety, waste management, disease control, security, communications); Roles and responsibilities of government, community, local institutions, NGOs and other stakeholders; Policies and legislation for disaster risk reduction, DRR programs in India and the activities of National Disaster Management Authority

Factors affecting vulnerability such as impact of developmental projects and environmental modifications (including of dams, land use changes, urbanization etc.), sustainable and environmental friendly recovery; reconstruction and development methods.

T2. Paul, B.K, “Environmental Hazards and Disasters: Contexts, Perspectives and Management”, Wiley-Blackwell,

R2. McClure, J., Henrich, L., Johnston, D. and Doyle, E.E.H, Are two earthquakes better than one? How earthquakes in two different regions affect risk judgments and preparation in three locations. IJDRR , 16; 192-199,2006.

Online Resources:

W1. http://www.training.fema.gov/emiweb/edu/ddemtextbook.asp

W2. https://www.weadapt.org/

W3. https://nagt.org/nagt/search_nagt.html?search_text=hazards&search=Go

W4. https://www.unisdr.org/

W5. https://emdat.be/

W6. http://bhuvan.nrsc.gov.in/bhuvan_links.php

W7. https://www.usgs.gov/

ESE (End Semester Exam) - 50

The objective of this course is to introduce to continuum mechanics and material modelling of engineering materials based on first energy principles: deformation and strain; momentum balance, stress and stress states; elasticity and elasticity bounds; plasticity and yield design. 

Concept of stress and strain, St. Venant’s principle, stress and strain diagram, Elasticity and plasticity – Types of stresses and strains, Hooke’s law – stress –strain diagram for mild steel – Working stress – Factor of safety – Lateral strain, Poisson’s ratio and volumetric strain – Elastic moduli and the relationship between them – Bars of varying section –composite bars – Temperature stresses. Strain Energy – Resilience – Gradual, sudden, impact and shock loadings – simple applications

Compound Stresses and Strains Two-dimensional system, stress at a point on a plane, principal stresses and principal planes, Mohr circle of stress, ellipse of stress and their applications. Two-dimensional stress-strain system, principal strains and principal axis of strain, circle of strain and ellipse of strain. Relationship between elastic constants.

Thin Cylinders and Spheres- Derivation of formulae and calculations of hoop stress, longitudinal stress in a cylinder, and sphere subjected to internal pressures. 

Simply Supported and Cantilever beams: Bending moment and Shear Force Diagrams, Determination of Maximum bending moment and shear force for a given loading (uniformly distributed load, Gradually Varying load and concentrated loads) Fixed beams: Analysis of Fixed beams by double integration method, Calculation of maximum BM and SF for various loadings

Flexural Stresses-Theory of simple bending – Assumptions – Derivation of bending equation: M/I = f/y = E/R - Neutral axis – Determination of bending stresses – Section modulus of rectangular and circular sections (Solid and Hollow), I,T, Angle and Channel sections – Design of simple beam sections.

 Shear Stresses- Derivation of formula – Shear stress distribution across various beam sections like rectangular, circular, triangular, I, T angle sections.

Slope and deflection- Relationship between moment, slope and deflection.

Moment area method: Concepts and its application to determine slope and deflection in beams Macaulay’s method: Concepts and Application of this method to determine slope and deflection in beams.

Derivation of torsion equation and its assumptions. Applications of the equation of the hollow and solid circular shafts, torsional rigidity, Combined torsion and bending of circular shafts, principal stress and maximum shear stresses under combined loading of bending and torsion. Analysis of close-coiled-helical springs.

2. Kazmi, S. M. A., “Solid Mechanics” TMH, Delhi, India, 2017

  3. Hibbeler, R. C. Mechanics of Materials. 6th ed. East Rutherford, NJ: Pearson Prentice Hall,2004

4. R. Subramanian, Strength of Materials , Oxford University Press, New Delhi, 2016

2.Laboratory Manual of Testing Materials - William Kendrick Hall, 2006

3. Mechanics of Materials - Ferdinand P. Beer, E. Russel Jhonston Jr., John T. DEwolf – TMH 2002.

CIA II - Midsem Exam

CIA III - Test, project based learning

ESE - End sem exam

In this course, the students will be taught to use the various conventional and modern survey instruments and analyze the data collected  from survey equipment. They will also be introduced to advanced surveying and mapping techniques like Photogrammetry, Remote Sensing, GIS, and GPS.

Basics of Surveying: Introduction to Surveying, importance of surveying in civil engineering, Objective of Surveying, Classification of surveying, Principles of Chain, Compass, Plane Table, Theodolite and Tacheometric Surveying, Triangulation, Trilateration, resection and intersection methods of surveying Levelling: Trigonometric and Spirit Levelling, Principles of levelling- booking and reducing levels; differential, reciprocal leveling, profile levelling and cross sectioning. Digital and Auto Level, Errors in levelling; contouring: Characteristics, methods, uses; areas and volumes, Curves: Types of curves, simple, compound and transition Reverse curves, Elements of simple circular curves, – Method of setting out of simple circular curve

Elementary Photogrammetry: Photogrammetry Surveying (8 Hours): Introduction, Types of Photogrammetry, Basic concepts, perspective geometry of aerial photograph, relief and tilt displacements, flight planning; Stereoscopy: Determination of ground coordinates with parallax measurements.

Digital Photogrammetry: Aero Triangulation, Bundle block adjustment, Ortho Mosaic generation, Drone Based Surveying for large scale stereoscopic Mapping, processing of Drone based data in open ware software’s.

Basics of Remote Sensing: Introduction–Electromagnetic Spectrum, interaction of electromagnetic radiation with the atmosphere (types of scattering and its effect on remote sensing images) and earth surface features, Typical reflectance curves of Water, Soil and Vegetation, remote sensing data acquisition: platforms and sensors; IRS satellite Constellation,

Processing of Satellite Images: visual image interpretation keys, digital image: pre and post processing, classification techniques (Supervised, unsupervised and hybrid techniques), accuracy assessment of classified data.

Fundamentals of GIS:Definitions: components of a GIS The four M’s concept – Domain expertise for GIS, GIS objectives –– Topology – Data structures –Database management –Errors in GIS Vector and Raster Data Analysis Techniques: Vector data models, Raster Data Models, GIS modelling, Spatial data analysis techniques, Integration of GPS, Drone and Remote Sensing Data in GIS environment, Introduction to GIS software packages  and thematic Map generation.

T1    B.C. Punmia., Surveying, Vol-1& II, 16^th edition, New Delhi,Laxmi Publications, 2018. (UNIT 1)

T2    M. A. Reddy, Text Book of Remote Sensing and Geographical Information Systems, 4^thEdition, Hyderabad, BS Publications, 2013. (UNIT 4 and  UNIT 5)

T3    B.C. Punmia, “Advanced Surveying”, Laxmi Publications, New Delhi, 2018 (UNIT 2, 3, 4)

T4    Remote Sensing and Image Interpretation – Lillesand , John Wiley and Sons, 2014 (UNIT 4)

T5    Reddy. M. A, “Text Book of Remote Sensing and Geographical Information Systems”, BS Publications, Hyderabad, Fourth Edition, 2013. (UNIT 4 and UNIT 5)

P.R Wolf & B.A. Dewitt Elementary Photogrammetry, 4^th  edition, TMH publishing, 2014 (UNIT 3)

W1. http://www.gisresources.com/

W2. https://onlinecourses.nptel.ac.in/noc17_ce09

W3. https://nptel.ac.in/courses/105107122/1

W4. www.surveyofindia.gov.in/ 

1.      COURSE DESCRIPTIONS

              The subject is a core course for 3rd semester B.Tech. students. The syllabus covers Hydrostatics, Kinematics and Dynamics of fluid flow and, its measurements.

       COURSE OBJECTIVES

To understand the importance of fluid mechanics in civil Engineering by knowing the properties of fluids and their engineering behaviour in terms of Fluid Statics, Kinematics and Dynamics.

The distinction between a fluid and a solid; Density, Specific weight, Specific gravity, Kinematic and dynamic viscosity; variation of viscosity with temperature, Newton law of viscosity; vapour pressure, boiling point, cavitation; surface tension, capillarity, Bulk modulus of elasticity, compressibility.

Fluid Pressure: The pressure at a point, Pascal's law, pressure variation with temperature, density and altitude. Piezometer, U-Tube Manometer, Single Column Manometer, U-Tube Differential Manometer, Micromanometers. pressure gauges, Hydrostatic pressure and force: horizontal, vertical and inclined surfaces.  Buoyancy and stability of floating bodies.

