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Electronics & Communication Engineering is the most emerging and evolving discipline in all respects. Electronics engineers conduct research and oversee the development of electronic systems and the manufacturing of electronic equipment and devices. From the global positioning system that can continuously provide the location of a vehicle to deep space navigation and control, electronics engineers are responsible for a wide range of technologies. For e.g. Internet of Things (IoT) is a promising area for future communication engineering.
Electronics & Communication engineers design, develop, test, and supervise the manufacture of electronic equipment and systems. Some of this equipment and systems include mobile handsets, tablets, laptops, television, radio, security surveillance equipment, radar and navigation systems, communications systems, wearable electronic gadgets, satellites, etc. Electronics & Communication engineers also design electronic and communication systems for automobiles and aircraft.
Electronics engineers are responsible for a wide range of technologies, from portable music players to global positioning systems (GPS), which can continuously provide the location of, for example, a vehicle. Electronics engineers design, develop, test, and supervise the manufacture of electronic equipment such as broadcast and communications systems. Electronics engineers specialize in areas such as communications, signal processing, IC design and fabrication, control systems, embedded systems and the Internet of Things (IoT), etc.
Provides understanding of waves, optics, superconductivity and its applications and focuses on the physics behind optics and sound in our daily life.
Inculcate the knowledge of basic geometries, geometric tools, shapes and procedures used for engineering drawings and different concepts of theory of projections, development, sectioning
Students have practice in applying their knowledge of mathematics, science, and engineering and to expand this knowledge into the vast area of “rigid body Mechanics”. Students prepared for higher level courses such as courses in Mechanics of Solids, Mechanical Design and Structural Analysis. Analyze various machining processes and calculate relevant quantities such as velocities, forces, powers etc.
Introduction to the fundamental concepts of electricity and electronics that involve direct current, alternating current, series and parallel resistive circuits, inductance, capacitance, transformers, motors, electronic components, and various types of test equipment found in industry.
Provide exposure about optical and atomic physics phenomenon through experimental observations and focuses on interpretation and analysis of technical data.
To converse fluently, without strain with international speakers of English in an accent and lexis that is widely understood across the globe They will be able to produce on their own texts that are coherent and clear and hence make them communicative at workplace. It is a diagnostic and remedial activity integrated with communication practice. Use vocabulary productively. Profitably use the grammar while producing language for communication.
Provide the knowledge of various ordinary, partial differential equations and in-depth understanding of various analytical and numerical methods needed for solving different differential equations
Provides the insight of basic physics principles to be applied in engineering courses.
Elaboration of biological concepts with emphasis on effective utilization of biological principles for technology development by engineering students.
An introduction to materials science with emphasis on general properties of materials. Topics will include crystal structure, extended and point defects, and mechanical, electrical, thermal and magnetic properties of metals, ceramics, electronic materials, composites and organic materials.
This course aims to help you develop the proficiency needed to succeed in today's technologically enhanced workplace by focusing on the development of professional oral and written communication skills.
Provide exposure about optical and atomic physics phenomenon through experimental observations and focuses on interpretation and analysis of technical data.
Gain practical exposure through different types of scientific programming problems and mathematical modeling. Students will able to solve wide range of engineering problems.
Introductory experimental laboratory explores the design, construction, and debugging of c programming. Develop students understanding about the core building blocks of a development framework.
Provides the knowledge of differential and integral calculus and enables understanding of linear algebra, linear programming and set theory.
Elaboration of biological concepts with emphasis on effective utilization of biological principles for technology development by engineering students.
Provide the knowledge of various ordinary, partial differential equations and in-depth understanding of various analytical and numerical methods needed for solving different differential equations.
This course introduces the basics of semiconductor devices such as Diodes, Transistors, FETs and learns the applications of
semiconductor devices such as Amplifiers, Oscillators, Operational Amplifiers, Analog to Digital and Digital to Analog Converters.
This course familiarizes students with network synthesis and filter design. It also provides students the exposure to the electrical networks and analyzes passive networks and their parameters.
This course provides a thorough introduction to the basic principles and techniques used in analog and digital communications. The course will introduce analog and digital modulation techniques, communication receiver and transmitter design, noise analysis, and multiplexing techniques.
This course familiarizes the students with the knowledge of various Integrated circuits and develops the designing skills in the students. It also makes the students to be able to simulate the circuit with the help of software.
