Author: ecedeptcvr

Workshops 1

ecedeptcvr

Summary
2021-2022      2020-2021    2019-2020     2018-2019
 2017-2018    2016-2017     2015-2016       2014-2015

Academic year : Summary

S.No Academic Year No. of Workshops No. of FDP No. of Seminars and Guest Lectures Total
1 2020-2021 1 0 6 7
2 2019-2020 10 3 4 18
3 2018-2019 3 0 2 5
4 2017-2018 11 1 3 15
5 2016-2017 7 1 3 12
6 2015-2016 8 1 6 15
7 2014-2015 8 0 0 8

 

Academic year : 2021-2022

S. No Dates Duration Event Name No.of Participants Type of faculty members Nature of the Program
1 09/08/2021 to 14/08/2021 6 days 5G and Emerging Technologies 120 Faculty members FDP
2 16/08/2021 to 18/08/2021 3 days IoT Design using Wireless Protocols 40 Faculty members Workshop
3 11/13/2021 1 day Cyber Security & Ethical Hacking 200 All Branches students and Faculty members Webinar
4 27/09/2021 to 02/10/2021 6 days Introduction to Deep Learning 300+ B.Tech 3rd year ECE Workshop
5 11/13/2021 1 day Verification Methodologies for ASIC Design 40 B.Tech 4th year ECE and M.Tech VLSI SD students Webinar
6 22/11/2021 to 26/11/2021 5 days A 5-Day Workshop on Introduction to Python Programming 120+ B.Tech 2nd year students (all branches) Workshop

 

 

Academic year : 2020-2021

S. No Dates Duration Event Name No.of Participants Type of Participants Nature of the Program
1 7/5/2020 2 Hours Webinar on CMOS Circuit Design with the Sub-nW power 100+ Faculty Members Webinar
2 30/11/2020 2 Hours Webinar on Challenges in Designing High Speed Serial I/Os and Interfacing 100+ Faculty Members Webinar
3 02/01/2021 & 03/01/2021 2 Days A Two day virtual workshop on Make in India and entrepreneurship 200+ B.Tech 2nd and 3rd year students Workshop
4 1/9/2021 2 hours Dr. Sukomal Dey
Assistant Professor
Dept. of Electrical Engineering
IIT Palakkad		 30 Faculty Members Webinar
5 11/02/2021 to 13/02/2021 3 Days A Three Day Training on ASIC Physical Design using Cadence EDA Tools (Theory & Practice) 30 Faculty Members Traning
6 12/03/2021 to 13/03/2021 2 Days A Two Day Traning on VLSI Design using EDA Tools 60 B.Tech 3rd year ECE Training
7 16/03/2021 1 day Hardware Platforms for Engineering Applications 40 B.Tech 2nd year ECE Webinar

 

Academic year : 2019-2020

S. No Dates Duration Event Name Conducted by No.of Participants Type of Participants Nature of the Program  
1 19/07/2019 2 Hours Emerging Trends in Microprocessors and Microcontrollers TECHNOLITES 100+ B.Tech 3rd year ECE Guest Lecture
2 27/07/2019 2 Hours Contribution of TESLA TECHNOLITES 100+ B.Tech 3rd year ECE Guest Lecture
3 02/08/2019, 03/08/2019 and
09/08/2019, 10/08/2019		 2 Days Two Day Workshop on Arduino Based Robots Technolites,
ECE		 87 B.Tech 2nd year ECE Workshop
4 26/08/2019 1 Day One Day Seminar on Scripting Languages for VLSI Design Department of ECE 17 Faculty Members Seminar
5 27/08/2019 1 Day One Day Seminar on Physical Design Department of ECE 16 Faculty Members Seminar
6 28/08/2019 & 30/08/2019 2 Days Two day Training on VLSI System Functionality and Optimization Analysis using EDA Tools Prof. Magdy Bayoumi Centre for VLSI Design, ECE Dept., 16 M.tech VLSI SD students Training
7 07/09/2019 & 09/09/2019 2 Days Two Day Workshop on Raspberry Pi Using Python TECHNOLITES, Dept., of ECE 16 B.Tech 3rd year ECE Workshop
8 7/9/2019 1 Day Technical Event on Hardware Platforms for Engineering Applications TECHNOLITES, Dept., of ECE 49 B.Tech 2nd year ECE Technical Event
9 19/09/2019 to 21/09/2019 3 Days Three Day FDP on ASIC physical Design Using Cadence Tools Prof. Magdy Bayoumi Centre for VLSI Design, ECE Dept., 11 Faculty Members FDP
10 27/09/2019 1 Day Hands-on Training on Electromagnetic Software Tools TECHNOLITES, Dept., of ECE 32 B.Tech 3rd year ECE Training Program
11 30/10/2019 to 01/11/2019 3 Days Three Day FDP on Research Methodology IEEE SB, Dept., of ECE 12 Faculty Members FDP
12 25/11/2019 to 29/11/2019 5 Days Short Term Training on High Level VLSI System Design using EDA Tools Prof. Magdy Bayoumi Centre for VLSI Design, ECE Dept., 30 Faculty Members Short Term Course
13 02/12/20149 to 04/12/2019 3 Days Three Day Refresher Course on 8051 mrocontroller Dept., of ECE 36 Faculty Members Refresher course
14 12/12/2019 to 14/12/2019 3 Days Three Day FDP on Wireless Sensor Networks and Internet of Things TEQIP-III, JNTUH and Dept., of ECE, CVRCE 60 Faculty Members FDP
15 24/12/2019 1 Day Modern CPU Architectures & Infrastructures for Embedded System Design TECHNOLITES, ECE DEPT., 50 M.Tech ES students Guest Lecture
16 4/1/2020 1 Day One Day Training on MIT App Inventor TECHNOLITES ECE Dept., 52 B.Tech 2nd year ECE Training
17 27-28/01/2020, 29-30/01/2020,31/01/2020-01/02/2020 2 Days Two Day Training on Basic Embedded System Design using Arduino TECHNOLITES in Association With IETE, ECE Dept., 130 B.Tech 2nd year ECE Workshop
18 07/02/2020 and 10/02/2020 2 Days Two Traing on TCL Scripting For VLSI EDA Tools TECHNOLITES ECE Dept., 10 B.Tech 4th year ECE Training

 

Academic year : 2018-2019

           
S. No Dates Duration Event Name No.of Participants Type of Participants Nature of the Program
1 4/8/2018 1 Day One Day Workshop on Basic Embedded System Design Using Arduino 30 B.Tech 2nd year ECE Workshop
2 9/10/2018 2 HOURS Wireless Communication- Electromagnetic Theory 30 B.tech 4th year ECE Guest Lecture
3 24/09/2018 2 HOURS Microstrip Antennas 60 B.tech 4th year ECE Guest Lecture
4 21/1/2019 & 22/1/2019 2 Days Two Day Training on Xilinx Vivado Design Tools (Installation and practice) 25 Faculty Members Training
5 22/02/2019 & 23/02/2019 2 Days Practical Implementation of Python on Raspberry PI 20 M.Tech ES Students Workshop

 

Academic year : 2017-2018

S. No. Dates Duration Event Name No.of Participants Nature of the Program
1 29/07/2017 1 Day MATLAB Latest Toolboxes by Mathworks 30 Training
2 29/07/2017 1 Day IoT using Arduino 30 Workshop
3 18/08/2017 2 HOURS Getting Ready for The Future – The Road ahead 150+ Guest Lecture
4 22/09/2017 2 HOURS Introduction to Navigational Electronics and Surveillance 100 Guest Lecture
5 13/10/2017 &14/10/2017 2 Days Machine Learning 40 Workshop
6 06/11/2017 to 11/11/2017 6 Days Signal processing and communications with hands on using MATLAB. 45 Workshop
7 20/11/2017 to 25/11/2017 6 Days Digital system design using FPGA and Simulink 37 FDP
8 04/12/2017 to 05/12/2017 2 Days Unmanned Aerial Vehicle (UAV’s) 48 Workshop
9 7/12/2017 to 8/12/2017 2 Days Training on Cadence tools(Installation & Practice) 20 Training
10 12/1/2018 2 HOURS Internet of Things 40 Guest Lecture
11 19/01/2018 to 20/01/2018 2 Days Haptics Robotics by Robokart Company, Mumbai 30 Workshop
12 30/1/2018 to 31/1/2018 2 Days Hands On Embedded System Design using Arduino 105 Workshop
13 15/03/2018 to 16/03/2018 2 Days IoT Home Automation 30 Workshop
14 23/04/2018 to 25/04/2018 3 Days A Practical Approach of Signal Processing and Embedded System Design through LabVIEW 33 Workshop
15 11/06/2018 to 16/06/2018 6 Days Recent Advances in Radar Systems for Special Applications 40 Referesher Programme

