The online registration requests for each 'current semester' must be completed before the commencement of the SEEs (Semester Final Examinations). A copy is kept with the department head, the faculty advisor/dean and the student. It is evaluated by the department committee, consisting of the head of the department, the seminary 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

The student will be required to re-appear as a "supplementary student" in the final examination of the semester as and when offered. The corresponding 'credit points' (CP) are calculated by multiplying the grade point by the credit for the subject in question. Thus, CGPA is calculated from I year II semester onwards at the end of each semester as per the formula.

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 credits that a student obtains for the award of a diploma is the sum of the total number of credits obtained in all schemes of his/her study, including the R16 scheme. The student's performance assessment takes place after the exemption of two subjects if the total number of credits acquired is ≤ 206, and of three subjects if the total number of credits acquired is > 206 (see R16 Regulations for exemption details). Note: If a student has re-accepted the R16 regulations and has not studied subjects/subjects from his/her previous study scheme, which is a prerequisite for further subjects in the R16 regulations, the concerned college principals will conduct remedial classes to cover those subjects/ topics to cover for the benefit of the students.

Student transfers

A regulation R09/R13/R15 student who has been held back for lack of credits will only be promoted to the next semester of regulations R16 after obtaining the required credits in accordance with the relevant regulations for his/her first admission. A student who has failed in any subject according to any regulations must pass those subjects according to the same regulations. If a student readmitted to R16 regulations has any subject that shares 80% of the curriculum with his previous regulations, that subject will be replaced in R16 regulations with another subject proposed by the University.

Scope

A student applies for 144 credits and secures 144 credits with CGPA ≥ 5 from II year to IV year B.Tech. Out of the guaranteed 144 KT, the student can use up to 6 KT exemption, i.e. one open elective course and one professional elective course or two professional elective courses, which means 138 KT for evaluating the success of the B.Tech program. Students who do not fulfill the condition for obtaining a diploma within six academic years from the year of enrollment lose their place on the B.Sc.

Promotion rule

Exclusion from the examination hall and cancellation of performance in that subject only of all students concerned. Removal from the examination hall and cancellation of appearance in that subject and all other subjects in which the student has already participated, including practical examinations and project work, will not be allowed for the remaining examinations of the subjects of that semester/year. Removal of students of the colleges from the examination hall and cancellation of performance in that subject and all others.

No Course

ELECTRONICS AND COMPUTER ENGINEERING II, III, IV YEAR COURSE STRUCTURE & SYLLABUS (R16) II, III, IV YEAR COURSE STRUCTURE & SYLLABUS (R16).

No. Course

Open Elective – Students must take open electives from the list of open electives offered only by other departments/branches. For example: - A Mechanical Engineering student can take Open Electives from all other departments/branches, except Open Electives offered by the Mechanical Engineering department.

TECH. III AND IV YEARS S

Computer Assisted Language Learning (CALL) Lab

To provide hands-on experience in the use of various engineering materials, tools, equipment and processes that are common in the engineering field. It explains the construction, operation, use and application of various work tools, equipment and machinery. Identify and use marking tools, hand tools, measuring equipment and to work within specified tolerances.

TRADES FOR EXERCISES

Practice in the manufacture of components using shop trades including plumbers, assembly, carpentry, foundry, house wiring and welding. Identify and apply appropriate tools for various engineering process occupations including drilling, material removal, measuring, engraving.

TRADES FOR DEMONSTRATION and EXPOSURE

Beta and Gamma Functions: Beta and Gamma functions, properties, relationship between Beta and Gamma functions, evaluation of integrals using Beta and Gamma functions. Sections and Developments: Sectional Views of Regular Solids Right – Prism, Cylinder, Pyramid, Cone – Auxiliary Views. Isometric & Orthographic Projections: Principles of isometric projection – isometric scale – isometric views – conventions – isometric views of lines, plane figures, simple solids – conversion of isometric views to orthographic views.

To gain an in-depth knowledge about signals, systems and their analysis using various transformations. Understand the principle of linear system, filter characteristics of a system and its bandwidth, the concepts of autocorrelation and cross-correlation and power density spectrum. Calculation of unit sample, unit step and sinusoidal responses of the given LTI system and verify its physical realizability and stability properties.

First thread generates random integer every 1 second and if the value is even, second thread calculates the square of the number and prints. If the value is odd, the third thread will print the value of cube of the number. Provide three classes named Rectangle, Triangle and Circle so that each of the classes extends the class shape.

Each of the classes contains only the printArea () method that prints the area of ​​the given shape. To acquaint the student with the analysis and design of basic circuits of transistor amplifiers and their frequency response characteristics, feedback amplifiers, oscillators, large signal amplifiers and tuned amplifiers. Mathematical Logic: Introduction, Statements and Notation, Conjunctions, Normal Forms, Inference Theory for Assertion Calculus, Predicate Calculus, Inference Theory of Predicate Calculus.

Course objective: To learn the basic types of business, the impact of the economy on business and firms in particular.

