A copy of it will be kept with the department head, faculty adviser/advisor and the student. It will be evaluated by the departmental committee consisting of the department head, seminar supervisor and a senior faculty member.
The semester grade point average (SGPA) is calculated by dividing the sum of credit points (CP) secured from all subjects/ courses registered in a semester, by the total
Student will be required to appear again as a 'supplementary student' in the end-of-semester examination, as and when it is offered. The corresponding 'credit points' (CP) are calculated by multiplying the grade point by credits for that specific subject/.
For merit ranking or comparison purposes or any other listing, only the ‘rounded off’
For calculations listed in regulations 9.6 to 9.9, performance in failed subjects/ courses (securing F grade) will also be taken into account, and the credits of such subjects/
Passing standards
After the completion of each semester, a grade card or grade sheet (or transcript) shall be issued to all the registered students of that semester, indicating the letter grades and
Declaration of results
Withholding of results
Transitory regulations
The maximum number of credit points a student can obtain for the award of a degree is the sum of the total number of credit points secured in all regulations of his study, including regulations R16. Note: If a student re-admitted to R16 Regulations has not studied any subject/topic in their previous regulations of study which is a prerequisite for further subjects in R16 Regulations, the relevant Heads of Faculty conduct supplementary hours to cover these subjects/topics for the benefit students.
Student transfers
A student in the R09/R13/R15 regulations who has been held back for lack of credit shall be promoted to the next semester of the R16 regulations only after obtaining the required points according to the corresponding regulations for his/her first admission . If a student readmitted to the R16 regulations has a subject with 80% of the syllabus in common with his/her previous regulations, that subject in the R16 regulations will be replaced by another subject proposed by the University.
Scope
The student will register for 144 credits and pass 144 credits with CGPA ≥ 5 from II year to IV year B.Tech. The students who do not fulfill the requirement for the award of the degree in six academic years from the year of admission forfeit their seat in B.Tech.
Promotion rule
Expulsion from the examination hall and cancellation of the performance in that subject only of all the students concerned. Student of the colleges suspension from the examination hall and cancellation of the performance in that subject and all others.
No Course
Open electives – Students must take open electives from the list of open electives offered only by other departments/branches. Eg: - A student of Mechanical Engineering can take Open Choice modules from all other departments/branches except Open Choice modules offered by Mechanical Engineering Dept.
TECH. III AND IV YEARS S
A Fibonacci sequence is defined as follows: the first and second terms in the sequence are 0 and 1. Subsequent terms are found by adding the previous two terms in the sequence. 8 a) Write a C program that implements the Bubble sort method to sort a given list of integers in ascending order.
Kalam from "Fluency in English - A Course Book for Engineering Students" published by Orient BlackSwan, Hyderabad. Hill from Fluency in English – A Course book for Engineering Students” published by Orient Blackswan, Hyderabad.
Computer Assisted Language Learning (CALL) Lab
To provide practical experience in the use of various engineering materials, tools, equipment and processes common in the field of engineering. It explains the construction, function, use and application of various work tools, equipment and machinery.
TRADES FOR EXERCISES
Identify and use scribing tools, hand tools, measuring equipment and work to prescribed tolerances. Practice manufacturing components using workshop activities including plumbing, assembly, carpentry, foundry, house wiring and welding.
TRADES FOR DEMONSTRATION & EXPOSURE
Simple stresses and strains: Elasticity and plasticity – Types of stresses and strains – Hooke's law – stress – strain diagram for mild steel – Working stress – Safety factor – Lateral strain, Poisson's ratio and volumetric strain – Moduli of elasticity and the relationship between them – Bars of different cross section – composite bars – Temperature loads. Shear force and bending moment: definition of beam – Types of beams – Concept of shear force and bending moment – S.F and B.M diagrams for cantilevered, simply supported and overhanging beams subjected to point loads, u.d.l., uniformly varying loads and combination of these loads – Counter bending point – Relationship between S.F., B.M and loading rate on a section of a beam. Bending 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, Angular and channel sections – Design of simple beam sections.