This course provides practical hands-on exposure to communication system building blocks, such as modulators, demodulators, filters, mixers, and amplifiers, and enables students to study the effects of noise on communication systems.
This lab familiarizes the students with the basics of MATLAB programming which enables them to write program for the designing of filters, control systems etc.
This Lab familiarizes the students to solve the real time problems virtually. Students will learn LabVIEW as a tool for the design of computer-based virtual instruments.
Smart industrial connectivity help to connect the industrial sensor throgh the various communication mode to better operation of industry machinery
This course develops an understanding to describe signals mathematically and to perform mathematical operations on signals and helps students to understand the system properties such as linearity, time invariance, with or without memory, causality, bounded-input bounded-output and stability.
This course develops an ability to analyze and design combinational and sequential logic circuits. The course also provides an exposure to computer logic circuits design and practical digital circuit design.
This course familiarizes students with the basic knowledge of computer organization, CPU concepts with instruction fetching and decoding. Make students to understand and built the concepts of microprogramming control, memory system, addressing modes and I/O organization sets.
This course provides an elementary introduction to probability and stochastic processes with applications. The course emphasizes on probabilistic foundations required to understand probability models and statistical methods.
This course will impart the concepts of digital electronics practically and train students with all the equipments which will help in improving the basic knowledge. It also provides students basic experimental experiences in the operation of various families of digital circuits.
Data analysis is a process of inspecting, cleansing, transforming, and modelling data with the goal of discovering useful information, informing conclusions, and supporting decision-making.
This course familiarizes the students with the different concepts of electrostatic, magneto static and time varying electromagnetic systems. Students will also be able to understand the concept of electromagnetic waves and structure of transmission line.
This course Introduces the fundamentals of microprocessors with the detailed description of 8-bit and 16-bit microprocessors, their architecture and programming. The course also introduces the concept of interfacing and various types of peripheral devices used with microprocessors.
It also provides understanding the basic operation of a microcontroller system and fundamental programming skills.
This course is used to understand the meaning and implications of the properties of systems and signals, understand the Transform domain and its significance and problems related to computational complexity.
The design of linear digital filters FIR and IIR using different techniques and their associated structures, concept of Multi-rate signal processing and sample rate conversion.
This lab introduces basics of MATLAB programming, make students able to program digital signal processing algorithm in MATLAB.
This course makes the students to understand and gain knowledge about experiments with Microprocessor and Microcontrollers kits and Software as per the industry requirements.
The purpose of the course is to develop an understanding of independent research through the study of a particular Electronics Engineering topic of interest. The special project is an exercise in the professional application of specialist skills and experience developed in Electronics Engineering program. Research topics will be mainly based on principal experimental, theoretical or applied, will be chosen in consultation with a project supervisor.
This course understand the concept of Probability and Random Processes, analyze the source coding techniques and Construct the various channel coding schemes such as block codes, cyclic codes and convolutional codes.
This course deals with elementary level of quantum mechanics, fundamental knowledge of nanotechnology; preparation, fabrication and characterization techniques of nano-materials and nanodevices.
This course Introduces the principles, fabrication techniques, and applications of micro electromechanical systems (MEMS). It also deals with in-depth analysis of sensors, actuator principles, and integrated microfabrication techniques for MEMS.
It helps in understanding the concept of Static & Dynamic memory management, data types, algorithms & also basic data structures, such as arrays, linked lists, stacks, queues, trees and graphs.
The course defines Database Management System and gives its description. It also defines basic foundational terms of Database and the applications of Databases. It also compares relational model with the Structured Query Language.
This course is formulated to help students in strengthening their capacity to reduce the impact of disasters by enhancing their knowledge and skills to promote and adopt disaster reduction methods as a basic part of the development process.
This subject deals with the control system which is used in almost every project in the industries these days and also in our day to day life.
The emphasis of this course is on the organization and management of local area networks (LANs). The course objectives include learning about computer network organization and implementation, obtaining a theoretical understanding of data communication and computer networks.
This course presents the principles, techniques, and concepts needed for managerial analysis and decision-making. It highlights the effective management of planning, organizing, influencing, and controlling related to the internal and external environment and issues of ethics and social responsibility.
This lab provides a practical approach to Ethernet/Internet networking: networks are assembled, and experiments are made to understand the working of layered architecture and some important protocols.
The lab provides an overview of fundamentals of electronic measurement systems and elements of electronic instrumentation.