 

 

Academic year : 2016-2017

 

S. No Dates Duration Event Name No.of Participants Nature of the Program
1 10/8/2016 2 Hours Design Aspects of Remote Sensing Earth Stations 100+ Guest Lecture
2 3/12/2016 2 HOURS Modulation, BER & Capacity 35 Guest Lecture
3 3/11/2016 2 HOURS Manipulation of Signals for Multidisciplinary Applications 100+ Guest Lecture
4 09/09/2016 to 10/09/2016 2 Days Ethical Hacking by e-Marshals 40 Workshop
5 15/11/2016 to 19/11/2016 5 Days VLSI and Embedded System design in communications 45 Workshop
6 21/12/2016 & 22/12/2016 2 Days Research Trends in Electronics and Communication Engineering 100 Workshop
7 2/4/2017 1 Day Embedded and Real time systems 45 Workshop
8 3/19/2017 1 Day Ethical Hacking by e-Marshals 30 Workshop
9 24/03/2017 2 HOURS Role of Satellites for Natural Resources Monitoring 100+ Guest Lecture
10 24/04/2017 to 27/04/2017 3 Days Communication, Signal & Image processing using MATLAB 50 FDP
11 05/06/2017 to 09/06/2017 5 Days Digital and Analog VLSI Design using CADENCE 32 Short Term Course
12 12/06/2017 to 14/06/2017 3 Days Microprocessors and Microcontrollers 42 Referesher Programme

 

Academic year : 2015-2016

S. No Dates Duration Event Name No.of Participants Nature of the Program
1 2/9/2015 2 HOURS Evolution and Future of Mobile Communications in India 120 Guest Lecture
2 4/11/2015 2 HOURS Cloud Security and IoT 100 Guest Lecture
3 31/07/2015 2 HOURS Internet of Things 100+ Guest Lecture
4 28/09/2015 2 HOURS Satellite and Remote Sensing 240 Guest Lecture
5 30/09/2015 1 Day Three Fundamental Robots 120 Workshop
6 08/10/2015 to 09/10/2015 2 Days Microcontrollers and Its Applications 35 Workshop
7 02/11/2015 to 04/11/2015 3 Days Two Day Short Term Course on Emerging Trends and Research Areas 45 Short Term Course
8 04/12/2015 to 05/12/2015 2 Days Two Day Short Term Course on Electromagnetic Fields and Transmission Lines 42 Short Term Course
9 21/12/2015 to 22/12/2015 2 Days Two day workshop on Research trends in ECE Workshop
10 19/01/2016 2 HOURS Basic Communications and satellite Concepts for Broad Caster 120 Guest Lecture
11 19/02/2016 1 Day PCB Fabrication 50 Workshop
12 15/03/2016 to 16/03/2016 2 Days Arduino Prototyping 80 Workshop
13 4/5/2016 2 HOURS Plagiarism 40 Guest Lecture
14 06/06/2016 to 10/06/2016 5 Days Faculty Development programme on Microprocessors and Microcontrollers 35 FDP
15 14/06/2016 1 Day Digital Design Through Arduino by G V V Sharma, IIIT Hyderabad 32 Workshop

 

Academic year : 2014-2015

S. No Dates Duration Event Name No.of Participants Nature of the Program
1 7th & 8th Oct, 2014 2 Days Workshop on “Distinguished Lectures on Initiation of Research Activities” 45 Workshop
2 10th-12th November, 2014 3 Days Three Day Training Program on Cadence Tools (Installation & Practice) 31 Workshop
3 14th &15th Feb, 2015 2 Days Workshop on Circuit Design & PCB Fabrication 89 Workshop
4 25th & 26th Feb, 2015 2 Days Aurdiono training 12 Workshop
5 21st, 22nd, 28th Feb, 1st &
7th Mar, 2015		 5 Days Workshop on advanced Digital Design 45 Workshop
6 6th & 7th March, 2015 2 Days Workshop on “Computer Vision :Industry-Institute Partnership Cell” 80 Workshop
7 23rd March 2015 2 Days BLOG BUZZ 150 Workshop
8 27th March 2015 1 Day CIENCIA 2K15 Robotics Workshop

 

 

M.Tech ES R18

ecedeptcvr

I Year I Semester
I Year II Semester
II Year I Semester
II Yr II semester

Regulation R18 : I Year I Semester

 

Course Outcomes of M Tech Embedded Systems – R18 Regulations
M Tech I Year I Semester
Course Code Course Title CO Number Course Outcome
73101 PROGRAMMING FOR EMBEDDED SYSTEMS CO1 Program 8051 based embedded system
CO2 Compare and select ARM processor core based SoC with several features peripherals based on requirements of embedded applications
CO3 Understand embedded C programming techniques
CO4 Develop small applications by utilizing the ARM processor core
CO5 Implement Different Microcontroller Interfaces
73102 OPERATING SYSTEMS FOR EMBEDDED DESIGN CO1 Evaluate the necessary modules for an operating system and implement in the program
CO2 Understand file system and customize the blocks desired for an embedded system
CO3 Inter-process communication problems will be solved and various algorithms will be
developed for synchronization
CO4 Understand and program scheduler for periodic and aperiodic task structure
CO5 Understand different RTOS in embedded systems
73103 EMBEDDED SYSTEM DESIGN CO1 Understand an embedded system and to know its applications
CO2 Learn the processing elements used in embedded systems
CO3 Understand embedded firmware
CO4 Knows the use of RTOS in embedded systems
CO5 Learn different task communication techniques in RTOS
73104 PYTHON PROGRAMMING
 CO1 Develop algorithmic solutions to real-world computational problems
CO2 Develop scripts for handling complex data
CO3 Utilize the standard library modules for various applications
CO4 Access databases and handle files through Python scripts and programs
CO5 Handle complex computations using Object-oriented Python
73105 VLSI TECHNOLOGY AND DESIGN
 CO1 Review FET fundamentals for VLSI design
CO2 Design, draw the layouts of all logic gates & various MOSFET‟s by using scalable design rules
CO3 Know the methods to find delays, power utilized by using different methods of testing
CO4 Design different memory cells & arrays, finding different faults by conducting different testing methods
CO5 Design the subsystems based on VLSI concepts
73106 WIRELESS COMMUNICATIONS
 CO1 Understand the fundamentals of mobile and cellular communications system design and cell capacity
CO2 Understand the large-scale path loss in mobile radio propagation
CO3 Model the fading effects in multi path environment
CO4 Understand different types of equalizers and diversity techniques
CO5 Analyze the performance of modulation techniques for mobile radio
73107 ADVANCED COMPUTER ARCHITECTURE
 CO1 Understand the fundamentals necessary for computer design
CO2 Learn the concept of instruction format and the classification with respect to instruction sets
CO3 Understand the concept of pipelining and to know the consequences of it on instruction set and performance
CO4 Know what is instruction level parallelism and to know its existence with respect to hardware and software
CO5 Understand the multiprocessors and interconnection networks
73108 CPLD AND FPGA ARCHITECTURES AND APPLICATIONS
 CO1 Understand the difference between FPGA and CPLD architectures
CO2 Understand all types FPGA interconnecting technologies
CO3 Know different FPGA vendors architecture and their applications
CO4 Develop the capability of logic expression using Anti fuse FPGA such as ACTEL FPGAs
CO5 Design Counters, Accumulators and other applications using FPGA technology
73109 IMAGE AND VIDEO PROCESSING
 CO1 Learn image representation, filtering, compression
CO2 Learn the basics of video processing, representation, motion estimation
CO3 Understand the representation of video
CO4 Understand the principles and methods of motion estimation
CO5 Understand the principles of 2-D Motion estimation in image processing
78101 RESEARCH METHODOLOGY AND IPR
 CO1 Understand research problem formulation and analyze research related information
CO2 Follow research ethics
CO3 Understand that today‟s world is controlled by Computer, Information Technology, but tomorrow world will be ruled by ideas, concept, and creativity
CO4 Understanding importance of intellectual property rights
CO5 Understand the importance of patent rights and developments in IPR
73131 EMBEDDED PROGRAMMING LAB
(Lab – I) 		CO1 Install, configure and utilize tool sets for developing applications based on ARM
processor core
CO2 Develop prototype codes using commonly available on and off chip peripherals on
the Cortex M3
CO3 Program for Interfacing different I/O devices with Embedded boards
CO4 Develop small applications by utilizing the ARM processor core
CO5 Understand IDE to development Embedded software
73132 OPERATING SYSTEMS LAB
(Lab – II) 		CO1 Do programming with linux editor and shell commands
CO2 Familiar of the embedded Linux development model
CO3 Write, debug, and profile applications and drivers in embedded Linux and RTOS
CO4 Understand and create Linux BSP and RTOS for a hardware platform
CO5 Understand General OS and RTOS programs