Design and Simulation in Simulation Laboratory using any Simulation Software (Any 6 Experiments)

Testing in the Hardware Laboratory (6 Experiments) A) Any Three circuits simulated in Simulation laboratory

• Course management system (CMS)
• Easy Leave

Introduction to Software Engineering: The Evolving Role of Software, The Changing Nature of Software, Legacy Software, Software Myths. Introduction to networks: Internet, protocols and standards, the OSI model, layers in the OSI model, TCP/IP Suite, addressing. Introduction to Microcontrollers: Overview of 8051 microcontroller, architecture, I/O ports, memory organization, addressing modes and instruction set of 8051.

Advanced ARM processors: Introduction to CORTEX processor and its architecture, OMAP processor and its architecture. Introduction to Database Design: Database Design and ER Diagrams, Entities, Attributes and Entity Sets, Relationships and Relationship Sets, Additional Features of the ER Model, Conceptual Design with the ER Model, Conceptual Design for Large Enterprises. Basic concepts - Algorithm specification - Introduction, Recursive algorithms, Data abstraction performance analysis - Time complexity and space complexity, Asymptotic notation - Big O, Omega and Theta notations, Introduction to linear and non-linear data structures.

Signals – Introduction to signals, signal generation and handling, core support for signals, signal function, unreliable signals, reliable signals, kill, raise, alarm, pause, abort, sleep functions. Machine Independent Optimizations: The main sources of optimization, introduction to data flow analysis, foundations of data flow analysis, constant propagation, elimination of partial redundancy, loops in flow graphs. Introduction to Digital Signal Processing: Introduction, A digital signal processing system, The sampling process, Discrete time series.

Introduction to Blackfin Processor – The Blackfin Processor, Introduction to Microsignal Architecture, Overview of Hardware Processing Units and Register Files, Arithmetic Addressing Unit, Control Unit, Bus Architecture and Memory, Basic Peripherals. Write a C program (sender.c) to create a message queue with read and write permissions to write 3 messages to it with different priority numbers. Introduction: Introduction to UNIX, Overview of Commands, File I/O, (Open, Create, Close, Lseek, Read, Write), Process Control (Fork, Vfork, Exit, Wait, Waitpid, Exec), Signals, Interprocess Communication, ( pipes, FIFOs, message queues, semaphores, shared memory).

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 of 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, Representation of Trees, Binary Tree ADT, Properties of Binary Trees, Binary Tree Representations Array and Linked Representations, Binary Tree Crossings, Twisted Binary Trees, Max Priority Queue ADT Implementation-Max Heap Definition, Insertion into a Max Heap , removing a maximum heap. Sorting-Insertion Sorting, Selection Sorting, Radix Sorting, Quick Sorting, Heap Sorting, Comparison of Sorting methods. Search Trees Binary Search Trees, Definition, Operations Search, Insertion and Delete, AVL Trees Definition and Examples, Insertion into an AVL Tree, B-trees, Definition, B- Order Tree m, Operations Insertion and Search, Introduction to Red-Black and Splay Trees (Elementary treatment-definitions and Examples 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-organization maps (SOM): two basic feature mapping models, self-organization map, SOM algorithm, feature map properties, computer simulations, vector quantization learning, adaptive patter classification.

TECH. AUTOMOBILE ENGINEERING INTRODUCTION TO MECHATRONICS

Electromechanical Drives: Relays and Solenoids - Stepper Motors - DC Brushed Motors - DC Brushless Motors - DC Servo Motors - 4 Quadrant Servo Drives, PWMs - Pulse Width Modulation - Variable Frequency Drives, Vector Drives - Calculation of Drive System Load. Programmable Logic Controllers: Basic Structure - Programming: Ladder Diagram -Timers, Internal Relays and Counters - Shift Registers - Master and Jump Controllers - Data Handling - Analog Input/Output - PLC Selection - Application. Programmable Motion Controllers: Introduction - System Transfer Function - Laplace Transform and its Application to Differential Equation Analysis for a Control System - Feedback Devices: Position, Velocity Sensors - Optical Incremental Encoders - Proximity Sensors: Inductive, Capacitive, Infrared - Continuous and Discrete Processes - 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

TECH. BIOMEDICAL ENGINEERING RELIABILITY ENGINEERING

Network Reliability Evaluation Using Probability Distributions: Reliability Evaluation of Sequential Systems, Parallel Systems – Partially Redundant Systems – Determination of Reliability Measure – MTTF for Sequential and Parallel Systems – Examples. Discrete Markov chains: Basic concepts - Stochastic transition probability matrix - Time dependent probability estimation - Limit state probability estimation - Absorption states - Examples. Continuous Markov Processes: Modeling Concepts - State Space Diagrams - Estimation of Unreliability of One-Component and Two-Component Reversible Systems.

Frequency and duration techniques: Frequency and duration concepts, application to multi-state problems, frequency balance approach. Approximate system reliability evaluation: Series systems – Parallel systems - Network reduction techniques - Cut-set approach - Common mode fault modeling and evaluation techniques - Examples.

TECH. BIOMEDICAL ENGINEERING MEDICAL ELECTRONICS

TECH. BIOMEDICAL ENGINEERING TELEMETRY AND TELECONTROL