Project involves integration and implementation of knowledge and skills acquired during the degree program. It involves group work with hands on experience on some live projects in the field of Electronics and Communication Engineering.
This course introduces the basic theory of Power Diode, Transistor, MOSFET, Thyristor, Triac, Cycloconverters, Choppers, Rectifiers, Inverters and analyze various single phase and three phase power converter circuits and understand their practical application in Industries.
This course introduces real life applications involve both analog and digital circuits; this course aims to introduce the problems in implementing both in a single silicon wafer.
Introduction to the basic concepts of embedded systems with different peripheral interfaces to embedded systems.
The objective of the course is to provide a brief knowledge of measurements and measuring instruments related to engineering.
This Course focuses towards the introduction of network security using various cryptographic algorithms. Underlying network security applications. It also focuses on the practical applications that have been implemented and are in use to provide email and web security.
This course develops a foundation of concepts and solutions that supports the planning, scheduling, controlling, resource allocation and performance measurement activities for successful completion of a project.
It demonstrates Digital Communication concepts by hands-on experience using simulation environments such as MATLAB/Simulink/VisSim.
Students will develop and practice electronics engineering design skills by working on a team based project.
This course gives an understanding of microwave components and circuits in terms of scattering parameters, electrical characteristics of waveguides and transmission lines.
This course provides the fundamentals of Digital Image Processing system and also the principles of image acquisition system and imaging technologies used in various fields.
Introduction of basic signal processing techniques for bio-medical signals. Familiarization with various medical equipments and their technical aspects and knowledge of physiological system of human body.
Introduction to fundamental concepts of wireless communication technologies and its applications. Familiarize the students with the concepts and the issues involved in the design of wireless networks.
The course covers concepts in sensor networks: Introduction to wireless networks, architectures and technologies.
The course includes CMOS devices and circuits, standard CMOS fabrication processes, CMOS design rules, static and dynamic logic structures, interconnect analysis, CMOS chip layout, simulation and testing.
This course is meant to orient the students to take off in the areas of Antenna & wave propagation with concise description of different types of antennas. The course also provides various techniques involved in various Antenna Parameter measurement.
The course covers important parameters governing the high speed performance of devices, their principles of operation for the new high-speed semiconductor components/circuits.
The aim of the course is to introduce the idea of wavelets, filter banks and time-frequency analysis. Haar wavelets have been introduced as an important tool in the analysis of signal at various level of resolution.
Develop the knowledge of HVDC transmission and HVDC converters and the applicability and advantage of HVDC transmission over conventional AC transmission.
This course explores policy and planning for sustainable development. It also provides concept of sustainability as a process of social and organizational concept.
Explains the differences between Android and other mobile application development platforms. Students will have hands on experience of designing apps for android devices and get to understand the application life-cycle.
Understand various basic concepts related to cloud computing technologies, the architecture and concept of different cloud models & and techniques, cloud virtualization, cloud storage, data management and data visualization. Use of various business cloud models and security hacks are discussed in detailed with future concepts.
This course provides an understanding of basic characteristics of renewable sources of energy and technologies for their utilization.
Provide vital experiential learning opportunity, an educational strategy that links classroom learning and student interest with the acquisition of knowledge in an applied work setting like a company, industry, non-profit, governmental, or community-based organization related to the field of Electronics & Communication Engineering.
This course makes familiarization with optical fibers, their structures and working. The various optical sources, the optical amplifier & their applications.
This course develops a basic understanding of active semiconductor devices. Focuses on building an understanding of BJT and CMOS devices in both digital and analog applications.
Introduction to basic characteristics of speech signal in relation to production and hearing of speech by humans. Description of basic algorithms of speech analysis common to many applications.
The course goal is to provide the students the basic understanding of the unique challenges of designing, developing, fielding, maintaining and operating satellite communications systems.
This course introduces students to iterative decoding algorithms and the codes to which they are applied, including Turbo Codes, Low-Density Parity-Check Codes, and Serially-Concatenated Codes.
This course presents an introduction to the up-to-date ideas, approaches and techniques for non-numerical mathematical model analysis. Also, the course is aimed to give students a critical understanding of current implementations of current methods and techniques and to train student in the methods application.
This course is designed to give the technical knowledge and skills to build Internet of Things (IoT) systems. That includes devices for sensing, actuation, processing, and communication.
The course is intended to provide students with an understanding of: Wearable Technology Devices and its Applications.
The course combines theoretical foundations with practical applications using different tools and techniques for different applications of Soft Computing in various areas.