Thin cylinders: Thin seamless cylindrical shells – Derivation of the formula for longitudinal and circumferential stresses – annular, longitudinal and volume deformations – Changes in diameter and volume of thin cylinders – Thin spherical shells. Introduction: Basic Concepts: System, Control Volume, Surroundings, Boundaries, Space, Types of Systems, Macroscopic and Microscopic Aspects, Continuum Concept, Thermodynamic Equilibrium, Property of State, Process, Cycle – Reversibility – Quasi – Static Process, Irreversible Process Work and Heat Function , Point and Path. Composition of alloys: Need for alloying, Types of solid solutions, Hume-Rothery rules, Intermediate phases of alloys.
Students will be able to understand basic concepts of stress, strain and their relationships based on linear elasticity.
Metal Casting Lab
Welding Lab
Mechanical Press Working
Course outcome: At the end of the laboratory sessions the student will be able to. Course outcomes: At the end of the course, the student will be able to characterize and calibrate measuring devices. Network reliability evaluation using probability distributions: reliability evaluation of series systems, parallel systems – Partially redundant systems- determination of reliability measurement- MTTF for series and parallel systems – Examples.
Approximate evaluation of system reliability: Series systems – Parallel systems - Network reduction techniques - Cut-set approach - Common mode fault modeling and evaluation techniques - Examples. Course Objective: Apply the principles of thermodynamics to analyze different types of refrigeration and air conditioning systems and understand the functionality of key components. Air cooling: Bell Coleman cycle and Brayton cycle, open and closed air systems – Actual air cooling system – Aircraft cooling needs – Air systems – Actual air cooling system – Aircraft cooling needs – Application of air cooling, justification – Types of systems – Problems.
Suspension system: Objects of suspension systems – suspension system with live axle, torsion bar, shock absorber, independent suspension system. Inventory systems - Fixed order quantity system, two bin system, periodic review systems, optional replenishment system and MRP. Course Outcomes: At the end of the course, the student will be able to: Understand the causes and effects of vibration in mechanical systems.
TECH. AERONAUTICAL ENGINEERING INTRODUCTION TO SPACE TECHNOLOGY
TECH. AERONAUTICAL ENGINEERING INTRODUCTION TO AEROSPACE ENGINEERING
TECH. AERONAUTICAL ENGINEERING AIR TRANSPORTATION SYSTEMS
TECH. AERONAUTICAL ENGINEERING ROCKETS AND MISSILES
TECH. AUTOMOBILE ENGINEERING DISASTER MANAGEMENT
Organizational Structure for Disaster Management in India – Preparation of State and District Disaster Management Plans. National Disaster Management Plan, Ministry of Home Affairs, Government of India (http://www.ndma.gov.in/images/policyplan/dmplan/draftndmp.pdf).
TECH. AUTOMOBILE ENGINEERING INTELLECTUAL PROPERTY RIGHTS
TECH. AUTOMOBILE ENGINEERING DATA STRUCTURES
Trees – Terminology, Tree Representation, Binary Tree ADT, Properties of Binary Trees, Binary Tree Representations-array and related representations, Binary Tree Traversals, Threaded Binary Trees, Max Priority Queue ADT-Implementation-Max Heap-Definition , Inserting into a Heap, deleting from a maximum Heap. Sorting-Insertion sort, Selection sort, Basic sort, Quick sort, Heap sort, Comparison of sorting methods. Search Tree-Binary Search Tree, Definition, Operations- Search, Insertion and Delete, AVL Tree-Definition and Examples, Insertion into an AVL Tree, B-Tree, Definition, B- Tree of order m, Operations- Insertion and Search, Introduction to Red-Black and Splay Trees (Definitions and examples for elementary treatment only), Comparison of search trees.
Fundamentals of Data structures in C, 2nd Edition, E. Horowitz, S. Sahni and Susan Anderson-Freed, Universities Press. Data Structures and Algorithms Made Easy in JAVA, 2nd Edition, Narsimha Karumanchi and Career Monk Publications.