Regulation R18 : I Year II Semester

 

Course Outcomes of M Tech Embedded Systems – R18 Regulations
M Tech I Year II Semester
73201 SYSTEM ON CHIP ARCHITECTURES

 

 CO1 Design System on Chip different processors
CO2 Acquire knowledge of different internal bus architectures
CO3 Understand AES algorithm and JPEG compression implementation in SoC
CO4 know how the system forms with the lot of component and has majority about
system level interconnections
CO5 Introduce hardware and software programmability verses performance
73202 HARDWARE SOFTWARE CO-DESIGN
 CO1 Study the need of different target architectures and co-design to solve
engineering, communication and other problems
CO2 Analysis and extension of existing compilers and languages to system level co-
design models for creation and using of modern tools
CO3 Design mixed hardware-software systems and the design of hardware-software
interfaces
CO4 Focus on common underlying modeling concepts and the trade-offs between
hardware and software components
CO5 Learn about System –level specification, design representation for system level
synthesis, system level specification languages
73203 COMMUNICATION BUSES AND INTERFACES
 CO1 Select a particular serial bus suitable for a particular application
CO2 Develop APIs for configuration, reading and writing data onto serial bus
CO3 Design and develop peripherals that can be interfaced to desired serial bus
CO4 Understand wired and wireless communication protocols, its formats
CO5 Understand and gain knowledge on wireless sensors and its application in
wireless embedded networks
73204 BUILDING INTERNET OF THINGS
 CO1 Develop more understanding on the concepts of IOT and its present developments
CO2 Students will study about different IOT technologies
CO3 Acquire knowledge about different platforms and Infrastructure for IOT
CO4 Learn the art of implementing IOT for smart applications and control
CO5 Learn case studies in IoT
73205 RECONFIGURABLE COMPUTING
 CO1 Understand reconfigurable computing and its architectures
CO2 Understand FPGA design flow and high-level synthesis
CO3 Understand temporal placement and online communications between modules
CO4 Understand partial reconfiguration design and system on a programmable chip
CO5 Study applications of reconfigurable computing and to take up case studies
73206 DIGITAL SIGNAL PROCESSORS AND ARCHITECTURES
 CO1 Design, using Matlab-based filter design techniques, FIR and IIR digital filters
CO2 Program and debug real-time signal processing algorithms in assembly language
on a digital signal processor
CO3 Multidisciplinary teams, identify an useful DSP application, and then plan, design,
implement and verify for a digital signal processor
CO4 Give an over view of entire digital signal processing techniques i e convolution,
DFT, FFT, IIRFIR filters The fixed and floating-point representation, different
types of errors introduced during A-D and D-A converter stage
CO5 Introduce the DSP computational building blocks and special types of addressing
modes compared to normal microprocessor
73207 HUMAN COMPUTER INTERACTION
 CO1 Understand the guidelines influencing human computer interaction
CO2 Design an interactive web interface on the basis of models studied
CO3 Understand the structure of models of vision
CO4 Describe typical human–computer interaction (HCI) models
CO5 Analyze and identify stakeholder requirements of HCI systems
73208 DIGITAL SYSTEM DESIGN
 CO1 Minimize and design of the Finite state machines
CO2 Understand data path, control unit, micro-operation and building block of digital system
CO3 Understand the design of digital circuits using RAM, ROM and PLD
CO4 Apply test pattern for the detection of logical fault
CO5 Know the concepts of test generation for combinational and sequential circuits
73209 SOFTWARE DEFINED RADIO
 CO1 To learn the software radio and its importance
CO2 To understand the techniques to improve data conversion performance
CO3 To understand the difference between ideal and practical converters
CO4 To acquire the knowledge of digital hardware architectures and its development
methods
CO5 To understand the object-oriented representation for radios and the analysis of
various case studies
73231 PROGRAMMABLE SOC LAB
(Lab – III) 		CO1 Learn PSoC Programmer
CO2 Program first touch kit of PSoC
CO3 Program and Interface Analog and Digital I/Os
CO4 Understand the FPGA programming using Lab View software
CO5 Understand Xilinx design environment
73232 ADVANCED MICROCONTROLLERS LAB
(Lab – IV) 		CO1 Program Raspberry Pi 2 based embedded system
CO2 Perform Different Programs using Raspberry Pi 2
CO3 Understand embedded C programming techniques
CO4 Develop small applications by utilizing the beagle bone processor core
CO5 Implement Different Microcontroller Interfaces in UAVs

Regulation R18 : II Year I Semester

Course Outcomes of M Tech Embedded Systems – R18 Regulations  
M Tech II Year I Semester  
73301 MICROCONTROLLERS FOR EMBEDDED SYSTEMS
 CO1 Identify and understand the basics of different microcontrollers  
CO2 Identify and understand the basics of different microcontrollers  
CO3 Identify and understand the function of different blocks of PIC microcontroller  
CO4 Develop programs for PIC microcontroller using Assembly language  
CO5 Interface 7 segment LEDs, LCD, and Keyboard with PIC microcontroller  
73302 SOFT COMPUTING TECHNIQUES
 CO1 Implement genetic algorithm like tabu search and Ant-colony search techniques  
CO2 Have basic idea about Artificial Neural Networks  
CO3 Learn about Fuzzy Logic System in Artificial Neural Networks  
CO4 Implementation of Genetic Algorithm  
CO5 Students have basic idea about GA application to power system, MATLAB neural networks toolbox  
73303 SENSORS AND ACTUATORS
 CO1 Gain knowledge to interface various sensors and actuators in embedded applications  
CO2 Learn about sensor Principles, Classification, Parameters, Characteristics, Environmental Parameters (EP), and Characterization  
CO3 Know about different sensors like Thermal sensors, Magnetic sensors  
CO4 Know about Smart Sensors, Introduction, Primary Sensors, Excitation, Amplification, Filters, Converters, Compensation  
CO5 Information Coding/Processing, Data Communication, Standards for Smart Sensor Interface and the Automation  
78301 BUSINESS ANALYTICS
 CO1 Students will demonstrate knowledge of data analytics  
CO2 Students will demonstrate the ability of thinking critically in making decisions based on data and deep analytics  
CO3 Students will demonstrate the ability to use technical skills in business analytics and predictive analysis  
CO4 Student will be able to understand various forecasting and simulation models  
CO5 Students will demonstrate the ability to translate data into clear, actionable
insights and learn decisions strategies 		 
78302 INDUSTRIAL SAFETY
 CO1 After completion of course students will be able to analysis various industrial
hazards 		 
CO2 Students should able to implement maintenance tools and techniques in manufacturing industry  
CO3 Student will be able to use teratology concept in manufacturing industry  
CO4 Students will be able to diagnose industrial equipment‟s like air pump, compressors etc  
CO5 Students should able to design a preventive maintenance schedule for mechanical
components in manufacturing industry 		 
78303 OPERATIONS RESEARCH
 CO1 Students should able to apply the dynamic programming to solve problems of discreet and continuous variables  
CO2 Students should able to apply the concept of non-linear programming  
CO3 Students should able to carry out sensitivity analysis  
CO4 Student should able to model the real world problem and simulate it  
CO5 Students should able to solve the real time problem using Linear programming problem techniques  
78304 COST MANAGEMENT OF ENGINEERING PROJECTS
 CO1 Understand the parameters involved in the strategic cost management process  
CO2 Comprehend the technical and non-technical activities involved in the Project Management  
CO3 Understand the relation between project planning and cost analysis  
CO4 Understand different types of budgets and application in Civil Engineering projects  
CO5 Understand different costing methods and valuation techniques for different projects  
78305 COMPOSITE MATERIALS
 CO1 Students will demonstrate the knowledge of reinforcement, & composite performance  
CO2 Students will demonstrate the different fibers & mechanical behavior of composites  
CO3 Students will demonstrate the knowledge of manufacturing of various metal matrix composites  
CO4 Students will demonstrate the manufacturing of polymer matrix composites  
CO5 Students will demonstrate the knowledge of stress, maximum strain & failure criteria  
78306 ENERGY FROM WASTE
 CO1 Understand the types of various energy conversion units from waste  
CO2 Get the knowledge on the solid waste disposal techniques  
CO3 Understand the biochemical conversion of various residues  
CO4 Familiarize about the step by step process of Biogas Conversion  
CO5 Understand E-waste Management in India  
73304 Seminar on
Project Work 		CO1 Collection and review of research material from literature  
CO2 Analysis of concepts in multi-disciplinary research areas  
CO3 Preparation and presentation of technical topics with decent communication skills  
73305 Project Work
Phase – I 		CO1 Apply knowledge to propose solutions to the multi domain and real time systems  
CO2 Perform data collection, review research literature and project management  
CO3 Use modern EDA tools and research knowledge for developing cost effective systems  
CO4 Develop presentation and communication skills  