The course provides an overview of Machine Learning topics such as supervised vs unsupervised learning, model evaluation, and Machine Learning algorithms.
B.Tech Electronics & Communication Engineering (with an option of specialization in the Internet of Things)The Candidate should have passed a 10+2 examination with Physics, Mathematics and English as compulsory subjects along with one of the Chemistry/ Biotechnology/ Biology/ Technical Vocational subjects. Obtained at least 60% marks (40% in case of candidates belonging to the reserved category) in the above subjects taken together
OR
Passed Diploma examination with at least 60% marks (40% in case of candidates belonging to reserved category), subject to vacancies in the First Year, in case the vacancies at lateral entry are exhausted. examination.
| Course | Course Fee | |||
| Indian (INR) | International (USD) | |||
|
||||
| B.Tech ECE specialisation in Internet of Things |
|
5000 | ||
|
Note:
|
||||
| % Marks | Scholarship Criteria (% Tuition Fee Waiver) |
|---|---|
| 90% & above | 100% |
| 80 to 89.99% | 40% |
| 70 to 79.99% | 30% |
| 60 to 69.99% | 20% |
Provides understanding of waves, optics, superconductivity and its applications and focuses on the physics behind optics and sound in our daily life.
Inculcate the knowledge of basic geometries, geometric tools, shapes and procedures used for engineering drawings and different concepts of theory of projections, development, sectioning
Students have practice in applying their knowledge of mathematics, science, and engineering and to expand this knowledge into the vast area of “rigid body Mechanics”. Students prepared for higher level courses such as courses in Mechanics of Solids, Mechanical Design and Structural Analysis. Analyze various machining processes and calculate relevant quantities such as velocities, forces, powers etc.
Introduction to the fundamental concepts of electricity and electronics that involve direct current, alternating current, series and parallel resistive circuits, inductance, capacitance, transformers, motors, electronic components, and various types of test equipment found in industry.
Provide exposure about optical and atomic physics phenomenon through experimental observations and focuses on interpretation and analysis of technical data.
To converse fluently, without strain with international speakers of English in an accent and lexis that is widely understood across the globe They will be able to produce on their own texts that are coherent and clear and hence make them communicative at workplace. It is a diagnostic and remedial activity integrated with communication practice. Use vocabulary productively. Profitably use the grammar while producing language for communication.
Provide the knowledge of various ordinary, partial differential equations and in-depth understanding of various analytical and numerical methods needed for solving different differential equations
Provides the insight of basic physics principles to be applied in engineering courses.
Elaboration of biological concepts with emphasis on effective utilization of biological principles for technology development by engineering students.
An introduction to materials science with emphasis on general properties of materials. Topics will include crystal structure, extended and point defects, and mechanical, electrical, thermal and magnetic properties of metals, ceramics, electronic materials, composites and organic materials.
This course aims to help you develop the proficiency needed to succeed in today's technologically enhanced workplace by focusing on the development of professional oral and written communication skills.
Provide exposure about optical and atomic physics phenomenon through experimental observations and focuses on interpretation and analysis of technical data.
Gain practical exposure through different types of scientific programming problems and mathematical modeling. Students will able to solve wide range of engineering problems.
Introductory experimental laboratory explores the design, construction, and debugging of c programming. Develop students understanding about the core building blocks of a development framework.
Provides the knowledge of differential and integral calculus and enables understanding of linear algebra, linear programming and set theory.
Elaboration of biological concepts with emphasis on effective utilization of biological principles for technology development by engineering students.
Provide the knowledge of various ordinary, partial differential equations and in-depth understanding of various analytical and numerical methods needed for solving different differential equations.
This course introduces the basics of semiconductor devices such as Diodes, Transistors, FETs and learns the applications of
semiconductor devices such as Amplifiers, Oscillators, Operational Amplifiers, Analog to Digital and Digital to Analog Converters.
This course familiarizes students with network synthesis and filter design. It also provides students the exposure to the electrical networks and analyzes passive networks and their parameters.
This course provides a thorough introduction to the basic principles and techniques used in analog and digital communications. The course will introduce analog and digital modulation techniques, communication receiver and transmitter design, noise analysis, and multiplexing techniques.
This course familiarizes the students with the knowledge of various Integrated circuits and develops the designing skills in the students. It also makes the students to be able to simulate the circuit with the help of software.