Classification of fluid flow: steady and unsteady flow; uniform and non-uniform flow; laminar and turbulent flow; rotational and  irrotational flow; compressible and incompressible flow; ideal and real fluid flow; one, two and three dimensional flows; Stream line, path line, streak line and stream tube; stream function, velocity potential function.  One-, two- and three -dimensional continuity equations in Cartesian coordinates.

Surface and body forces; Equations of motion - Euler’s equation; Bernoulli’s equation – derivation; Energy Principle; Practical applications of Bernoulli’s equation: venturimeter, orifice meter and pitot tube; Momentum principle; Forces exerted by fluid flow on pipe bend; Vortex Flow – Free and Forced.

Definitions of Reynolds Number, Froude Number, Mach Number, Weber Number and Euler Number; Buckingham’s π-Theorem.

1. P.N. Modi and S.M. Seth, Fluid Mechanics and Hydraulics, New Delhi, Standard Book House.21st edition, 2017. (Unit 1, 3, 5)

2. R. K. Bansal, Fluid Mechanics and Hydraulic Machines, New Delhi, Lakshmi Publications Revised Ninth Edition, 2018. (Unit 1, 2, 4)

3. A.K. Jain, Fluid Mechanics, New Delhi, Khanna Publishers. 2016 edition. (Unit 1, 2)

4. Cengel. Y. A and Cimbala. J. M, “Fluid Mechanics – Fundamentals and Applications”, Tata McGraw Hill, New Delhi, Second Edition, 2011

1. Frank,.M White, Fluid Mechanics in SI Units, Mcgraw Higher Ed, 8th Edition, 2016

2. P. K. Kundu. P. K, Cohen. I. M and Dowling. D. R, “Fluid Mechanics”, Elsevier, New Delhi, Fifth Edition, 2012.

3. Arora K.R., “Fluid Mechanics, Hydraulic and Hydraulics”, 2018, Standard Book House, New Delhi

4. John F. Douglas et al., “Fluid Mechanics”, 1996, Pearson Education, India.

5. Mohanty., “Fluid Mechanics”, 2008, PHI learning Private Limited

6. Rao B. C. S., “Fluid Mechanics and Machinery”, 2016, Tata McGraw-Hill Education Pvt. Ltd

7. Rathakrishnan., “Fluid Mechanics: An Introduction”, 2014, PHI learning Private Limited 

8. Som S.K., “Introduction to Fluid Mechanics and Fluid Machines”, 2012, Tata McGraw-Hill Education Pvt. Ltd

9. Subramanya. K., “1000 Solved Problems in Fluid Mechanics: Includes Hydraulic Machines”, 2016, Tata McGraw-Hill Education Pvt. Ltd

Online Resources:

W1. https://onlinecourses.nptel.ac.in/noc17_me04/preview

The final calculation out of 100 marks is as follows:

CIA-I=10 marks

CIA-II=25 marks

CIA-III=10 marks

ESE=50 marks

Attendance= 5 marks 

To understand the scope and importance of environmental science towards developing a conscious community for environmental issues, both at global and local scale.  

CO2. Explain the necessity of natural resources management (L2, PO1, PO2 and PO7)

CO3.Relate the causes and impacts of environmental pollution (L4, PO1, PO2, and PO3, PO4)

CO4.Relate climate change/global atmospheric changes and adaptation (L4,PO7)

CO5. Appraise the role of technology and institutional mechanisms for environmental protection (L5, PO8)

Environment and Eco systems – Definition, Scope and importance. Components of environment. Concept and Structure of eco systems. Material Cycles – Nitrogen, Carbon, Sulphur, Phosphorous, Oxygen. Energy Flow and classification of Eco systems.   

Classification and importance- Forest, Water, Mineral, Food, Energy. Management of natural resources – challenges and methods. Sustainable development – Goals, Agriculture, Industries

Causes and Impacts – Air pollution, Water pollution, Soil Pollution, Noise Pollution, Marine Pollution, Municipal Solid Wastes, Bio Medical and E-Waste. Solid Waste Management

Global Temperature, Greenhouse effect, global energy balance, Global warming potential, International Panel for Climate Change (IPCC) Emission scenarios, Oceans and climate change. Adaptation methods. Green Climate fund. Climate change related planning- small islands and coastal region. Impact on women, children, youths and marginalized communities

Technology, Modern Tools – GIS and  Remote Sensing,. Institutional Mechanisms - Environmental Acts and Regulations, Role of government, Legal aspects. Role of Nongovernmental Organizations (NGOs) , Environmental Education and Entrepreneurship

T2Asthana and Asthana, “A text Book of Environmental Studies”, S. Chand, New Delhi, Revised Edition, 2010 [Unit: I, II, III and V]

T3Nandini. N, Sunitha. N and Tandon. S, “environmental Studies” , Sapana, Bangalore,  June 2019 [Unit: I, II, III and IV]

T4R Rajagopalan, “Environmental Studies – From Crisis to Cure”, Oxford, Seventh University Press, 2017, [Unit: I, II, III and IV]

R2.Masters, G andEla, W.P (2015), Introduction to environmental Engineering and Science, 3rd Edition. Pearson., New Delhi, 2013.

R3.Raman Sivakumar, “Principals of Environmental Science and Engineering”, Second Edition, Cengage learning Singapore, 2005.

R4.P. Meenakshi, “Elements of Environmental Science and Engineering”, Prentice Hall of India Private Limited, New Delhi, 2006.

R5.S.M. Prakash, “Environmental Studies”, Elite Publishers Mangalore, 2007

R6.ErachBharucha, “Textbook of Environmental Studies”, for UGC, University press, 2005.

R7. Dr. Pratiba Sing, Dr. AnoopSingh and Dr. PiyushMalaviya, “Textbook of Environmental and Ecology”, Acme Learning Pvt. Ltd. New Delhi.

To enable the students to find the Fourier series and harmonic analysis of a periodic function, solve the boundary value problems using Fourier series, ordinary differential equations by series solution method and describe functionals and solve variational problems.

Periodic functions, Dirichlet’s conditions, General Fourier series, Odd and even functions, Half range sine and cosine series, Harmonic Analysis.

Formation of PDE, Solution of homogeneous PDE involving derivative with respect to one independent variable only (Both types with given set of conditions), solution of non- homogeneous PDE by direct integration, Solution of Lagrange’s linear PDE of the type P p +Q q= R

Various possible solutions of one-dimensional wave and heat equations, two-dimensional Laplace’s equation by the method of separation of variables. Solution of all these equations with specified boundary conditions.

Power Series solutions of differential equations, ordinary point, singular point, Frobenius method

Variation of a function, Variational problems, Euler’s equation and its solution, Standard variation problems including geodesics, minimal surface of revolution, hanging chain and Brachistochrone problems. Functional; functional involving higher order derivatives.

T2.  H. K. Das & Rajnish Verma, “Higher Engineering Mathematics”, 20^th Edition, S. Chand & Company Ltd., 2012

R2. B.V. Ramana, 6^th Reprint, “Higher Engineering Mathematics”, Tata-Macgraw Hill, 2008

R3. George F. Simmons and Steven G. Krantz, “Differential Equation, Theory, Technique and Practice”, Tata McGraw – Hill, 2006.

R4. M. D. Raisinghania, “Ordinary and Partial Differential Equation”, Chand (S.) & Co. Ltd., India, March 17, 2005

The studio intends to contextualize the student towards aesthetical approach and sensitize them towards local and heterogeneous culture of ours. Today, the biggest challenge is lying in the areas of aesthetical thinking and process-based techniques, where we try to enhance aesthetic sense, creativity, responsive and reflective ecology in which they live and connect. They connect their creativity and aesthetical sensibility to local knowledge and culture of their own environment. Also, there are things to learn and adapt from the diversity of craftsmanship and knowledge system. 

1. Introduction to different media and rendering techniques.
2. Introduction to principles of composition, developing keen sensitivity to space, scale, proportion, light, wind, sound, texture.
3. To understand basic principles of freehand drawing and color.
4. Introduction to the representation of the human body and anthropometrics /ergonomics.
5. To translate abstract principles of design into architectural processes, forms, and solutions.
6. To introduce the Architectural Design Language – technical drafting and presentation and to impart the appropriate manual skills for visualization and technical representation.

Level: Basic

CO2: Ability to sensitively observe and record various aspects of the immediate environment including human relationships, visual language, aesthetic characteristics and space, elements of nature, etc. 

Level: Basic

CO3: Ability to achieve skills of visualization and communication, through different mediums and processes.

Level: Basic 

Observing, experiencing, analyzing the manmade environment and organic environment.

To create awareness of human abilities like perception, intuition, Identification, and observation, enjoying our senses through a nature walk, (by seeing, hearing, touching, smelling, and tasting)

To understand basic principles of art and drawing as an extension of seeing and a tool to create awareness of different visualization techniques.