Regulation R18 : II Yr II semester

 

Course Outcomes of M Tech Embedded Systems – R18 Regulations
M Tech I Year I Semester
M Tech II Yr II semester
73401 Project Work Phase – II CO1 Apply knowledge to propose solutions to the multi domain and real time systems
CO2 Perform data collection, review research literature and project management
CO3 Use modern EDA tools and research knowledge for developing cost effective systems
CO4 Use modern EDA tools and research knowledge for developing cost effective systems


 

M.Tech ES R15

ecedeptcvr

I-I
I-II
II-I

Regulation R15 : I-I

Course Outcomes of M. Tech. Embedded Systems – R15 Regulations
M. Tech. I Year I Semester
Course Code Course Title CO Number Course Outcome
43101 Embedded Systems Design CO1 To compare Embedded system design models using different processor technologies (single-purpose, general-purpose, application specific processors)

 
CO2 To describe and compare the various types of peripherals used in embedded systems
CO3 To apply Embedded Firmware Design Approaches and Development methodologies
CO4 To use modern engineering tools necessary for integrating software and hardware components in embedded system designs
CO5 To understand the real time operating system concepts and inter process communication
43102 Embedded C CO1 To select a processor based microcontrollers on its architecture for any application of an embedded system
CO2 To understand the programming concepts for rabbit core embedded systems using dynamic
CO3 To Analyze the Programming concepts for larger application embedded projects
CO4 To compute the delays using timers and counters internally or externally in real time operating system embedded projects
CO5 To analyze the software development tools for an embedded systems
43103 Microcontrollers for Embedded System Design CO1 To acquire the knowledge of ARM processor architecture and various ARM Processor Families
CO2 To become competent in ARM Addressing Modes and Instruction set
CO3 To acquire skill in THUMB state and its instruction set
CO4 To write efficient code in high level language and Assembly language for ARM Processor core
CO5 To examine various cache memory technologies that surround
CO6 To acknowledge about various memory management units
43104 Sensors and Actuators
 CO1 To know the fundamental physical and technical base of sensors and actuators
CO2 To know the different types of sensors, and its parameters
CO3 To describe the basic laws and phenomena that define behavior of radiation and electronics surface analyze various premises, approaches, procedures and results related to sensors and actuators
CO4 To apply their knowledge on different applications of sensors
CO5 To understand the operations of different types actuators
45111 Advanced Computer Architecture
 CO1 To understand the design blocks in a computer system and memory modules
CO2 To analyze the performance of the RISC processors by pipelining approach
CO3 To execute the instructions in parallel by customizing and scheduling
CO4 To understand multi-processor architecture and its memory modules
CO5 To understand the interconnectivity between processors in a network
43105 CPLD and FPGA Architectures and Applications CO1 To understand the difference between FPGA and CPLD architectures
CO2 To understand all types FPGA interconnecting technologies
CO3 To know different FPGA vendors architecture and their applications
CO4 To develop the capability of logic expression using Anti fuse FPGA such as ACTEL FPGAs
CO5 To design, Counters, Accumulators, other applications using FPGA technology
45103 Advanced Operating Systems
 CO1 To evaluate the necessary modules for an operating system and implement in the program
CO2 To understand file system and customize the blocks desired for an embedded system
CO3 Inter-process communication problems will be solved and various algorithms will be developed for synchronization, scheduling and memory management issues
CO4 Requirement of high-end systems which are multicore will be deployed to enhance the features and evaluate
CO5 Protocols and Techniques are used to communicate between multiple workstations
43106 Simulation and Modeling System
 CO1 To understand the basic simulation and modeling methods
CO2 To study the statistical properties of generator
CO3 To understand the different random processes
CO4 To know the optimization techniques on system
CO5 To develop software simulation and building simulation models on systems
43107 VLSI Technology and Design CO1 Knowing the basic concepts liking sizing threshold voltages in different MOS circuits
CO2 Designing/Drawing the layouts of all logic gates & various MOSFET’s by using scalable design rules
CO3 Knowing the methods to find delays, power utilized by using different methods of testing
CO4 Designing different memory cells & arrays finding different faults by conducting different testing methods
CO5 Analysis & procedure of back end process in FPGA & ASIC field
48101 Innovation and Entrepreneurship
 CO1 Apply innovative tools for entrepreneurship
CO2 Apply models and theories of entrepreneurship and innovation to real life examples at the individual, organizational and institutional levels
CO3 Assess and evaluate new venture opportunities, conceptually and through the preparation of an opportunity assessment.
CO4 Develop a comprehensive and well structured business plan for a new venture
CO5 Demonstrate the documentation process for starting an enterprise
48102 Project Management
 CO1 Students gain the knowledge in project management tools and techniques for successful planning and execution of Projects.
CO2 Equipped with the ability to explore the new project proposals and assessing the potential risks and profitability associated with the proposals
48103 Fundamentals of Marketing CO1 Demonstrate a broad understanding of the major conceptual and theoretical principles upon which the practice of marketing is based.
CO2 Demonstrate a general understanding of marketing management tasks and of how marketing fits into the organisational environment and interacts with diverse environments
CO3 Identify and evaluate secondary research from a variety of sources. As a reflective and critical thinker, use this research information to apply marketing concepts and principles to propose ethical, creative solutions to a range of marketing related problems that arise in business contexts
CO4 Appropriately communicate marketing ideas in written and oral form. This includes presentations, case studies, and reports using reference materials
43131 Embedded Systems Lab – I CO1 To get the knowledge about the concepts and methods of embedded system software programmes using embedded C language.
CO2 To analyze the results of timers and timing simulations and to use these simulation results to debug on 8051.
CO3 Students will have the knowledge through hands-on experimentation the Keil tools for 8051 design as well as the basics of interfaces, simulate and implement the embedded systems.
CO4 To Develop the RTOS based programmes on 8051 microcontroller board.
CO5 To analyze the Concepts of external interfaces with 8051 microcontroller board.
43132 Seminar I CO1 Collection and review of research material from literature
CO2 Analysis of concepts in multi-disciplinary research areas
CO3 Preparation and presentation of technical topics with decent communication skills

Regulation R15 : I-II

Course Outcomes of M. Tech. Embedded Systems – R15 Regulations
M. Tech. I Year II Semester
Course Code Course Title CO Number Course Outcome
43201 Embedded Real Time Operating Systems CO1 To understand Embedded Real Time software that is needed to run embedded systems
CO2 To understand open source RTOS and their usage
CO3 To be Able to visualize various subsystem modules that can be built using RTOS system calls
CO4 To understand how to build a system with Universal I/O Calls and other System Calls
CO5 To understand how to configure kernel and RTOS Subsystem
43202 Hardware/Soft ware Co-Design CO1 To understand co-design models to design different architectures by using co-design languages
CO2 To aware of various prototyping devices and target architectures
CO3 To understand the design modern embedded compilation tools
CO4 To differentiate the co-design verification at different stages of co-design methodology
CO5 To develop co-design systems using multi-language system level specifications
43203 Digital Signal Processors and Architectures CO1 To demonstrate sufficient understanding of theory of digital signal processing and architectures
CO2 To deliver different basic blocks of DSP architecturesignal processing and architectures
CO3 To Present the architectural features of TMS320C54xx series DSP system
CO4 To know the DSP architectures from different vendors including 2100, 2181, blackfin processors
CO5 To understand the interfacing techniques to memory, I/Os, ADCs, DACs
43204 Network security and Cryptography
 CO1 To use different cryptography algorithms in embedded system applications
CO2 To differentiate about IP security and web security
CO3 To get knowledge on Number Theory
CO4 To learn about Hash and Mac Algorithms and Authentication Applications
CO5 To learn about viruses, intruders and worms
43205 System on Chip Architecture