This course provides practical hands-on exposure to communication system building blocks, such as modulators, demodulators, filters, mixers, and amplifiers, and enables students to study the effects of noise on communication systems.
This lab familiarizes the students with the basics of MATLAB programming which enables them to write program for the designing of filters, control systems etc.
This Lab familiarizes the students to solve the real time problems virtually. Students will learn LabVIEW as a tool for the design of computer-based virtual instruments.
Smart industrial connectivity help to connect the industrial sensor throgh the various communication mode to better operation of industry machinery
This course develops an understanding to describe signals mathematically and to perform mathematical operations on signals and helps students to understand the system properties such as linearity, time invariance, with or without memory, causality, bounded-input bounded-output and stability.
This course develops an ability to analyze and design combinational and sequential logic circuits. The course also provides an exposure to computer logic circuits design and practical digital circuit design.
This course familiarizes students with the basic knowledge of computer organization, CPU concepts with instruction fetching and decoding. Make students to understand and built the concepts of microprogramming control, memory system, addressing modes and I/O organization sets.
This course provides an elementary introduction to probability and stochastic processes with applications. The course emphasizes on probabilistic foundations required to understand probability models and statistical methods.
This course will impart the concepts of digital electronics practically and train students with all the equipments which will help in improving the basic knowledge. It also provides students basic experimental experiences in the operation of various families of digital circuits.
Data analysis is a process of inspecting, cleansing, transforming, and modelling data with the goal of discovering useful information, informing conclusions, and supporting decision-making.
This course familiarizes the students with the different concepts of electrostatic, magneto static and time varying electromagnetic systems. Students will also be able to understand the concept of electromagnetic waves and structure of transmission line.
This course Introduces the fundamentals of microprocessors with the detailed description of 8-bit and 16-bit microprocessors, their architecture and programming. The course also introduces the concept of interfacing and various types of peripheral devices used with microprocessors.
It also provides understanding the basic operation of a microcontroller system and fundamental programming skills.
This course is used to understand the meaning and implications of the properties of systems and signals, understand the Transform domain and its significance and problems related to computational complexity.
The design of linear digital filters FIR and IIR using different techniques and their associated structures, concept of Multi-rate signal processing and sample rate conversion.
This lab introduces basics of MATLAB programming, make students able to program digital signal processing algorithm in MATLAB.
This course makes the students to understand and gain knowledge about experiments with Microprocessor and Microcontrollers kits and Software as per the industry requirements.
The purpose of the course is to develop an understanding of independent research through the study of a particular Electronics Engineering topic of interest. The special project is an exercise in the professional application of specialist skills and experience developed in Electronics Engineering program. Research topics will be mainly based on principal experimental, theoretical or applied, will be chosen in consultation with a project supervisor.
This course understand the concept of Probability and Random Processes, analyze the source coding techniques and Construct the various channel coding schemes such as block codes, cyclic codes and convolutional codes.
This course deals with elementary level of quantum mechanics, fundamental knowledge of nanotechnology; preparation, fabrication and characterization techniques of nano-materials and nanodevices.
This course Introduces the principles, fabrication techniques, and applications of micro electromechanical systems (MEMS). It also deals with in-depth analysis of sensors, actuator principles, and integrated microfabrication techniques for MEMS.
It helps in understanding the concept of Static & Dynamic memory management, data types, algorithms & also basic data structures, such as arrays, linked lists, stacks, queues, trees and graphs.
The course defines Database Management System and gives its description. It also defines basic foundational terms of Database and the applications of Databases. It also compares relational model with the Structured Query Language.
This course is formulated to help students in strengthening their capacity to reduce the impact of disasters by enhancing their knowledge and skills to promote and adopt disaster reduction methods as a basic part of the development process.
This subject deals with the control system which is used in almost every project in the industries these days and also in our day to day life.
The emphasis of this course is on the organization and management of local area networks (LANs). The course objectives include learning about computer network organization and implementation, obtaining a theoretical understanding of data communication and computer networks.
This course presents the principles, techniques, and concepts needed for managerial analysis and decision-making. It highlights the effective management of planning, organizing, influencing, and controlling related to the internal and external environment and issues of ethics and social responsibility.
This lab provides a practical approach to Ethernet/Internet networking: networks are assembled, and experiments are made to understand the working of layered architecture and some important protocols.
The lab provides an overview of fundamentals of electronic measurement systems and elements of electronic instrumentation.