1. Elements of design, Developing skills of analysis, synthesis, interpretation, and communication through elements and composition.
2. Introduction to the theory of visual perception through color, form, space, light and shadow, texture, and tones.

1. Developing pictorial representations -Isometric Projection, Axonometric projection, and Perspective projections 
2. Introduction to Sciography and principles of shades and shadows.
3. Rendering the pictorial projections.

T2. Bhatt, N. D., Engineering Drawing, Charotar Publishing House Pvt. Ltd

T3. Venugopal, K., Engineering Drawing and Graphics, New Age International Publishers. 

T4. S. Rajaraman, Practical Solid Geometry.

R2. Alexander W. White, ‘The Elements of Graphic Design, Allworth Press

R3. Alexander W. White, ‘The Elements of Graphic Design, Allworth Press; 1 edition (Nov 1, 2002)

CONTINUOUS INTERNAL ASSESSMENT (CIA): 50 Marks

END SEMESTER EXAMINATION (ESE, VIVA-VOCE): 50 Marks

TOTAL:100 Marks

Note: For this course, a minimum of 50% marks in CIA is required to be eligible for VIVA-VOCE which is conducted as ESE.

• To learn the systematic way of solving problems.
• To understand the different methods of organizing large amounts of data.
• To efficiently implement the different data structures.
• To efficiently implement solutions for specific problems.

Definition- Classification of data structures: primitive and non-primitive- Operations on data structures- Algorithm Analysis.

LAB Programs:

1a. Sample C Programs 1b. To determine the time complexity of a given logic. 

Abstract Data Type (ADT) – The List ADT – The Stack ADT: Definition,Array representation of stack, Operations on stack: Infix, prefix and postfix notations Conversion of an arithmetic Expression from Infix to postfix. Applications of stacks. 

The Queue ADT: Definition, Array representation of queue, Types of queue: Simple queue, circular queue, double ended queue (de-queue) priority queue, operations on all types of Queues 

LAB Programs:

2. Implement the applications Stack ADT.

3. Implement the applications for Queue ADT.

4.Operations on stack[e.g.: infix to postfix, evaluation of postfix]

Preliminaries – Binary Trees – The Search Tree ADT – Binary Search Trees – AVL Trees – Tree Traversals – Hashing – General Idea – Hash Function – Separate Chaining – Open Addressing –Linear Probing – Priority Queues (Heaps) – Model – Simple implementations – Binary Heap.

LAB PROGRAMS:

5. Search Tree ADT - Binary Search Tree

Preliminaries – Insertion Sort – Shell sort – Heap sort – Merge sort – Quicksort – External Sorting.

LAB PROGRAMS

6. Heap Sort.

7. Quick Sort.

8.Applications of Probability and Queuing Theory Problems to be implemented using data structures. 

Definitions – Topological Sort – Shortest-Path Algorithms – Unweighted Shortest Paths – Dijkstra‘s Algorithm – Minimum Spanning Tree – Prim‘s Algorithm – Applications of Depth- First Search – Undirected Graphs – Bi-connectivity – Introduction to NP-Completeness-case study

LAB PROGRAMS

9. Implementing a Hash function/Hashing Mechanism.

10. Implementing any of the shortest path algorithms. 

1.Mark Allen Weiss , “Data Structures and Algorithm Analysis in C”, 2nd  Edition, Addison-Wesley, 1997

CIA I : Assignment/MCQ  and Continuous Assessment : 10 marks

CIA II : Mid Semester Examination (Theory) : 10 marks

CIA III : Closed Book Test/Mini Project and Continuous Assessment: 10 marks

Lab marks :35 marks

Attendance : 05 marks

End Semester Examination(ESE) : 30% (30 marks out of 100 marks)

Total: 100 marks

Course Description: This is offered as a core course in first trimester. This course will provide a general introduction to management principles and theories, and a brief outline on history and development of management thought.

Course Objectives: This course describes the steps necessary to understand an organisation that are aligned with business objectives and provides an insight to address a range of challenges that every manager encounters. It aims to prepare students for an exciting challenging and rewarding managerial career through case studies on ‘Global Perspective’.

 CLO1   Understand different management approaches

 CLO2   Demonstrate planning techniques

 CLO3   Able to work in dynamic teams within organizations

CLO4   Analyze different processes in staffing and controlling

Meaning; Scope; Managerial levels and skills; Managerial Roles; Management: Science, Art or Profession; Universality of Management.

Ancient roots of management theory; Classical schools of management thought; Behavioral School, Quantitative School; Systems Approach, Contingency Approach; Contemporary Management thinkers & their contribution. Ancient Indian Management systems & practices. Comparative study of global management systems & practices. Social responsibility of managers, Managerial Ethics.

Evolution of Management: Teaching management through Indian Mythology (Videos of Devdutt Pattanaik, Self-learning mode)

Types of Plans; Steps in Planning Process; Strategies, level of Strategies, Policies and Planning; Decision making, Process of Decision Making, Techniques in Decision Making, Forecasting & Management by Objectives (MBO).

Planning: Emerald Case and Projects of Events

Organizational structure and design; types of organizational structures; Span of control, authority, delegation, decentralization and reengineering. Social responsibility of managers, Managerial Ethics.

Organizing: Holacracy form of organization structure

Human resource planning, Recruitment, selection, training & development, performance appraisal, managing change, compensation and employee welfare.

Motivation: Concept, Forms of employee motivation, Need for motivation, Theories of motivation, Stress Management

Staffing: Stress Management & Career path, Emerald Case

Leadership concept, leadership Styles, leadership theories, leadership communication.

Nature of organizational control; control process; Methods and techniques of control; Designing control systems, Quality Management

Leading: Article on Styles of leadership by Daniel Goleman

Controlling: Projects of Events

1.     Daft, R. L. (2013). The new era of management (10^th Edition). Cengage Publications.

2.     Prasad, L.M., Principles and practices of management. New Delhi: Sultan Chand & Sons.     

3.     Stoner, J.F., Freeman, E. R., & Gilbert, D.R. (2013). Management (6^th Edition). Pearson Publications.

4.      Joseph L Massie, Essentials of Management. Prentice-Hall India, New York.

Course objectives:  

• To know about the types of transducers available.
• To understand the function of signal generators and analyzers.
• To gain information about data acquisition, data logging, and application of sensors incondition-based monitoring.

Sensors and classifications – Characteristics environmental parameters – Selectionand specification of sensors – Introduction to Acoustics and acoustic sensors- Ultrasonicsensor- Types and working of Microphones and Hydrophones – Sound level meter, Humidity
sensor, and Nuclear radiation sensor – Stress- Strain measurements Strain gauges (resistiveand Optical) types Uniaxial and Multiaxial strain gauges with signal conditioning circuits(half, quarter, and full bridges)

Introduction - primary sensors, characteristic, Information coding / processing, Datacommunication - Recent trends in sensors and Technology - Film sensor, MEMS and NanoSensors.

Amplification, Filtering – Level conversion – Linearization - Buffering – Sample andHold circuit – Quantization – Multiplexer / Demultiplexer – Analog to Digital converter –Digital to Analog converter- I/P and P/I converter - Instrumentation Amplifier-V/F and F/V converter.

Data Acquisition conversion-General configuration-single channel and multichanneldata acquisition – Digital filtering – Data Logging – Data conversion – Introduction to DigitalTransmission system.

Introduction to condition monitoring - Non destructive testing (vs) condition
monitoring- Intelligent fault detection- Accelerometers- Acoustic Emission sensors- Thermalimaging cameras- Vibration Signature based monitoring techniques - Acoustic emissionholography - oil Analysis- Ultrasound based Non Destructive Evaluation techniques.

T2. Ernest O. Doebelin, “Measurement Systems – Applications and Design”, TataMcGraw-Hill, 2009.

T3. David G. Alciatore and Michael B. Histand, “Introduction to Mechatronics andMeasurement systems”, Tata McGraw-Hill, 2nd Edition, 2008.

T4. John Turner and Martyn Hill, Instrumentation for Engineers and Scientists, OxfordScience Publications, 1999.

R2. A.K. Sawney and PuneetSawney, “A Course in Mechanical Measurements andInstrumentation and Control”, 12th edition, DhanpatRai& Co, New Delhi, 2001.

R3.Mohamed Gad-el-Hak, “The MEMS handbook”, Interpharm/CRC. 2001

R4. Dr.Ing.B.V.A. RAO, “Monograph on Acoustics & Noise control”, NDRF, TheInstitution of Engineers (India), 2013.

ESE Marks: 50

This course focuses on the fundamentals of psychology. It is an introductory paper that gives an overall understanding about the human behavior. It will provide students with an introduction to the key concepts, perspectives, theories, and sub-fields on various basic processes underlying human behavior.