TECH. AUTOMOBILE ENGINEERING ARTIFICIAL NEURAL NETWORKS
Self-Organizing Maps (SOM): Two Basic Feature Map Models, Self-Organizing Map, SOM Algorithm, Feature Map Properties, Computer Simulations, Learning Vector Quantization, Adaptive Pattern Classification.
TECH. AUTOMOBILE ENGINEERING INTRODUCTION TO MECHATRONICS
Electromechanical Drives: Relays and Solenoids - Stepper Motors - Brushed DC Motors - Brushless DC Motors - DC Servo Motors - 4-Quadrant Servo Drives, PWM - Pulse Width Modulation - Variable Frequency Drives, Vector Drives - Computing Load movement system. Programmable Logic Controllers : Basic Structure - Programming : Ladder Diagram - Timers, Internal Relays and Counters - Shift Registers - Master and Jump Controls - Data Handling - Analog Input/Output - PLC Selection - Application. Programmable Motion Controllers: Introduction - System Transfer Function - Laplace Transform and its Application in Differential Equation Analysis of a Control System - Feedback Devices: Position, Velocity Sensors - Incremental Optical Encoders - Proximity Sensors: Inductive, capacitive, infrared and infrared process - Control system performance and tuning - Digital controllers - P , PI , PID control - Control modes - Position, speed and torque - Speed profiles - Trapezoidal - S.
TECH. AUTOMOBILE ENGINEERING MICROPROCESSORS AND MICROCONTROLLERS
Advanced ARM processors: Introduction to CORTEX processor and its architecture, OMAP processor and its architecture.
TECH. BIOMEDICAL ENGINEERING RELIABILITY ENGINEERING
Discrete Markov Chains: Basic Concepts - Stochastic Transition Probability Matrix - Time-dependent Probability Evaluation - Probability State Evaluation - Absorbing States - Examples. Continuous Markov processes: modeling concepts - State space diagrams - Evaluation of the unreliability of one- and two-component repairable systems. Frequency and duration techniques: Frequency and duration concepts, application to multi-state problems, frequency balance approach.
TECH. BIOMEDICAL ENGINEERING MEDICAL ELECTRONICS
TECH. BIOMEDICAL ENGINEERING TELEMETRY AND TELECONTROL
Telecontrol methods and applications of telemetry and remote control – by Swoboda G., Reinhold Publishing Corp., London, 1991.
TECH. BIOMEDICAL ENGINEERING
EMI Measurements: Introduction to Open Area Test Site Measurements – Measurement Precautions – Open Area Test Site – Terrain Roughness – NSA – Measurement of Test Site Imperfections – Antenna Factor Measurement – Measurement Error. Radiated Interference Measurements – Echo Chamber – TEM Cell – Reverberation Chamber – Ghz TEM Cell – Comparison of Test Facilities – Measurement Uncertainties Conducted Interference Measurements – Characterization – Conducted EM Noise on Power Supply Lines – Conducted EMI from Equipment – Immunity – Detectors and Measurement – Pulsed EMI immunity – Electrostatic discharge. Electromagnetic Compatibility of Integrated Circuits – Low Emission and Susceptibility Techniques – Edited by Sonia Ben Dhia, Mohamed Ramdani and Etienne Sicard – Springer, 2006.
TECH. CIVIL ENGINEERING DISASTER MANAGEMENT
TECH. CIVIL ENGINEERING REMOTE SENSING AND GIS
Raster Data Model: Elements of Raster Data Model, Types of Raster Data, Structure of Raster Data, Data Conversion, Integration of Raster and Vector Data. Data entry: metadata, conversion of existing data, creation of new data; Remote sensing data, field data, text data, digitization, scanning, on-screen digitization, meaning of source map, data editing.
TECH CIVIL ENGINEERING GEOINFORMATICS
TECH. CIVIL ENGINEERING INTELLECTUAL PROPERTY RIGHTS
TECH CIVIL ENGINEERING
The Environmental Protection Act, the Water Act, the Air Act (Pollution Prevention and Control Act), Motor Act, Wildlife Act.
TECH. CIVIL ENGINEERING
Integer programming - Introduction - formulation - Gomory cutting plane algorithm - Zero or one algorithm, branch and bound method.