 

 CO1 To understanding the basic level of system on chip processor architectures
CO2 To designing of various processors by using Parallel Techniques
CO3 To exploring different types of memory architectures & their internal structures
CO4 To design of Bus architectures by using peripheral specifications
CO5 To various Encryption Algorithms for DSP processors
43206 Wireless Communications and Networks CO1 To understand the fundamentals of mobile and cellular communications, system design and cell capacity
CO2 To understand the large scale path loss in mobile radio propagation
CO3 To model the fading effects in multi path environment
CO4 To understand different types of Equalizers and diversity techniques
CO5 To acquire knowledge on Wireless LAN concepts
43207
 Embedded Networking
 CO1 To design embedded system with use of serial and parallel communication protocols.
CO2 To get important knowledge on Application Development using USB and CAN bus for PIC micro controllers
CO3 To design Application development embedded systems using embedded Ethernet Rabbit Processors
CO4 To Characterize and analyze the properties of internet based application protocols in embedded systems
CO5 To get important knowledge on wireless sensor networking communication protolcols
43208
 Soft Computing Techniques CO1 To implement genetic algorithm like Tabu search and Ant-colony search techniques
CO2 To get basic idea about GA application to power system, MATLAB, neural networks toolbox
CO3 To analyze the different algorithms in Fuzzy Logic system
CO4 To solve the different problems in genetic algorithms using MATLAB
CO5 To implement the different applications in neural networks
43209 Multimedia and signal coding
 CO1 To understand the acquisition and format of image and video signals
CO2 To have some knowledge about digitization of sound, quantization and transmission of audio
CO3 To use video and audio signals in embedded system design.
CO4 To familiarize the Video Compression Techniques
CO5 To get knowledge on the Audio Compression Techniques
48201 Fundamentals of Technology Management CO1 Have firm understanding of the importance of managing technology in addition to working with or working on technology.
CO2 Know future avenues of business management and the role of technology management in enterprises.
CO3 Equip themselves with rudiments of tools for technology management in Industry and Organizations.
42204 Energy Audit and Management CO1 Students will be able to know about auditing of various energy sources.
CO2 Students will able to apply the acquired knowledge in real life
CO3 Students will be able to perform various managerial functions in their organizations.
CO4 Students will able to use various auditing instruments in their energy audit management
CO5 Students will able to know and implement various energy saving procedures.
45211 Big Data Analytics CO1 Define and examine Big data and its evolution, Various kinds of data and systems for handling the data.
CO2 Explain Big data management using the systems such as Hadoop
CO3 Demonstrate application of MapReduce paradigm for solving big data problems such as word count.
CO4 Articulate NoSQL databases and their underlying structures with suitable examples
CO5 Describe social media and mobile analytics and state tools for such analysis
    CO1 Students will have knowledge about the concepts and methods of embedded system software programmes using embedded C language
43231 Embedded Systems Lab – II CO2 To analyze the results of timers and timing simulations and to use these simulation results to debug on LPC2148 Microcontroller board
    CO3 Students will have the knowledge through hands-on experimentation the Keil tools for LPC2148 design as well as the basics of interfaces, simulate and implement the embedded systems
    CO4 To Develop the RTOS based programmes on LPC2148 microcontroller board
    CO5 To analyze the Concepts of external interfaces with LPC2148 microcontroller board
43232 Seminar II CO1 Collection and review of research material from literature
CO2 Analysis of concepts in multi-disciplinary research areas
CO3 Preparation and presentation of technical topics with decent communication skills

Regulation R15 : II-I

Course Outcomes of M. Tech. Embedded Systems – R15 Regulations
M. Tech. II Year I Semester
Course Code Course Title CO Number Course Outcome
43301 Comprehensive Viva-Voce CO1 Understand subject knowledge in the field of Analog VLSI Design along with the applications
CO2 Understand subject knowledge in the field of Digital VLSI Design along with the applications
CO3 Understand subject knowledge in the field of Mixed Signal VLSI Design along with the applications
43302 Project work Review- 1 CO1 Apply knowledge to propose solutions to the multi domain and real time systems
CO2 Perform data collection, review research literature and project management
CO3 Use modern EDA tools and research knowledge for developing cost effective systems
CO4 Develop presentation and communication skills


 

B.Tech R15

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Course Title Course Outcomes Course Outcome Description
I B.Tech-I Sem
English
 CO1 Write coherent, unified and complete sentences.
CO2 Identify word meaning and know the vocabulary from stories
CO3 Deduce meaning and know the use of familiar lexical items.
CO4 Understand explicit and implicit information and read and comprehend a given text.
CO5 understand how to write professional letters
Mathematics-I CO1 Understand, model and solve linear differential equations by various methods
CO2 Understand the solutions of higher order differential equations and applications
CO3 Solve problems on function optimization with and without constraints using several theorems
CO4 Gain the knowledge of multiple integrals in solving problems
CO5 Apply the knowledge of differentaition and integration in solving problemsof vector fields
Applied Physics CO1 Get familiarized with crystallographic terminology, crystal structures and understand the fundamentals of statistical mechanics.
CO2 Learn basic concepts of quantum mechanics leading to an understanding of band theory of solids.
CO3 Would develop an understanding of physics of semiconductors, working and characteristics of different types of diodes.
CO4 Gain knowledge of behavior of magnetic and dielectric materials. Also learn basics of nanotechnology involving synthesis and characterization.
CO5 Learn concepts involving physics of lasers and propagation of light through optical fibers.
Problem solving through ‘C’ CO1 Understand programming concepts and analyze a problem, design a solution and develop an algorithm to solve it.
CO2 Modularize a problem and implement the solution using basic programming concepts, control statements and functions.
CO3 Evaluate the use of macros and implement solutions to complex problems using recursion and homogeneous data types.
CO4 Represent data in arrays and pointers, pointers for problems of relevance and use different dynamic memory allocation methods
CO5 Represent data in strings and manipulate them through a program
     
Engineering Drawing CO1 To know the standard practices of Engineering Drawing in Geometrical constructions, Scales, Conic curves (Ellipse, Parabola, Hyperbola) , cycloidal curves.
CO2 Able to draw the Projections of Points, Lines, Planes and Solids.
CO3 Able to draw the Section of Solids, Development of Surfaces.
CO4 Able to draw the Orthographic Projections of different types of Solids.
CO5 Able to draw the Isometric views of Planes, solids etc. and Conversions of Orthographic Projections to isometric Projections.
English Language and Communication Skills lab-1 CO1 Emerge as good speakers and listeners
CO2 Develop critical and analytical thinking
CO3 Develop proficiency in speaking
CO4 To read extensively and to develop good writing styles effectively
CO5 Deliver effective presentation skills using the multimedia tools
Applied Physics Lab CO1 Understanding of errors and their role in physical measurements.
CO2 Develop skills in handling various kinds of laboratory instruments.
CO3 Get awareness of magnitudes of the physical quantities involved.
CO4 Understand the laws of physics associate with the experiments
CO5 Get an understanding of the physical concepts involved and learn how to present the observations and results at the end of an experiment.
Computer Programming Lab CO1 Familiarity of programming environment in particular operating system and to translate given algorithms to a working and correct program
CO2 To interpret syntax errors as reported by the compilers and to able to identify and correct logical errors encountered at run time using debuggers like GDM
CO3 To write iterative as well as recursive programs
CO4 To represent data in arrays, pointers, strings and structures and manipulate them through a program and use them in defining self referential structures designing a user defined data type
CO5 To implement file processing functions and be able to store, retieve and process data in text and binary formats
Engineering Workshop Lab CO1 Acquire skills of basic engineering trades like Carpentry, Tinsmithy etc.,
CO2 Demonstrate an understanding of and comply with workshop safety regulations.
CO3 Identify and use marking out tools, hand tools, measuring equipment and to work to prescribed tolerances.
CO4 Apply the knowledge of the above trades in their day to day activities.
CO5 Select appropriate equipment and consumables for required applications
I B.Tech-II Sem
Mathematics – II CO1 Find rank of matrix and solve a linear system of equations and evaluate eigen values and eigen vectors
CO2 Learn diagonalisation and classify quadratic forms into definite and indefinite classes.
CO3 Develop the skill of evaluating Laplace and inverse Laplace transform which are required to solve linear systems under initial conditions
CO4 Express a given function into a Fourier series/ Half-Range Fourier cosine and sine series.
CO5 Solve linear and non-linear P.D.E of first order and solve P.D.E by the method of separation of variables.
Computational Mathematics CO1 Find the real roots of Algebraic and Tanscendental equations
CO2 Understand the solutions for linear systems of equations
CO3 Understand Interpolation and obtain approximate solutions for evenly and unevenly spaced data
CO4 Fit a given data to a linear and non linear curve and appreciate the concepts of numerical differentiation and integration
CO5 Develop the skill of finding approximate solutions to problems arising in first order intitial value problems in differential equations
Engineering Chemistry CO1 Understand the importance of different types of portable energy sources, their limitations and to control the corrosion of metals and alloys.
CO2 Attain the knowledge of water and its treatment in industries and for domestic purpose.
CO3 Able to handle real time situations related to fuel energy sources.
CO4 Acquire knowledge of principles involved in phase rules and surface chemistry with respect to absorption and colloids
CO5 Attain the knowledge about polymerisation mechanisms and mechanisms of lubricants
Data Structures through ‘C’ CO1 Represent the real world data objects through arrays and structures and handle self referential structures.
CO2 Understand how to give persistance to data either in a recod form or in a text form and able to manipulate the same
CO3 Implement linear data structures like Stacks and understand the applications of stacks
CO4 Implement linear data structures like Queues and understand the non linear data structures
CO5 Understand and implement searching and sorting techniques
Electrical Circuits CO1 Understand the basic concepts of electrical parameters, responses of various electrical elements for non-sinusoidal signals and use analytical techniques to solve resistive circuits energized by direct current voltage and current sources.
CO2 Understand the concept of magnetic circuits and able to solve problems related to coupled circuits.
CO3 Define various terms related to alternating circuits which are used for all household appliances and understand the concept of impedance, power in AC circuits and understand the concept of resonance and able to plot locus diagrams.
CO4 Understand the concept of network topology and can solve the complex circuits using graph theory.
CO5 Solve complex circuits by applying different theorems with DC & AC excitation
English Language and Communication Skills Lab-II CO1 Evolve as effective and autonomous communicators and will develop narrative skills
CO2 Emerge as decision makers and autonomous learners
CO3 Develop critical and analytical skills
CO4 Gather ideas and information and organize them coherently
CO5 Develop leadership and team building skills
     