1. To understand the fundamental processes underlying human behavior
2. To become aware of one’s idiosyncrasies and predispositions
3. To apply the understanding of concepts in day-to-day activities

1. Explain human behaviors using theoretical underpinnings
2. Understand oneself and others, respecting the differences
3. Demonstrate their understanding of psychological processes in daily activities

Definition, Characteristics of Sensory modalities: Absolute and difference threshold; Signal detection theory; sensory coding; Vision, Audition, Other Senses. Assessment of Perception and Sensation

Practicum: Aesthesiometer

Definition, Understanding perception, Gestalt laws of organization, Illusions and Perceptual constancy; Various sensory modalities; Extrasensory perception.

Practicum:  Muller-Lyer Illusion

Learning:Definition, Classical conditioning, Instrumental conditioning, learning and cognition; Memory:  Types of Memory; Sensory memory, working memory, Long term memory, implicit memory, Constructive memory, improving memory; Assessment of memory.

Practicum: Memory drum

Concepts and nature of Individual differences; Nature vs. nurture; Gender difference in cognitive processes and social behavior; Intelligence: Definition, Contemporary theories of intelligence; Tests of intelligence; Emotional, Social and Spiritual intelligence.

Practicum: Bhatia’s Battery of Performance

Definition, Type and trait theories of personality, Type A, B & C. Psychoanalytic -  Freudian perspective; Types of personality assessment.

Practicum: NEO-FFI 3

Rathus, S. A. (2017). Introductory Psychology, 5thEd. Belmont, CA: Wadsworth.

Nolen-Hoeksema, S., Fredrickson, B.L. & Loftus, G.R. (2014). Atkinson & Hilgard'sIntroduction to Psychology.16th Ed. United Kingdom: Cengage Learning.

Morgan, C. T., King, R. A., & Schopler, J. (2004). Introduction to Psychology. New Delhi: Tata     McGraw Hill.

Kalat, J. W. (2016). Understanding Psychology. New York: Cengage Learning

Mid Semester Examination

End Semester Examination

To introduce the students to various hydraulic engineering problems like open channel flows and hydraulic machines. At the completion of the course, the student should be able to relate the theory and practice of problems in hydraulic engineering

Laminar Flow - Laminar flow through circular pipes, annulus and parallel plates. Stoke’s law

Turbulent Flow - Reynolds experiment, Transition from laminar to turbulent flow. Definition of turbulence, scale and intensity, Causes of turbulence, instability, mechanism of turbulence and effect of turbulent flow in pipes. Reynolds stresses, semi-empirical theories of turbulence, Prandtl’s mixing length theory, universal velocity distribution equation. Resistance to flow of fluid in smooth and rough pipes, Moody’s diagram.

Boundary Layer Analysis-Assumption and concept of boundary layer theory. Boundary-layer thickness, displacement, momentum & energy thickness, laminar and Turbulent boundary layers on a flat plate; Laminar sub-layer, smooth and rough boundaries. Local and average friction coefficients. Separation and Control.

Introduction - Comparison between open channel flow and pipe flow, geometrical parameters of a channel, classification of open channels, classification of open channel flow, Velocity Distribution of channel section.

Uniform Flow - Continuity Equation, Energy Equation and Momentum Equation, Characteristics of uniform flow, Chezy’s formula, Manning’s formula. Factors affecting Manning’s Roughness Coefficient, Most economical section of channel, Computation of Uniform flow, Normal depth.

Non-Uniform Flow - Specific energy, Specific energy curve, critical flow, discharge curve Specific force Specific depth, and Critical depth. Channel Transitions. . Hydraulic Jump- Theory of hydraulic jump, Elements and characteristics of hydraulic jump in a rectangular Channel, length and height of jump, location of jump, Types, applications and location of hydraulic jump.

Measurement of Discharge and Velocity - Venturi Flume, Standing Wave Flume, Parshall Flume, Broad Crested Weir. Gradually Varied Flow-Dynamic Equation of Gradually Varied Flow, Classification of channel bottom slopes, Classification of surface profile, Characteristics of surface profile. Computation of water surface profile

Hydraulic Machines: Introduction to hydraulic machines, Classification of turbines, impulse and reaction turbines. Design features, the efficiency of turbines, operating and main characteristic curves

Hydraulic Pumps: Introduction, Classification of pumps: centrifugal and reciprocating pumps, pumps in series and parallel, efficiency of the pumps, characteristic curves

Basic Equations of fluid dynamics, Grid generation, Introduction to in viscid incompressible flow, Boundary layer flow as applicable to C.F.D. Hydro informatics: Concept of hydro informatics – scope of internet and web-based modelling in water resources engineering.

Laboratory Components: List of Experiments

1. Calibration of V-notch

2. Calibration of rectangular or Trapezoidal notch.

3. Calibration of Ogee weir

4. Calibration of Broad crested weir.

5. Calibration of Venturi flume.

6. Calibration of Venturi meter.

7. Determination of Darcy’s friction factor for a straight pipe.

8. Determination of minor loss constants (Bend, Sudden contraction, sudden expansion).

9. Determination of vane coefficient for flat and hemispherical vanes.

10. Determination of hydraulic coefficient of a vertical orifice.

11. Performance tests on a single stage or multistage centrifugal pump (constant speed).

12. Performance tests on a Pelton wheel.

13. Performance tests on Francis

14. Performance tests on Kaplan turbine.

T2 A.K. Jain, Fluid Mechanics, New Delhi, Khanna Publishers. 2016 edition.

T3 P.N. Modi and S.M. Seth, Fluid Mechanics and Hydraulics, New Delhi, Standard Book House.21st edition, 2017.

T4 K. Subramanya, “Theory and Applications of Fluid Mechanics”, 2014, Tata McGraw Hill.

R2 Burnside, C.D., “Electromagnetic Distance Measurement,” Beekman Publishers, 1971.

R3 SS Rattan, “Fluid Mechanics & Hydraulic Machines”, 2014, Khanna Publishing House

R4 CSP Ojha, R Berndtsson & P.N. Chandramouli, “Fluid Mechanics and Machinery,” 2016, Oxford Universiy

R5 Sadhu Singh, “Fluid Machinery”, 2006, Khanna Publishing House, Delhi

R6 Raghunath. H.M., “Fluid Mechanics & Machinery”, 2014, CBS Publishers

R7 Arora.K.R., “Hydraulics & Fluid Mechanics”, 2000, Standard Book house, NewDelhi

R8 Gupta. S.C., “Fluid Mechanics and Hydraulic Machines”, 2016, Pearson Education, India

R9 Jain, A.K., “Fluid Mechanics”, 2012, Khanna Publishers, New Delhi.

R10 James. F. Cruise, Vijay P. Singh, Mohsan M. Sherif, “Elementary Hydraulics”, (1st Edition, 2008) Thomson Learning.

R11 John F. Douglas et al., “Fluid Mechanics”,3rd edition, 2008, Pearson Education, India.

R12 Rao. B. C. S, “Fluid Mechanics and Machinery”, 2010, Tata McGraw-Hill Education Pvt. Ltd.

R13 Som S.K., “Introduction to Fluid Mechanics and Fluid Machines”, 2014, Tata McGraw-Hill Education Pvt. Ltd

R14 Subramanya K., “1000 Solved Problems in Fluid Mechanics: Includes Hydraulic Machines”, 2014, Tata Mc Graw-Hill Education Pvt. Ltd

R15 Subramanya K., “Flow in Open Channels”, 2016, Tata McGraw-Hill Education Pvt. Ltd.

Online Resources:

https://nptel.ac.in/courses/105103096/

https://nptel.ac.in/courses/105/106/105106114/

https://nptel.ac.in/courses/105103021/

ESE = 30 Marks

Total = 100 Marks

The objective of this Course is to introduce to continuum mechanics and material modelling of engineering materials based on first energy principles: deformation and strain; momentum balance, stress and stress states; elasticity and elasticity bounds; plasticity and yield design. 

Description of finite deformation, Infinitesimal deformation; Analysis of statically determinate trusses; Stability of dams, retaining walls and chimneys; Stress analysis of thin, thick and compound cylinder; Generalized state of stress and strain: Stress and strain tensor, Yield criteria and theories of failure; Tresca, Von-Mises, Hill criteria, Heigh-Westerguard’s stress space.

Forces and Moments Transmitted by Slender Members, Shear Force and Bending Moment Diagrams, Momentum Balance, Stress States / Failure Criterion.