Project involves integration and implementation of knowledge and skills acquired during the degree program. It involves group work with hands on experience on some live projects in the field of Electronics and Communication Engineering.
This course introduces the basic theory of Power Diode, Transistor, MOSFET, Thyristor, Triac, Cycloconverters, Choppers, Rectifiers, Inverters and analyze various single phase and three phase power converter circuits and understand their practical application in Industries.
This course introduces real life applications involve both analog and digital circuits; this course aims to introduce the problems in implementing both in a single silicon wafer.
Introduction to the basic concepts of embedded systems with different peripheral interfaces to embedded systems.
The objective of the course is to provide a brief knowledge of measurements and measuring instruments related to engineering.
This Course focuses towards the introduction of network security using various cryptographic algorithms. Underlying network security applications. It also focuses on the practical applications that have been implemented and are in use to provide email and web security.
This course develops a foundation of concepts and solutions that supports the planning, scheduling, controlling, resource allocation and performance measurement activities for successful completion of a project.
It demonstrates Digital Communication concepts by hands-on experience using simulation environments such as MATLAB/Simulink/VisSim.
Students will develop and practice electronics engineering design skills by working on a team based project.
This course gives an understanding of microwave components and circuits in terms of scattering parameters, electrical characteristics of waveguides and transmission lines.
This course provides the fundamentals of Digital Image Processing system and also the principles of image acquisition system and imaging technologies used in various fields.
Introduction of basic signal processing techniques for bio-medical signals. Familiarization with various medical equipments and their technical aspects and knowledge of physiological system of human body.
Introduction to fundamental concepts of wireless communication technologies and its applications. Familiarize the students with the concepts and the issues involved in the design of wireless networks.
The course covers concepts in sensor networks: Introduction to wireless networks, architectures and technologies.
The course includes CMOS devices and circuits, standard CMOS fabrication processes, CMOS design rules, static and dynamic logic structures, interconnect analysis, CMOS chip layout, simulation and testing.
This course is meant to orient the students to take off in the areas of Antenna & wave propagation with concise description of different types of antennas. The course also provides various techniques involved in various Antenna Parameter measurement.
The course covers important parameters governing the high speed performance of devices, their principles of operation for the new high-speed semiconductor components/circuits.
The aim of the course is to introduce the idea of wavelets, filter banks and time-frequency analysis. Haar wavelets have been introduced as an important tool in the analysis of signal at various level of resolution.
Develop the knowledge of HVDC transmission and HVDC converters and the applicability and advantage of HVDC transmission over conventional AC transmission.
This course explores policy and planning for sustainable development. It also provides concept of sustainability as a process of social and organizational concept.
Explains the differences between Android and other mobile application development platforms. Students will have hands on experience of designing apps for android devices and get to understand the application life-cycle.
Understand various basic concepts related to cloud computing technologies, the architecture and concept of different cloud models & and techniques, cloud virtualization, cloud storage, data management and data visualization. Use of various business cloud models and security hacks are discussed in detailed with future concepts.
This course provides an understanding of basic characteristics of renewable sources of energy and technologies for their utilization.
Provide vital experiential learning opportunity, an educational strategy that links classroom learning and student interest with the acquisition of knowledge in an applied work setting like a company, industry, non-profit, governmental, or community-based organization related to the field of Electronics & Communication Engineering.
This course makes familiarization with optical fibers, their structures and working. The various optical sources, the optical amplifier & their applications.
This course develops a basic understanding of active semiconductor devices. Focuses on building an understanding of BJT and CMOS devices in both digital and analog applications.
Introduction to basic characteristics of speech signal in relation to production and hearing of speech by humans. Description of basic algorithms of speech analysis common to many applications.
The course goal is to provide the students the basic understanding of the unique challenges of designing, developing, fielding, maintaining and operating satellite communications systems.
This course introduces students to iterative decoding algorithms and the codes to which they are applied, including Turbo Codes, Low-Density Parity-Check Codes, and Serially-Concatenated Codes.
This course presents an introduction to the up-to-date ideas, approaches and techniques for non-numerical mathematical model analysis. Also, the course is aimed to give students a critical understanding of current implementations of current methods and techniques and to train student in the methods application.
This course is designed to give the technical knowledge and skills to build Internet of Things (IoT) systems. That includes devices for sensing, actuation, processing, and communication.
The course is intended to provide students with an understanding of: Wearable Technology Devices and its Applications.
The course combines theoretical foundations with practical applications using different tools and techniques for different applications of Soft Computing in various areas.