Computational Mathematics Lab CO1 Write a program to find real roots of algebraic and tanscendental equations
CO2 Write a program to determine functional value at any given intermediate point of the given data for an unknown function by interpolation
CO3 Write a program for a best fit curve by least squares method for a given set of data points
CO4 Write a program for numerical integration by Trapezoidal, Simpson’s 1/3 and 3/8 rules
CO5 Write a program to find the value of the solution of a given first order initial value problem of O. D.E
     
Engineering Chemistry Lab CO1 Understand various principles involved in experimental techniques involved in engineering chemistry.
CO2 Students get hands-on experience with the different instruments and develop experimental skills.
CO3 Students learn how to prepare organic compounds.
CO4 Understand the basic concepts of kinetics
CO5 Students develop analytical skills and learn how to analyze and present results of an experiment
Data Structures through ‘C’ Lab CO1 Understand basic data structures such as arrays, linked lists, stacks and queues
CO2 Interpret syntax errors and logical errors as reported by the compilers
CO3 Apply algorithm for solving problems like sorting, searching insertion and deletion of data
CO4 Solve problems involving graphs, trees, and heaps
CO5 Apply hashing techniques for eeicient storage and retrieval of data
IT Workshop Lab CO1 Identify the peripherals of PC, assemble and disassemble PC components.
CO2 Install the System software MS Windows, Linux and required device drivers.
CO3 Work with productivity tools for Word Processing, Spread Sheet and Presentations.
CO4 Design basic Web Pages
CO5 Design Web forms or bio- data forms and including of elements
II B. Tech-I SEM
Mathematics-III CO1 Understand the concepts of analyticity and integration of complex functions, construction of analytic functions if a part of it is known.
CO2 Evaluate line integrals using Cauchy’s Integral formulae.
CO3 Find the Taylor’s and Laurent’s series expansion of complex functions.
CO4 Evaluate contour integrals of different types using Residue theorem.
CO5 Appreciate the concepts of Conformal mappings and Bilinear transformations of complex functions.
Electronic Devices & Circuits CO1 To analyze diode parameters.
CO2 To analyze and design different rectifier circuits.
CO3 To comprehend different transistor configurations and biasing techniques.
CO4 To analyze different small signal amplifiers at low frequency.
CO5 To gain familiarity of the devices FET, MOSFET, UJT, SCR and their characteristics
Signals & Systems CO1 To characterize and analyze the properties of continuous time and discrete-time signals and systems.
CO2 To apply the knowledge of linear algebra topics like vector space, basis, dimension, inner product, norm and orthogonal basis to signals
CO3 To represent continuous signals and systems in the frequency domain using Fourier series and Fourier Transform.
CO4 To compute convolution, correlation functions and spectral densities of deterministic signals.
CO5 To apply the Laplace Transform and Z- Transform for analyzing continuous-time and discrete-time signals and systems.
Principles of Electrical Engineering CO1 To solve real time electrical and electronic problems
CO2 To design and analyze electrical circuits and interpret data related to electrical systems
CO3 To implement the concepts in electrical applications
CO4 To analyze the constructional features, principle of operation and the significance of DC motors and generators and their characteristics.
CO5 To test transformer on no-load and loading conditions and calculate of efficiency and regulation of transformer.
Probability Theory & Stochastic Processes CO1 To perceive the various probability concepts, principles of random variables and random processes.
CO2 To apply the concepts of random processes to communication systems
CO3 To evaluate the temporal and spectral characteristics of random processes.
CO4 To characterize power spectrum densities and their relationship with other properties of random processes.
CO5 To analyze the performance of communication systems with random inputs.
Environmental Studies CO1 To develop awareness about the hazards to environment.
CO2 To develop awareness about optimum utilization of natural resources.
CO3 To learn about GREEN TECHNOLOGIES to maintain sustainable development.
Electronic Devices & Circuits Lab CO1 To analyze diode, transistor and FET parameters.
CO2 To design different rectifier circuits.
CO3 To analyze small signal amplifiers at low frequencies.
Basic Simulation lab CO1 To simulate generation and operation of different types of signals and systems.
CO2 To apply transform techniques for analysis of signals
CO3 To simulate convolution, correlation and spectral densities of deterministic signals.
CO4 To simulate response of LTI system for various input signals.
CO5 To determine the stability of the systems using pole-zero plots in s-domain and z-domain using simulation
Reasoning &Data Interpretation Lab CO1 Understand the concepts of Statement-Argument, Assumption and Course of Action and use reasoning as a tool to match statements with arguments etc.
CO2 Look at data and find links and patterns, link data with conclusions and study data logically.
CO3 Study problem situations and use reasoning as a tool to find solutions
CO4 Nurture the ability to use reasoning as a skill in real time problems solving.
CO5 Analyze and infer the data with respect to trend and case based.
II B. Tech-II SEM
Electronic Circuit Analysis CO1 To analyze single stage and multistage amplifiers using BJT and FET.
CO2 To design amplifiers using feedback techniques
CO3 To design and analyze oscillators
CO4 To design and analyze power amplifiers
CO5 To design and analyze tuned amplifiers
Analog Communication CO1 To perceive various analog modulation and demodulation techniques.
CO2 To design different methods for generating AM and FM signals.
CO3 To analyze the effect of noise on different types of analog communication systems.
CO4 To design radio communication systems
CO5 To acquire knowledge about multiplexing and pulse modulation
Electromagnetic Theory And Transmission Lines CO1 To solve electrostatic problems.
CO2 To solve magneto static problems.
CO3 To apply Maxwell’s equations to solve electromagnetic problems.
CO4 To analyze the behavior of uniform plane wave propagation in various media and at the boundaries of different media.
CO5 To analyze and design transmission lines for various applications through calculations and Smith chart.
Logic& Switching Theory CO1 To convert one number system into another, detect and correct errors.
CO2 To optimize Boolean functions and design various combinational logic circuits.
CO3 To analyze and design various synchronous sequential logic circuits
CO4 To synthesize asynchronous circuits
CO5 To implement logic functions using PLDs
Pulse & Digital Circuits CO1 To design linear wave shaping circuits like high pass and low pass RC circuits for various input signals.
CO2 To design non linear wave shaping circuits like clippers and clampers
CO3 To construct various logic gates using different logic families and compare their performances
CO4 To generate various non sinusoidal signals using different multi vibrators for various electronic applications.
CO5 To design time base generator circuits which are used in applications such as CRO and TV
Electronic Circuits Analysis lab CO1 To use simulation software and hardware effectively in designing single stage and multistage amplifiers.
CO2 To use simulation software and hardware effectively in designing oscillators and feedback amplifiers.
     