Force-deformation Relationships and Static Indeterminacy, Uniaxial Loading and Material Properties, Trusses and Their Deformations, Statically Determinate and Indeterminate Trusses,

Force-Stress-Equilibrium covering Multiaxial Stress and Strain, Displacement – Strain covering Multiaxial Strain and Multiaxial Stress-strain Relationships, Elasticity and Elasticity Bounds covering Stress-strain-temperature Relationships and Thin-walled Pressure Vessels, Stress and strain Transformations and Principal Stress, Failure of Materials,

Stress and Strains; Deflections and Torsion covering Pure Bending, Moment-curvature Relationship, Beam Deflection, Symmetry, Superposition, and Statically Indeterminate Beams, Shear and Torsion, Torsion and Twisting, Thermoelasticity, Energy methods, Variational Methods; Strain energy, elastic, complementary and total strain energy, Strain energy of axially loaded bar, Beam in bending, shear and torsion; General energy theorems, Castigliano’s theorem, Maxwell Bettie’s reciprocal theorem; Virtual work and unit load method for deflection, Application to problems of beams and frames.

Stability of columns, Euler’s formula, end conditions and effective length factor, Columns with eccentric and lateral load; Plasticity and Yield Design covering 1D-Plasticity – An Energy Approach, Plasticity Models, Limit Analysis and Yield Design.

T2 R. Agor, “Structural Analysis”, Khanna Publishing House

T3 BC Punmia and A.K. Jain, “Mechanics of Materials”, Laxmi Publications

T4 Timoshenko, S. and Young, D. H., “Elements of Strength of Materials”, DVNC, New York, USA.

T5 Kazmi, S. M. A., ‘Solid Mechanics” TMH, Delhi, India.

R2. Crandall, S. H., N. C. Dahl, and T. J. Lardner, "An Introduction to the Mechanics of Solids", 2nd ed. New York, NY: McGraw Hill, 1979

R3. Gere, J. M., and S. P. Timoshenko, "Mechanics of Materials", 5th ed. Boston: PWS Kent Publishing, 1970.

R4. Ashby, M. F., and D. R. H. Jones, "Engineering Materials, An Introduction to their Properties and Applications", 2nd ed. Butterworth Heinemann.

R5. Collins, J. A. "Failure of Materials in Mechanical Design", 2nd ed. John Wiley and Sons, 1993.

R6. Courtney, T. H. "Mechanical Behavior of Materials", McGraw-Hill, 1990.

R7. Hertzberg, R. W. "Deformation and Fracture Mechanics of Engineering Materials", 4th ed. John Wiley and Sons, 1996.

R8. Nash, W. A., "Strength of Materials", 3d ed. Schaum's Outline Series, McGraw-Hill, 1994.

CIA-2 : 25 MARKS

CIA-3 : 10 MARKS

ATTENDANCE : 5 MARKS

END SEMESTER EXAM : 50 MARKS

TOTAL: 100 MARKS

To study and understand the properties of modern construction materials used in construction such as special concretes, metals, composites, water proofing compounds, non-weathering materials, and smart materials. 

CO1 know the properties of the and Advantages of High Strength and High-Performance Concrete (L2)

CO2 usage of steel, aluminium and its products as construction material(L2)

CO3 understand types of FRP used as structural elements and its applications (l2)

CO4 understand timber and its usage as construction material(L2)

CO5 understand types and differences between smart and intelligent materials(L2)

Concretes, Behaviour of concretes – Properties and Advantages of High Strength and High-Performance Concrete – Properties and Applications of Fibre Reinforced Concrete, Self-compacting concrete, Alternate Materials to concrete on high performance and high Strength concrete.

Types of Steels – Manufacturing process of steel – Advantages of new alloy steels – Properties and advantages of aluminium and its products – Types of Coatings and Coatings to reinforcement – Applications of Coatings

Types of Plastics – Properties and Manufacturing process – Advantages of Reinforced polymers – Types of FRP – FRP on different structural elements – Applications of FRP.

Types and properties of Water Proofing Compounds – Types of Non-weathering Materials and its uses – Types of Flooring and Facade Materials and its application

Types and Differences between Smart and Intelligent Materials – Special features –Case studies showing the applications of smart and Intelligent Materials.

T2Santhakumar.A.R., "Concrete Technology", Oxford University press, New 

T3Shan Somayaji, "Civil Engineering Materials", Prentice Hall Inc., 2001 

R2.Aitkens , "High Performance Concrete", McGraw Hill, 1999 

R3.Ashby, M.F. and Jones.D.R.H.H. “Engineering Materials 1: An introduction to Properties, applications and designs”, Elsevier Publications, 2005. 

R4.Deucher, K.N, Korfiatis, G.P and Ezeldin, A.S, "Materials for civil and Highway Engineers", Prentice Hall Inc., 1998. 

To study and understand the various types of equipment used for excavation, hauling, conveying, hoisting, road work, concreting, drilling, blasting etc. and their applications in construction projects. 

CO1 Understand the fundamentals of construction equipment management. (L2) {PO}

CO2 Develop familiarity with various excavation equipment. (L3) {PO}

CO3 Build knowledge with hauling and conveying equipment. (L3) {PO}

CO4 Apply understanding of the various hoisting equipment. (L3) {PO}

CO5 Analyze the application of miscellaneous construction equipment in the construction industry. (L4) {PO}

Mechanization in Construction, Importance of construction equipment, their classification, Procurement of equipment, standard and special equipment, selection of construction equipment. 

Equipment Management in Projects, Maintenance Management, Depreciation Analysis, Replacement of equipment.

Equipment Economics, Owning and operating cost, Cost Control of Equipment. Equipment Safety Management.

Excavating equipment, Selection, basic parts, operation, factors affecting output Excavators, backhoes and loaders, emp of dozers, classification of dozers, output of dozers Tractors and related equipment, Power shovels, Draglines, Clam shells and scrappers.

Hauling and conveying equipment, Trucks, classification of trucks, Graders and Power shovels, Horizontal, inclined and vertical conveyers, Belt conveyor system.

Erection Equipment, Cranes, classification, lifting capacity, safety hazards, Derrick Cranes, Mobile cranes, Overhead cranes, Traveler cranes, Tower cranes.

Ready mix concrete equipment, Concrete mixers, Concrete batching and mixing plant, Transportation of concrete mix, Concrete pouring and pumps, concrete compaction equipment. Aggregate production equipment, Different Crushers and Feeders, Asphalt Plant, Asphalt Pavers, Asphalt compacting Equipment, Drilling and Blasting equipment.

T2Mahesh Varma, "Construction Equipment and its planning and Application", Metropolitan Book Company, New Delhi. 1983. [Unit 2]

T3Construction Equipment and Its Management by S C Sharma [Unit 4] 

T4Construction Equipment by Jagdish Lal [Unit 5]

R2.Sharma S.C. "Construction Equipment and Management", Khanna Publishers, New Delhi, 1988 [unit 1 and 4]. 

CIA-2 : 25 MARKS

CIA-3 : 10 MARKS

ATTENDANCE : 5 MARKS

END SEMESTER EXAM : 50 MARKS

TOTAL: 100 MARKS

Course objectives:

•  Learn Syntax and Semantics and create Functions in Python.
• Handle Strings and Files in Python.
• Understand Lists, Dictionaries and Regular expressions in Python.
• Implement Object Oriented Programming concepts in Python
• Build Web Services and introduction to Network and Database Programming in Python
• Apply python programming in civil engineering applications

CO2: Build and manipulate Python Programs using Strings and Lists.     (L3) (PO1, PO2, PO3, PO4, PO5,PO9, PO12)                 

CO3: Build and manipulate Python Programs using Functions, Modules and Packages  Expressions.(L3)   (PO1, PO2, PO3 PO4,  PO5,PO9, PO12)   

CO4: Apply the concepts of files and exceptions as used in Python.  L(3)(PO1, PO2,  PO3,  PO4, PO5,PO9, PO12)

CO5: Implement exemplary applications related to Civil Engineering   (L5) (PO1, PO2, PO3,PO4, PO5,PO9, PO12)

Understanding Python-identifiers, variables, keywords, expressions and statements, evaluation of expressions, Operators and operands, operator precedence, indentation. Python Program Flow Control: Decision makingif, if..else, elif. Loops - for, while, for...else, while...else, Control statements using pass, continue, break

String traversal, string slices and comparison with examples, The string module, character classification. List- List values, accessing elements, list membership, Lists and for loops, List operations, List slices, List deletion, Matrices. Tuples - mutability and tuples, tuple assignment, Tuples as return values, Tuple operations. Dictionaries – operations and methods.

Function definition, calling functions, parameters and arguments, the return statement, type conversion and coercion, composition of functions, Lambda function, mathematical functions, user-defined functions, Recursion, Modules- Built-in modules, creating modules, import statement. Packages in Python - importing modules from a package

Python file handling, open, write, read text files, writing variables, Directories in Python, Pickling, Exception Handling

Introduction to classes and objects - class definition, attributes, instances, sameness, instances as arguments and return values. Constructor, class attributes and destructors, Inheritance.

