ELECTRONICS AND COMMUNICATION





Ms. Shilpi Shukla

(HOD)

Electronics and Communication Engineering at Mahatma Gandhi Mission’s College of Engineering and Technology, Noida. Electronics engineering is a constantly changing and widening branch of the engineering profession having applications in every discipline of engineering including consumer electronics, telecommunications, diagnostics and treatment devices for medicine, audio and video, control, computing, data storage and retrieval, photography, measurement and metrology equipment, aviation and avionics and early warning & radar systems. Our department has a fine blend of a team of qualified and experienced faculty and staff members.
We are striving hard continuously to improve upon the quality of education and to maintain its position of leadership in engineering and technology. The Department is equipped with state of art Laboratories. The lab facilities are being upgraded from time to time and provide adequate opportunities for the students to learn and innovate.
All of the top achievers I know are life-long learners and look for new skills, insights and ideas. I am certain that our students will prove to be an invaluable asset to an organization.
My motto is “Develop a passion for learning”.

Electronics And Communication Notice Board


DEPARTMENT OF ELECTRONICS AND COMMUNICATION

The department started in the year 2000 with an intake of 120 students in a 4 year B.Tech. course, is one of the major departments of the institute. Since its inception, the department has shown exponential growth in terms of modernization of existing laboratories. A full time two year M. Tech program has been introduced from the year 2013. The department has motivated, committed, highly qualified and experienced faculty. The faculty members are encouraged to take independent initiatives in all the relevant Academic and R & D.


Electronics and Communication Engineering is a branch of Engineering that deals with hardware such as Electronic devices, Circuits, Communication equipments, Antenna and Wave propagation. It also deals equally well with softwares like MULTISIM, ORCAD, PSPICE, AVR, MATLAB, Assembly Language Programming of microprocessors and controllers to design, analyze and simulate the performance of systems. The educational objectives of the course are:

  • To deepen the knowledge and skills of the students on basic concepts and theories that will equip them well in their professional work that involve designing and implementation of hardware and software systems, analyzing the problem and the operation, production and maintenance of electronics systems

  • To make students understand the basic concepts, so that they can excel in industry/technical profession and postgraduate programs

  • To understand the needs of the students and accordingly act to raise their academic performance To build enthusiasm, professionalism and commitment among students

  • To integrate fundamentals and up to date approaches derived from the engineering sciences and engineering practice to apply analytical reasoning

  • To familiarize students with the system approach to handle multi-faceted and multi-disciplinary projects & accomplish professional development with escalating responsibility and leadership

  • To hone leadership qualities, effective teamwork spirit & collaborate with a significant technical, legal, ethical, regulatory, social, environmental and economic considerations

  • To make realize the students the benefits of being receptive to new technological and cultural challenges through life-long learning such as advanced degrees, publications, presentations, awards etc

  • To make them a good human being rather than a university ranker

After completing the B.Tech. course in Electronics and Communication, the student is expected to:

  • Apply knowledge of mathematics, science, engineering fundamentals and an engineering specialization to the conceptualization of engineering models

  • Identify, formulate, research literature and solve complex engineering problems reaching substantiated conclusions using first principles of mathematics and engineering sciences

  • Attempt design solutions for complex engineering problems and design systems, components or processes that meet specified needs with appropriate consideration for public health and safety, cultural, societal and environmental considerations

  • Conduct investigations of complex problems including design of experiments, analysis and interpretation of data and synthesis of information to provide valid conclusions

  • Create, select and apply appropriate techniques, resources, and modern engineering tools, including prediction and modeling, to complex engineering activities, with an understanding of the limitations

  • Function effectively as an individual and as a member or a leader in diverse teams and in multi-disciplinary settings

  • Communicate effectively on complex engineering activities with the engineering community and with society at large

  • Understand and commit to professional ethics and responsibilities and norms of engineering practice

  • Understand the impact of engineering solutions in a societal context and demonstrate knowledge of and need for sustainable development