Pulse & Digital Circuits lab CO1 To design different RC Circuits.
CO2 To design different clipping and clamping circuits.
CO3 To model different logic gates and flip-flops.
CO4 To develop different types of multi vibrators circuits.
CO5 To realize relaxation oscillator using UJT.
Electrical Engineering lab CO1 Do simplification and Verification of theorems like superposition, thevenin’s and maximum power transfer etc.
CO2 Understand practical verification of two port network parameters.
CO3 Understand concept of series and parallel resonance circuits.
CO4 Analyze Magnetization characteristics of DC shunt generator.
CO5 Conduct experiments like Swinburne’s test and Break test on DC shunt motor and also analyze performance characteristics.
Verbal Ability Lab CO1 Students will develop familiarity with Corporate English.
CO2 Students will have enriched vocabulary
CO3 Students will develop the ability to write grammatically correct sentences and enhance their professional writing skills
CO4 Students will be proficient in answering reasoning based questions
III B. Tech-I SEM
IC Applications CO1 Design the linear and non-linear applications of an op-amp
CO2 Design filters, oscillators, timer circuits
CO3 Classify and comprehend the working principle of dataconverters
CO4 Design combinational circuits using digital ICs.
CO5 Design sequential circuits using digital ICs
Antennas & Wave Propagation CO1 Understand the principles of radiation and the antennaparameters 
CO2 Design and analyze thin linear wire antennas
CO3 Design antenna arrays for desired antenna characteristics
CO4 Design VHF, UHF and microwave antennas such as helical, reflector, lens and microstrip antennas
CO5 Understand the antenna measurement techniques
Digital Communications CO1 Learn the elements of digital communications system and different types of quantization techniques
CO2 Understand the different types of digital modulation and demodulation techniques
CO3 Calculate the probability error for various digital modulation techniques in the presence of noise
CO4 Estimate the channel capacity and improve the performance using error correcting codes
CO5 Study the different types of spread spectrum techniques
Computer Architecture And Organization CO1 Understand the major components of computer system including CPU, memory and I/O
CO2 Familiar with data representation, addressing modes and instruction set of a computer
CO3 Perform computer arithmetic operations and understand the control unit operations
CO4 Understand the organization of memory and memory management hardware
CO5 Understand the concepts of pipelining and I/O organization
IC Applications lab CO1 Design different operations using IC 741 OP-AMP
CO2 Design different circuits using IC 555 Timer
CO3 Verify the truth tables of IC 74LS73 and IC 74LS74 and to design sequential circuits
CO4 Verify the truth tables of 4-bit comparator IC 74LS85 and to design higher bit comparator
CO5 Verify the truth tables of 3 to 8 decoder IC 74LS138, 74LS151 multiplexer and 155 de-multiplexer etc. and design different combinational circuits
Analog Communications lab CO1 Implement and analyze different analog communication systems
CO2 Understand the significance of sampling theorem
CO3 Understand the multiplexing concepts
Digital Communications lab
 CO1 Implement and analyze basic digital communication systems
CO2 Calculate the bit error rate for different digital modulation schemes
CO3 Verify and simulate the coding technique in digital modulation schemes
   
   
Effective Technical Communication Lab
Effective Technical Communication Lab
 CO1 Attain proficiency in technical writing
CO2 Use english language appropriately to write effective reports, notes and summaries
CO3 Write emails suitable for professional communication
CO4 Develop analytical and critical thinking skills
   
III-II SEM
Digital Signal Processing CO1 Understand the various operations on discrete time signals & systems
CO2 Apply DFT and FFT on discrete time signals
CO3 Analyze and design an IIR digital filters
CO4 Analyze and design FIR digital filters
CO5 Understand the concept of multirate signal processing and its applications
   
Microprocessors& Microcontrollers CO1 Write assembly language programs for different application using assembler
CO2 Interface the processor with different peripheral devices
CO3 Understand the architectural difference between the processor and controller
CO4 Describe the instruction set and addressing modes of 8086 and 8051
CO5 Understand the real time applications of timers and serial communication of 8051
Linear Control Systems CO1 Understand concept of control systems and different methods to find transfer function of a system
CO2 Understand system transient, steady state response and their specifications
CO3 Analyze the system stability time domain and frequency domain
CO4 Design controller units and compensators
CO5 Analyze system considering initial conditions
DIGITAL MODELING USING VERILOG CO1 Understand the capabilities of HDLs and learn Verilog constructs
CO2 Differentiate and write circuit descriptions in switch level, gate level and data flow modeling styles
CO3 Describe algorithms using behavioral modeling with various constructs
CO4 Use compiler directives and to describe sequential circuits using different types of models
CO5 Verify the functionality of combinational and sequential circuits
Telecommunication Switching Systems & Networks CO1 Understand the working principle of switching systems involved in telecommunication switching and design multi stage switching structures involving time and space switching stages
CO2 Analyze different signaling techniques and networks, charging and routing plans
CO3 Understand effectively the communication principles to design, develop and implement data communication networks
CO4 Enumerate the layers of the OSI and TCP/IP model and identify the different types of network devices and their functions
Wireless
Communication
 CO1 Understand the fundamentals of mobile and cellular communications, system design and cell capacity
CO2 Understand the large scale path loss & small scale path fading in mobile radio propagation
CO3 Acquire knowledge on multiple access techniques
CO4 Understand different types of equalizers and diversity techniques
CO5 Acquire knowledge on GSM, Wireless LAN and PAN concepts
Microprocessors & Microcontrollers lab CO1 Write assembly language programs for different application using assembler
CO2 Interface the processor with different peripheral devices
CO3 Understand the architectural difference between the processor and controller
CO4 Describe the instruction set and addressing modes of 8086 and 8051
CO5 Understand the real time applications of timers and serial communication of 8051
Digital Signal Processing lab CO1 Carry out simulation of DSP systems
CO2 Demonstrate the applications of FFT to DSP
CO3 Design IIR and FIR digital filters
CO4 Implement multi-rate signal processing systems
CO5 Implement DSP systems using DSP processor
Advanced English Communication & soft skills lab CO1 Evolve as effective communicators.
CO2 Emerge as decision makers, time managers and good negotiators
CO3 Develop holistic soft skills
CO4 Develop critical and analytical skills.
CO5 Present their skills confidently in the job market.
   
Quantitative ability lab CO1 Solve the problems using arithmetic, mensuration, geometry, averages & clocks & calendars questions
CO2 Practice general problems in Placement, CAT and GRE etc. tests
   
   
   