1.Basic Programming using Phython 

 2. Anlyse a determinate beam and build a program to determine the support reactions for different loadings and support conditions. 

3. Analyze a determinate structure and build a program to determine the bending moment and shear forces for different loadings and support conditions. 

4. Analyze an indeterminate structure and build a program to determine the bending moment and shear forces for different loadings and support conditions. 

5. Analyze an structure and build a program to determine the slope and deflection  for different loadings and support conditions 

6. Evaluate thevolume of earthworkin a givenplan and build the program to verify using trapezoidal rule. 

7.Problem on Fluid mechanics / RCC 

8.Problems on irrigation/water resource

This mandatory course is aimed at providing a comprehensive overview of the different facets of Cyber Security.  In addition, the course will detail into specifics of Cyber Security with Cyber Laws both in Global and Indian Legal environments

Security Fundamentals-4 As Architecture Authentication Authorization Accountability, Social Media, Social Networking and Cyber Security.Cyber Laws, IT Act 2000-IT Act 2008-Laws for Cyber-Security, Comprehensive National Cyber-Security Initiative CNCI – Legalities

Cyber Attack and Cyber Services Computer Virus – Computer Worms – Trojan horse.Vulnerabilities -  Phishing -  Online Attacks – Pharming - Phoarging  –  Cyber Attacks  -  Cyber Threats -  Zombie- stuxnet - Denial of Service Vulnerabilities  - Server Hardening-TCP/IP attack-SYN Flood

Cyber Security Management Risk Management and Assessment - Risk Management Process - Threat Determination Process -Risk Assessment - Risk Management Lifecycle.Security Policy Management - Security Policies - Coverage Matrix Business Continuity Planning - DisasterTypes  -  Disaster Recovery Plan - Business Continuity Planning Process

Vulnerability - Assessment and Tools: Vulnerability Testing - Penetration Testing Black box- white box.Architectural Integration:  Security Zones - Devicesviz Routers, Firewalls, DMZ. Configuration Management - Certification and Accreditation for Cyber-Security.

Authentication and Cryptography: Authentication - Cryptosystems - Certificate Services, Securing Communications:  Securing Services -  Transport  –  Wireless  -  Steganography and NTFS Data Streams. Intrusion Detection and Prevention Systems:   Intrusion -  Defense in Depth  -  IDS/IPS  -IDS/IPS Weakness and Forensic AnalysisCyber Evolution: Cyber Organization – Cyber Future

R2. Thomas R, Justin Peltier, John, “Information Security Fundamentals”, Auerbach Publications.

R3. AtulKahate, “Cryptography and Network Security”,  2^nd Edition, Tata McGrawHill.2003

R4. Nina Godbole, SunitBelapure, “Cyber Security”, Wiley India 1^st Edition 2011

R5. Jennifer L. Bayuk and Jason Healey and Paul Rohmeyer and Marcus Sachs, “Cyber Security Policy Guidebook”, Wiley; 1 edition , 2012

R6. Dan Shoemaker and Wm. Arthur Conklin, “Cyber security: The Essential Body Of Knowledge”,   Delmar Cengage Learning; 1 edition, 2011

R7. Stallings, “Cryptography & Network Security - Principles & Practice”, Prentice Hall, 6th Edition 2014

Maximum Marks : 50

Basic elements of civil engineering professional practice are introduced in this course. Roles of all participants in the process-owners, developers, designers, consultants, architects, contractors, and suppliers - are described. Basic concepts in professional practice, business management, public policy, leadership, and professional licensure are introduced. 

Managerial Roles, Essential Managerial Skills, Key personal characteristics for Managerial success. Evolution and various schools to management thoughts, continuing management themes – quality and performance excellence, global awareness, learning organization, Characteristics of 21^st century Executives. Social responsibility of managers. Planning: steps in planning process; setting and managing objectives – MBO method, Strategies: importance, formulation of policies; Programs: Planning premises: concept, developing effective planning premises; Decision making, approaches to decision making, various techniques used for decision making. Organizing: organization structure, formal and informal organization. Traditional Organization Structures Directions in organizational Structures – Team structure, network structure, boundary less structure, Organizing Trends and Practices – Chain of command, unity of command, span of control, delegation and empowerment, decentralization and use of staff, organizational design and organizational configuration.

Leadership: Leadership and vision, Leadership traits, classic Leadership styles. Leaders behaviour – Likert’s four systems, Managerial Grid. Overlapping role of leader and managers. The organizational context of communication, Directions of communications, channels of communication, Barriers to communication. Motivation and rewards, rewards and performance. Hierarchy of need theory and two factor theory. Integrated model of motivation.

Controlling: Control function in management, The basic control process. Types of control – feed forward, concurrent and feedback controls. Factors in control effectiveness.

Professional Practice: Respective roles of various stakeholders: Government (constituting regulatory bodies and standardization organizations, prescribing norms to ensure safety of the citizens); Standardization Bodies (ex. BIS, IRC)(formulating standards of practice); professional bodies (ex. Institution of Engineers(India), Indian Roads Congress, IIA/ COA, ECI, Local Bodies/ Planning Authorities) (certifying professionals and offering platforms for interaction); Clients/ owners (role governed by contracts); Developers (role governed by regulations such as RERA); Consultants (role governed by bodies such as CEAI); Contractors (role governed by contracts and regulatory Acts and Standards); Manufacturers/ Vendors/ Service agencies (role governed by contracts and regulatory Acts and Standards), Professional Ethics – Definition of Ethics, Professional Ethics, Business Ethics, Corporate , Ethics, Engineering Ethics, Personal Ethics; Code of Ethics as defined in the website of Institution of Engineers (India); Profession, Professionalism, Professional Responsibility, Professional Ethics; Conflict of Interest, Gift Vs Bribery, Environmental breaches, Negligence, Deficiencies in state-of-the-art; Vigil Mechanism, Whistleblowing, protected disclosures.

General Principles of Contracts Management: Indian Contract Act, 1972 and amendments covering General principles of contracting; Contract Formation & Law; Privacy of contract; Various types of contract and their features; Valid & Voidable Contracts; Prime and sub-contracts; Joint Ventures & Consortium; Complex contract terminology; Tenders, Request For Proposals, Bids & Proposals; Bid Evaluation; Contract Conditions & Specifications; Critical /“Red Flag” conditions; Contract award & Notice To Proceed; Variations & Changes in Contracts; Differing site conditions; Cost escalation; Delays, Suspensions & Terminations; Time extensions & Force Majeure; Delay Analysis; Liquidated damages & Penalties; Insurance & Taxation; Performance and Excusable Non-performance; Contract documentation; Contract Notices; Wrong practices in contracting (Bid shopping, Bid fixing, Cartels); Reverse auction; Case Studies; Build-Own-Operate & variations; Public- Private Partnerships; International Commercial Terms;

Arbitration – meaning, scope and types – distinction between laws of 1940 and 1996; UNCITRAL model law – Arbitration and expert determination; Extent of judicial intervention; International commercial arbitration; Arbitration agreements – essential and kinds, validity, reference and interim measures by court; Arbitration tribunal – appointment, challenge, jurisdiction of arbitral tribunal, powers, grounds of challenge, procedure and court assistance; Award including Form and content, Grounds for setting aside an award, Enforcement, Appeal and Revision; Enforcement of foreign awards – New York and Geneva Convention Awards; Distinction between conciliation, negotiation, mediation and arbitration, confidentiality, resort to judicial proceedings, costs; Dispute Resolution Boards; Lok Adalats

R2.LM Prasad, “Organizational Behaviour”, Sutan Chand and Sons [Unit:II]

R3.B.S. Patil, "Legal Aspects of Building and Engineering Contracts", 1974. [Unit: II and III]

R4.The National Building Code, BIS, 2017 [Unit: II and III]

R5.RERA Act, 2017 [Unit: III]

R6.Meena Rao, "Fundamental concepts in Law of Contract", 3rd Edn. Professional Offset, 2006

R7.Neelima Chandiramani, "The Law of Contract: An Outline", 2nd Edn. Avinash Publications Mumbai,2000 [Unit: IV]

R8.Avtar Singh, "Law of Contract", Eastern Book Co., 2002 [Unit: IV]

R9.Dutt, "Indian Contract Act", Eastern Law House,1994 [Unit: IV]

R10. Anson W.R., "Law of Contract, Oxford University Press,1979, [Unit:IV]

R11. Kwatra G.K., "The Arbitration & Conciliation of Law in India with case law on UNCITRAL Model Law on Arbitration, Indian Council of Arbitration", 2005 [Unit: V]

R12. Wadhera, "Intellectual Property Rights", Universal Law Publishing Co.,2005 [Unit:V]

R13. T. Ramappa, “Intellectual Property Rights Law in India, Asia Law House", 2010 [Unit:V]

T2   Premvir Kapoor, “Professional Ethics and Human Values”, Khanna Book Publishing, [Unit: III]

T3   Nair. C. G. K, “Engineering Ethics”, Harshree Publishing Company, Bangalore, 2006 [Unit:III]

T4 Raman. B.S and Yaji. R. K, “Constitution of India and Professional Ethics”, United Publishers, Mangalore, 2006 [Unit: III]

CIA2 - 50 Marks

CIA3 - 20 Marks

ESE- 50 Marks

Elective subjects have been suggested which are related to specialized areas in Architecture. The student may choose any one subject of interest. The detailed syllabus of the electives chosen and the modus operandi of teaching will be taken up by the faculty in charge.