The course provides an overview of Machine Learning topics such as supervised vs unsupervised learning, model evaluation, and Machine Learning algorithms.
This course understand the concept of Probability and Random Processes, analyze the source coding techniques and Construct the various channel coding schemes such as block codes, cyclic codes and convolutional codes.
This course deals with elementary level of quantum mechanics, fundamental knowledge of nanotechnology; preparation, fabrication and characterization techniques of nano-materials and nanodevices.
This course Introduces the principles, fabrication techniques, and applications of micro electromechanical systems (MEMS). It also deals with in-depth analysis of sensors, actuator principles, and integrated microfabrication techniques for MEMS.
It helps in understanding the concept of Static & Dynamic memory management, data types, algorithms & also basic data structures, such as arrays, linked lists, stacks, queues, trees and graphs.
The course defines Database Management System and gives its description. It also defines basic foundational terms of Database and the applications of Databases. It also compares relational model with the Structured Query Language.
This course is formulated to help students in strengthening their capacity to reduce the impact of disasters by enhancing their knowledge and skills to promote and adopt disaster reduction methods as a basic part of the development process.
This course introduces the basic theory of Power Diode, Transistor, MOSFET, Thyristor, Triac, Cycloconverters, Choppers, Rectifiers, Inverters and analyze various single phase and three phase power converter circuits and understand their practical application in Industries.
This course introduces real life applications involve both analog and digital circuits; this course aims to introduce the problems in implementing both in a single silicon wafer.
Introduction to the basic concepts of embedded systems with different peripheral interfaces to embedded systems.
The objective of the course is to provide a brief knowledge of measurements and measuring instruments related to engineering.
This Course focuses towards the introduction of network security using various cryptographic algorithms. Underlying network security applications. It also focuses on the practical applications that have been implemented and are in use to provide email and web security.
This course gives an understanding of microwave components and circuits in terms of scattering parameters, electrical characteristics of waveguides and transmission lines.
This course provides the fundamentals of Digital Image Processing system and also the principles of image acquisition system and imaging technologies used in various fields.
Introduction of basic signal processing techniques for bio-medical signals. Familiarization with various medical equipments and their technical aspects and knowledge of physiological system of human body.
Introduction to fundamental concepts of wireless communication technologies and its applications. Familiarize the students with the concepts and the issues involved in the design of wireless networks.
The course covers concepts in sensor networks: Introduction to wireless networks, architectures and technologies.
The course includes CMOS devices and circuits, standard CMOS fabrication processes, CMOS design rules, static and dynamic logic structures, interconnect analysis, CMOS chip layout, simulation and testing.
This course is meant to orient the students to take off in the areas of Antenna & wave propagation with concise description of different types of antennas. The course also provides various techniques involved in various Antenna Parameter measurement.
The course covers important parameters governing the high speed performance of devices, their principles of operation for the new high-speed semiconductor components/circuits.
The aim of the course is to introduce the idea of wavelets, filter banks and time-frequency analysis. Haar wavelets have been introduced as an important tool in the analysis of signal at various level of resolution.
Develop the knowledge of HVDC transmission and HVDC converters and the applicability and advantage of HVDC transmission over conventional AC transmission.
Explains the differences between Android and other mobile application development platforms. Students will have hands on experience of designing apps for android devices and get to understand the application life-cycle.
Understand various basic concepts related to cloud computing technologies, the architecture and concept of different cloud models & and techniques, cloud virtualization, cloud storage, data management and data visualization. Use of various business cloud models and security hacks are discussed in detailed with future concepts.
This course provides an understanding of basic characteristics of renewable sources of energy and technologies for their utilization.
B.Tech Electronics & Communication Engineering (with an option of specialization in the Internet of Things)The Candidate should have passed a 10+2 examination with Physics, Mathematics and English as compulsory subjects along with one of the Chemistry/ Biotechnology/ Biology/ Technical Vocational subjects. Obtained at least 60% marks (40% in case of candidates belonging to the reserved category) in the above subjects taken together
OR
Passed Diploma examination with at least 60% marks (40% in case of candidates belonging to reserved category), subject to vacancies in the First Year, in case the vacancies at lateral entry are exhausted. examination.
| Course | Course Fee | |||
| Indian (INR) | International (USD) | |||
|
||||
| B.Tech ECE specialisation in Internet of Things |
|
5000 | ||
|
Note:
|
||||