   
IV-I SEM
Microwave Engineering CO1 Analyze the characteristics of a rectangular waveguides and its coupling mechanisms
CO2 Design waveguide components and analyze using S matrix
CO3 Analyze different types of microwave tubes and solid state devices
CO4 Design and analyze horn antennas
CO5 Understand the microwave measurement techniques using microwave bench set up
MANAGERIAL ECONOMICS AND FINANCIAL ANALYSIS CO1 Capable of analyzing fundamentals of economics such as demand, production, price, supply concepts etc., which helps in effective business administration
CO2 Analyze economies of scale and the Break-Even Point
CO3 Able to determine the Price-Output Relationship in different market Structures
CO4 Analyze how to invest adequate amount of capital in order to get maximum return
CO5 from selected business activity
VLSI Design CO1 Familiarize with the basics of MOSFET and different IC fabrication technologies
CO2 Analyze and design various CMOS combinational and sequential circuits
CO3 Develop layouts for NMOS, CMOS logic circuits
CO4 Design different technologies and programmable logic devices
CO5 Understand the need for testing and design for testability
CPLD and FPGA architecture and Applications CO1 Understand the difference between FPGA and CPLD architectures
CO2 Understand all types of FPGA interconnecting technologies
CO3 Know different FPGA vendors architecture and their applications
CO4 Develop the capability of logic expression using anti fuse FPGA such as ACTEL FPGAs
CO5 Develop digital design applications using CPLD & FPGA
EMBEDDED C CO1 Select a processor or microcontrollers based on its architecture for different applications
CO2 Program rabbit core embedded systems
CO3 Compute the delays using timers and counters internally or externally in embedded real time operating system
CO4 Program for different embedded projects
CO5 Develop the software development tools for embedded systems
COMMUNICATION NETWORKS CO1 Distinguish among the different types and uses of communication networks in various fields
CO2 Learn integration of different networks in telecommunication
CO3 Implement security measures for electronic mail, web browsing, and instant messaging
CO4 Understand the working principle of switching systems involved in telecommunication switching
CO5  
RADAR SYSTEMS CO1 Understand the basic principles of how a Radar system works
CO2 Identify the various Radar systems in existence, specify their applications and limitations and explain the principles of how they work
CO3 Describe the most commonly used techniques in processing Radar signals
CO4 Understanding the concepts of different Radar receivers
CO5 Study of different filter characteristics used in Radar
DIGITAL SYSTEM DESIGN AND TESTING CO1 CO 1 : Design data path circuits
CO2 CO 2 : Develop controller logic
CO3 CO 3 : Represent control circuits in-terms of state graphs
CO4 CO 4 : Distinguish different fault models
CO5 CO 5 : Diagnose faults in combinational and sequential circuits
EMBEDDED SYSTEMS DESIGN CO1 CO 1 : Understand an embedded system and to know its applications
CO2 CO 2 : Learn the processing elements used in embedded systems
CO3 CO 3 : Understand different embedded application and domain specific systems
CO4 CO 4 : Learn hardware software development to design embedded systems
CO5 CO 5 : Familiarize with embedded system examples
SATELLITE COMMUNICATIONS CO1 CO 1 : Analyze the basic concepts of satellite communication, orbital mechanics and launching
CO2 CO 2 : Analyze the satellite subsystems and satellite link design
CO3 CO 3 : Analyze different multiple access schemes
CO4 CO 4 : Design the earth station and different satellite systems
CO5 CO 5 : Understand the principle of GPS
DIGITAL IMAGE PROCESSING CO1 CO 1 : Understand the basic concepts of two-dimensional signal acquisition, sampling, and quantization
CO2 CO 2 : Understand the spatial filtering techniques, including linear and nonlinear methods
CO3 CO 3 : Gain the concepts of 2D Fourier transform, including the 2D DFT and FFT, andtheir use in frequency domain filtering
CO4 CO 4 : Acquire the knowledge of the fundamental image enhancement algorithms suchas histogram modification, contrast manipulation, and edge detection
CO5 CO 5 : Demonstrate programming skills in digital image processing related problems
SYSTEM ON CHIP ARCHITECTURE CO1 CO 1 : Understand the basic level of system on chip processor and architectures
CO2 CO 2 : Design various processors by using parallel techniques
CO3 CO 3 : Explore different types of memory architectures and their internal structures
CO4 CO 4 : Design bus architectures by using peripheral specifications
CO5 CO 5 : Design various encryption algorithms for DSP processors
EMBEDDED REAL TIME OPERATING SYSTEMS CO1 CO 1 : Design embedded real time software that is needed to run embedded systems
CO2 CO 2 : Implement objects of kernel in embedded systems applications
CO3 CO 3 : Program for interrupts and exceptions in RTOS
CO4 CO 4 : Differentiate architectures of different RTOS
CO5 CO 5 : Design an embedded system using RTOS
ADHOC AND WIRELESS SENSOR NETWORKS CO1 CO 1 : Understand the principles of mobile adhoc networks (MANETs) and distinguishthem from infrastructure-based networks
CO2 CO 2 : Understand various MAC and routing protocols functioning and their implications
CO3 CO 3 : Classify various protocols for providing quality of service
CO4 CO 4 : Understand the principles and characteristics of wireless sensor networks (WSNs)
CO5  
MULTIRATE SIGNAL PROCESSING CO1 CO 1 : Understand noble identities in multirate system
CO2 CO 2 : Realize structures for decimation and interpolation filters in polyphaserepresentation
CO3 CO 3 : Design perfect reconstruction filter bank systems
CO4 CO 4 : Learn the design procedures for cosine modulated filter banks
CO5 CO 5 : Familarize applications of multirate systems
VLSI DESIGN LAB CO1 CO 1 : Design digital circuits in different styles using Verilog HDL
CO2 CO 2 : Verify the digital designs using test benches
CO3 CO 3 : Impart the designs on FPGA
CO4 CO 4 : Design and analyze analog and digital circuits
CO5 CO 5 : Develop layouts for integrated circuits and analyze the performance
MICROWAVE ENGINEERING LAB CO1 CO 1 : Measure attenuation, VSWR, scattering parameters of microwave components
CO2 CO 2 : Fabricate microstrip elements and test using VNA
CO3 CO 3 : Perform antenna measurements
CO4 CO 4 : Understand the characteristics of the Reflex Klystron and Gunn diode
CO5  
Industry Oriented Mini Project CO1 C01: To offer students a glimpse into real world problems and Industrial challenges that need Electronics based solutions
CO2 C02: To introduce students to the vast array of literature available of the various research challenges in the field of ECE
CO3 C03: To create awareness among the students of the characteristics of several domain areas where ECE concepts can be effectively used.
CO4 C04: To enable students enhance the testing and debugging skills in a particular platform and create a solution for a problem
CO5 C05: To improve the team building, communication and management skills of the students
     
IV B. Tech -II SEM
Management Science CO1 CO 1 : Make business decisions for effective business administration
CO2 CO 2 : Identify Business strategies for effective and efficient utilization of resources
CO3 CO 3 : To explore new business opportunities in the dynamic business environment
CO4 CO 4 : To perform SWOT analysis of the internal and external environment
CO5 CO 5 : To implement contemporary best practices in an organization
Electronic Design Automation Tools CO1 CO 1 : Design and verify the digital circuits using EDA tools
CO2 CO 2 : Learn the working principles of simulation and synthesis tools
CO3 CO 3 : Evaluate the digital design circuits, analog circuits using HDL and PSPICE netlist formats
CO4 CO 4 : Use the EDA tools for the design of simple and complex IC design circuits
CO5 CO 5 : Analyze the performance of digital circuits, analog circuits and mixed signal Circuits
Optical Communications CO1 CO 1 : Understand and classify the structure of optical fiber and types
CO2 CO 2 : Calculate various key parameters such as link power budget, group delay,distortion
CO3 CO 3 : Compare various optical detectors and choose suitable one for different applications
CO4 CO 4 : Estimate the losses due to attenuation, absorption, scattering and bending
CO5 CO 5 : Design an optical communication system
Information Theory And Coding CO1 CO 1 : To understand the basic notions of information and channel capacity
CO2 CO 2 : To construct efficient codes for data on imperfect communication channels
CO3 CO 3 : To learn the error detection and correction abilities of channel coding techniques
CO4 CO 4 : To understand the effect of channel coding in the communication system design
CO5 CO 5 : To understand mathematical foundation required for various cryptographic Algorithms
Microwave Integrated Circuits CO1 CO 1 : Understand the transmission line concepts and network analysis
CO2 CO 2 : Familiarize with MIC technologies
CO3 CO 3 : Design different planar transmission lines and passive elements at microwave frequencies
CO4 CO 4 : Use smith chart for impedance matching
CO5 CO 5 : Design planar microwave components such as dividers, couplers and filters
Seminar CO1 C01: To offer students a glimpse into real world problems and Industrial challenges that need Electronics based solutions
CO2 C02: To introduce students to the vast array of literature available of the various research challenges in the field of ECE
CO3 C03: To create awareness among the students of the characteristics of several domain areas where ECE concepts can be effectively used.
CO4 C04: To enable students enhance the testing and debugging skills in a particular platform and create a solution for a problem
CO5 C05: To improve the team building, communication and management skills of the students
Comprehensive Viva CO1 CO1: To test the student’s learning and understanding during their Under graduate programme.
CO2 CO2: To prepare the students to face interview both at the academic and the industrial sector.
CO3 CO3: To enhance the designing and analysis skills of students which will enable them to prepare for competitive exams
CO4 CO4: To have in depth gain of knowledge in core competency areas
CO5 To enhance the problem solving and viva answering skill of the students
Project Work CO1 To offer students a glimpse into real world problems and Industrial challenges that need Electronics based solutions
CO2 To introduce students to the vast array of literature available of the various research challenges in the field of ECE
CO3 To create awareness among the students of the characteristics of several domain areas where ECE concepts can be effectively used.
CO4  To enable students enhance the testing and debugging skills in a particular platform and create a solution for a problem
CO5  To improve the team building, communication and management skills of the students