Course Objective: To expose the students to specialized areas of architecture.

Level: Basic

The understanding of habitat in a cultural setting where architecture is explored in the context of craft-making – ecology, people, and architecture.

Reading of the context and site intuitively and technically and initiate the design exercise of a Pavilion.

Exploration of local material resources that inform architecture.

Design development of a Pavilion comprising of a simple function for “Me and my environment”.

T2. Rapoport, A (1969). House Form and Culture. Prentice-Hall, Inc. Englewood Cliffs, NJ USA Pearson

T3. Bary, D. & Ilay, C. (1998) Traditional Buildings of India, Thames & Hudson, ISBN-10 : 0500341613

T4. McHarg I. (1978), Design with Nature. NY: John Wiley & Co.

R2. René Kolkman and Stuart H. Blackburn (2014). Tribal Architecture in Northeast India. 

R3. Richardson, V. (2001) New Vernacular Architecture; Laurance King Publishing.

R4. Kenneth, F. (1983). Towards a Critical Regionalism: Six points for an architecture of resistance, In the Anti-Aesthetic: Essays on Postmodern Culture. (Ed.) Hal, F. Seattle: Bay Press.

R5. Brunskill, R. W. (1987). Illustrated Handbook of Vernacular Architecture. Castle Rock: Faber & Faber.

R6. Frampton, K., & Cava, J. (1995). Studies in tectonic culture: The poetics of construction in nineteenth and twentieth century architecture. Cambridge, Mass.: MIT Press.

CONTINUOUS INTERNAL ASSESSMENT (CIA): 50 Marks

END SEMESTER EXAMINATION (ESE, VIVA-VOCE): 50 Marks

TOTAL:100 Marks

Note: For this course, a minimum of 50% marks in CIA is required to be eligible for VIVA-VOCE which is conducted as ESE.

Course Description:

Elective subjects have been suggested which are related to specialized areas in Architecture. The student may choose any one subject of interest. The detailed syllabus of the electives chosen and the modus operandi of teaching will be taken up by the faculty in charge.

Course objectives: To expose the students to specialized areas of architecture.

Level: Basic

1. Imparting the knowledge of creative planning and execution of visual communication and the latest technological advancements in architecture.
2. Concepts of geometries and surface, media and architecture.
3. Spatial and regional designs with help of diagrams, geometry, and surface parameters.
4. Contemporary Design approach with the help of theories.

T2: Fox, M. (2009) Interactive Architecture: Adaptive World, Princeton Architectural Press, ISBN-10 : 1616894067.

T3: Linn C. D. & Fortmeyer, R. (2014) Kinetic Architecture: Designs for Active Envelopes, Images Publishing Group Pty Ltd., ISBN-10 : 1864704950

T4: Ali Rahim, 'Contemporary Process in Architecture', John Wiley & Sons, 2000.

T5. Ali Rahim (Ed), 'Contemporary Techniques in Architecture, Halsted Press, 2002.

R2. Kostas Terzidis.(2006) Algorithmic Architecture

R4. Lisa Iwamoto.(2009) Digital Fabrications: Architectural and Material Techniques, Architecture Briefs

R5.Eisenmann, P. (1999) Diagram Diaries, Universe Publishing, ISBN-100789302640.

CONTINUOUS INTERNAL ASSESSMENT (CIA): 50 Marks

END SEMESTER EXAMINATION (ESE, VIVA-VOCE): 50 Marks

TOTAL:100 Marks

Note: For this course, a minimum of 50% marks in CIA is required to be eligible for VIVA-VOCE which is conducted as ESE.

Elective subjects have been suggested which are related to specialized areas in Architecture. The student may choose any one subject of interest. The detailed syllabus of the electives chosen and the modus operandi of teaching will be taken up by the faculty in charge.

Course objective: To expose the students to specialized areas of architecture.

Level: Basic

Engage in a rural outreach program through an architecture design project by adopting appropriate technology that seeks solutions to environmental, social concerns and addresses the sustainability paradigm.

Design and execution of an architectural project of a dwelling environment of a small community, with a focus on ideas of type and typology through site studies and analysis.

Study of correlation between climate-environmental parameters and social-cultural patterns as generators of an architectural space.

Construction and commissioning of the approved architectural design that is externally funded.

T2. Ching, F. D. K. (2015). Architecture: Form, Space, & Order (Fourth edition.). New Jersy: John Wiley.

T3. Givoni, B. (1969). Man, climate and architecture. Elsevier.

R2. Rapoport, A (1969). House Form and Culture. Prentice-Hall, Inc. Englewood Cliffs, NJ USA Pearson

R3. Clark, R. H., & Pause, M. (2012). Precedents in architecture: Analytic diagrams, formative ideas, and partis (4th ed.). Hoboken, N.J.: John Wiley & Sons

R4. Carter, R. (2012). On and By Frank Lloyd Wright: A Primer of Architectural Principles. Phaidon Press.

R5. Curtis, W. (1994). Le Corbusier: Ideas and Forms. Phaidon Press; Revised edition. R6. Mertins, D., & Lambert, P. (2014). Mies. New York: Phaidon.

CONTINUOUS INTERNAL ASSESSMENT (CIA): 50 Marks

END SEMESTER EXAMINATION (ESE, VIVA-VOCE): 50 Marks

TOTAL:100 Marks

Note: For this course, a minimum of 50% marks in CIA is required to be eligible for VIVA-VOCE which is conducted as ESE.

Software development in business environment has become more sophisticated, the software implementation is becoming increasingly complex and requires the best programming paradigm which helps to eliminate complexity of large projects. Object Oriented Programming (OOP) has become the predominant technique for writing software at present. Many other important software development techniques are based upon the fundamental ideas captured by object-oriented programming. The course also caters to the understanding of event driven programming, generic programming and concurrent programming.

Review of OOP - Objects and classes in Java – defining classes – methods - access specifiers – static members – constructors – finalize method – Arrays – Strings - Packages – JavaDoc comments.

LAB:

1. Implementation of Simple Java programs to understand data types, variables, operators, strings, input and output, control flow, arrays.

2.  Implementation of Classes and Objects – static fields, methods, method parameters, object construction.     

Inheritance – class hierarchy – polymorphism – dynamic binding – final keyword – abstract classes – the Object class – Reflection – interfaces – object cloning – inner classes.

LAB:

3. Implementation of Inheritance – how inheritance is handled using java keywords: extends and implements.

4. Implementation of Interfaces – programs on usage.

 5. Implementation of Inner classes – programs on inner classes.

Graphics programming – Frame – Components – working with 2D shapes – Using color, fonts, and images - Basics of event handling – event handlers – adapter classes – actions – mouse events – AWT event hierarchy – introduction to Swing – Model-View- Controller design pattern – buttons – layout management – Swing Components

LAB:

7.  Implementation of event driven programming

Motivation for generic programming – generic classes – generic methods – generic code and virtual machine – inheritance and generics – reflection and generics – Exceptions – exception hierarchy – throwing and catching exceptions.

LAB:

 7. Implementation of Generic programming.

 8.  Implementation of Exceptions.

Multi-threaded programming – interrupting threads – thread states – thread properties – thread synchronization – synchronizers – threads and event-driven programming, Parallel programming –fork, join framework.

LAB:

9.  Implementation of Multithreaded programs

 10. Implementation of Debugging using Assertions, logging and using a debugger.        

T1. Cay S. Horstmann and Gary Cornell, “Core Java, Volume I – Fundamentals ” ,Ninth Edition, Prentice Hall, 2012.

T2.  Martina Seidl, Marion Scholz, Christian Huemer and GertiKappel , “UML @ Classroom An Introduction to Object-Oriented Modeling Series: Undergraduate Topics in Computer Science”, Springer, 2015.

R1. Cay S. Horstmann , “Java SE8 for the Really Impatient: A Short Course on the  Basics (Java Series)”, 2014.

R2. Herbert Schildt,  “Java: The Complete Reference (Complete Reference Series)”, Ninth Edition, 2014.

R3. Bruce Eckel, “Thinking in Java”, 4th Edition, Prentice Hall Professional, 2006.

R4. Doug Rosenberg and Matt Stephens, “Use Case Driven Object Modeling with UML: Theory and Practice (Expert's Voice in UML Modeling)”,APress, 2013.

CIA II : Mid Semester Examination (Theory) : 10 marks

CIA III : Closed Book Test and Continuous Assessment: 10 marks

Lab marks :35 marks

Attendance : 05 marks

End Semester Examination(ESE) : 30% (30 marks out of 100 marks)

Total: 100 marks

Course Description: The course is offered as a mandatory core course for all students in Trimester II.  The course introduces students to a comprehensive set of concepts and theories, facts about human behaviour and organizations that have been acquired over the years. The subject focuses on ways and means to improve productivity, minimize absenteeism, increase employee engagement and so on thus, contributing to the overall effectiveness. The basic discipline of the course is behavioral science, sociology, social psychology, anthropology and political science.

Course Objectives: To make sense of human behaviour, use of common sense and intuition is largely inadequate because human behaviour is seldom random. Every human action has an underlying purpose which was aimed at personal or societal interest. Moreover, the uniqueness of each individual provides enough challenges for the managers to predict their best behaviour at any point of time. A systematic study of human behaviour looks at the consistencies, patterns and cause effect relationships which will facilitate understanding it in a reasonable extent. Systematic study replaces the possible biases of intuition that can sabotage the employee morale in organizations.

At the end of the course the student will be able to:

CLO1: Determine the individual and group behavior in the workplace. 

CLO2: Assess the concepts of personality, perception and learning in Organizations. 

CLO3: Analyze various job-related attitudes. 

CLO4: Design motivational techniques for job design, employee involvement, incentives, rewards & recognitions. 

CLO5: Manage effective groups and teams in organizations.

Historical Development, Behavioural sciences and Organizational behaviour, Meaning, Importance, Basic concepts, methods and tools for understanding behaviour, Challenges and Opportunities, OB model, ethical issues in organizational Behaviour.

Cross-cultural management, managing multicultural teams, communicating across cultures, OB in the digital age.

Personality:  Foundations of individual behaviour, Personality, Meaning and Importance, Development of personality, Determinants of personality, Theories of personality, Relevance of personality to managers.

Perception: Nature, Importance and Definition of Perception, Factors involved in perception, The Perceptual Process, Perceptual Selectivity and Organization, Applications in Organizations.

Learning: Definition and Importance, Theories of learning, Principles of learning, Shaping as managerial tool.

Attitudes: Sources and types of attitudes, Attitude formation and change, Cognitive Dissonance Theory. Effects of employee attitude, Job related attitudes

Values: meaning, importance, source and types, and applications in organizations.

Job satisfaction: Measuring Job Satisfaction, Causes of Job Satisfaction, impact of satisfied and dissatisfied employees on the workplace.

Meaning, process and significance of motivation, Early Theories of motivation: Hierarchy of Needs, Theory X Theory Y, Two Factor theory, McClelland Theory of Needs, Contemporary Theories of Motivation: Goal Setting theory, Self-Efficacy theory, Equity theory/Organizational justice, Expectancy theories, Motivation theories applied in organizations: Job design, employee involvement, rewards and global implications

Groups: Meaning, classification and nature of groups, Stages of group development, an alternative model for Temporary Groups with punctuated equilibrium model, Group properties: Roles, Norms, Status, Size and Cohesiveness, Group decision making.

Teams: Meaning of teams, Types of teams, Creating Effective teams, what makes individuals into effective team players, Team development, Team decision making. 

T1. Robbins, S P., Judge, T A and Vohra, N (2018).  Organizational Behavior. 18th Edition, Prentice Hall of India.

Course objectives:

1.      To understand the basics of drives and power transmission system.

2.      To learn about the kinematics of robot

3.      To understand the basics of sensors and the different types of robotic End Effectors

4.      To learn about the machine vision systems and its application

To gain information about the different types of robot programming methods.

After successful completion of this course, the students should be able to

CO1. Explain the basics of robots, drives and power transmission system.

CO2. Solve and analyze the kinematics of robotic manipulator.

CO3. Illustrate different sensors and robotic end-effectors

CO4. Explain the basics of machine vision and its operation.

CO5. Program robots using different programming methods.

Basic Structure, Classification of robot and Robotic systems, laws of robotics,
workspace and precision of movement. Drives and control systems - Robot drive
mechanisms- hydraulic – electric – servomotor- stepper motor - pneumatic drives.
Control systems for robots.

Introduction to manipulator kinematics, homogeneous transformations and robot
kinematics, Denavit-Hartenberg (D-H) representation, concept of forward and inverse
kinematics.

Sensors in robotics -Position sensors, Velocity sensors, Acceleration Sensors,
Force/Torque sensor, Touch and Tactile sensors, Proximity, Range and sniff sensors,
RCC and IRCC systems, VOICE recognition and synthesizers. Robot End Effectors -
Types of end effectors, Mechanical grippers – Types of Gripper mechanisms – Grippers
force analysis, other types of Grippers – Vacuum cups – Magnetic Grippers – Adhesive
Grippers, Active and passive grippers, Robot end effector interface.

Image Sensing and Digitizing - Image definition, Image acquisition devices –
videcon camera and digital camera, specialized lighting techniques. Digital Images -
Sampling, Quantization and Encoding. Image storage. Image Processing and Analysis -Data reduction – digital conversion and windowing. Segmentation – Thresholding, Edgedetection and Region growing. Binary Morphology and grey morphology operations.
Feature Extraction, Object recognition, Depth measurement. Application of Vision
systems.

Introduction; On-line programming: Manual input, lead
through programming, teach pendant programming; Off-line programming languages,Simulation.

T2. Saeed B. Niku, „Introduction to Robotics‟,Prentice Hall of India, 2nd Edtion 2001.

T3. Mikell P. Groover, "Industrial Robots - Technology, Programming andApplications", McGraw Hill, New York, 2008

R3. Ramesh Jam, Rangachari Kasturi, Brain G. Schunck, Machine Vision, Tata McGrawHill, 1991.

R4. Yoremkoren, Robotics for Engineers, McGraw-Hill, USA, 1987.

R5. P.A. Janaki Raman, Robotics and Image Processing, Tata McGraw-Hill, 1991

The course is an exploration of the prevailing theories and empirical methods that explain about people’s thoughts, feelings and behaviors in a social context. This throws light on cognitive and social factors that influence human behavior, especially in situations populated by others.

1. To understand the thinking patterns of people and the perception of self in various cultural contexts
2. To comprehend factors of affect related to cognition in a social context
3. To inculcate dynamics of person in different situation
4. To evaluate the person and situation by using psychometric tests

Definition, Person perception; Self-concept; Self-presentation; Self-esteem.

Emotions - Positive and negative affect; Thoughts and expressions; Selective attention; Information processing; Memory; Cognitive appraisal; Judgment and Decision Making; Problem Solving. 

Practicum: Decision making & Problem Solving scale

Justifying our actions, Social Relations: Stereotypes; Prejudice: Definition and Types, Sources of Prejudice, Consequences of Prejudice; Strategies to reduce prejudice; Attribution, Attitude and Attitude Change.

Aggression: Perspectives, Causes; Prevention and Control of Aggression; Pro-social Behavior.

Practicum: Pro-social behavior scale

Nature of Groups; Basic Processes, Group Performance, Group Decision Making; Group Interaction (Facilitation, Loafing)

Practicum: Sociometry

Baron, Robert A. and Byrne, D. (2001) .Social Psychology 8 th Edition (Reprint).New Delhi:Prentice-Hall of India Pvt Ltd.

Baumeister.R.F. and Bushman,B.J. (2008).Social Psychology and Human nature. Belmont,CA:Thomson Wadsworth

Brehm, S.S. and Kassin, SN. (1996) Social Psychology. Boston : Houghton Mifflin Company.

Crisp, R.J. and Turner, R.N. (2007), Essential Social Psychology. New Delhi: Sage Publications India Pvt., Ltd.

Taylor ,S .E, Peplau, L.A and Sears, D.O. (2006) Social Psychology. New Delhi: Pearson Prentice-Hall of India.

Misra, G., & Dalal, A. K. (2001). Social Psychology in India: Evolution and Emerging Trends. In K. A. Dala, & G. Misra, New Directions in Indian Psychology. New Delhi: Sage.

Mid Semester Examination

End Semester Examination