  • Demonstrate an ability to use modern engineering tools, software and equipment to analyze problems

  • Compete for seeking a job in Consumer Electronics manufacturing organization, Telecommunication industry, IT industries, Health care equipment manufacturing industry, Mobile communication, Internet technologies, Power Electronics and other industries like Steel, Petroleum and Chemical industry

  • To train students to have in-depth knowledge in the subjects related to Electronics and Communication Engineering thereby making them to develop confidence for R & D activities and face challenges of their professional life

  • To encourage students to participate in seminars, conferences, workshops and entrepreneurship programs to widen the horizon of their knowledge

  • To make students realize the needs of the society in the various fields related to Electronics and Communication engineering and contribute to some extent in fulfilling them

  • To establish Industry-Institute Interaction for the timely updates on the latest technologies, techniques and softwares used in industries

  • To publish technical research papers in National/ International journals and Conferences

After completing M.Tech program, the students would be able:

  • To compete to serve scientific and research organization such as ISRO, DRDO, TIFR and some other research organizations or pursue higher studies in India and Abroad

  • To start their teaching career

  • To start their own small scale enterprise

The department of Electronics & Communication is having well developed laboratories with branded equipments, as given below.


Electronics Circuit Lab

This lab provides practical knowledge to design and analyze basic electronic circuits. It consist of following equipment/trainer kits-:

  • Single/two stage R.C coupled Amp.

  • Emitter follower

  • Emitter follower

  • Op-amp application Trainer

  • Basic logic gate Trainer Kit

  • Diac/Traic characteristic kit

  • Funcction generator 3Mhz, CRO 30Mhz, Power supply

  • Push pull amp Trainer Kit

CAD of Electronics Lab

This lab provides different synthesis, simulation tools. for designing of different electronics circuits .It has following softwares

  • Multi sim 7.1

  • Multi sim 9.1

  • Active HDL 6.1

  • Active HDL9.1

  • MATLAB

  • SCILAB

  • Proteus

  • Xilinx EDK software ATMEL AT 89SXXXX

PCB Lab

PCB Lab is equipped with various instruments which are required for the PCB designing:-

  • Drill machine

  • Coil winding machine

  • Testing unit board

  • Iron stand

  • Hammer

  • Desoldering pump

Microprocessor Lab

Microprocessor Lab is equipped with Microprocessor training boards. It has training kits of

  • 8085 Microprocessors

  • 8086 Microcontrollers

  • Peripheral Devices such as 8257 (DMA Controller), 8255 (Programmable Peripheral Interface), 8279(keyboard & Display Controller

  • Stepper motor interface card

  • Elevator simulator interface card

  • Stepper motor

  • Stepper motor interface card

  • 8031/51Advance LCD

  • ADC-809A/D card

EMI Lab

Electronic Instrumentation and Measurement lab consist of following equipments-

  • LVDT Trainer

  • Kelvin's double bridge

  • MaxWell bridge

  • Strain gauge Trainer

  • Universal impedance bridge

  • Universal impedance bridge

Digital Electronics Lab

Digital Electronics lab is fully equipped with the required instruments such as

  • CRO

  • Multi-meters

  • Signal generators

  • Digital Trainer Kit: TTL/CMOS compatible logic level input, Logic HIGH & logic LOW displayed by dual color LEDs.

Communication Lab

This lab bridges the gap between engineering theory and practice through visualization, experimental application and the use of a block diagram approach to Communication System components. It consists of following equipments:-

  • Pulse,Amplitude modulation/demodulation.

  • Pulse,Position modulation/demodulation.

  • Pulse,Width modulation/demodulation

  • Pulse code modulation/demod.

  • DSB/SSB AM transmitter

  • DSBSC/SSBSC AM generator

  • Data conditioning & carrier modulation/demodulation

  • A.S.K/P.S.K modulation/demodulation

  • TDM transmitter/Reciever

Project lab

It incorporates Express PCB, Multi Simulator, AVR tool kit,8051 emulators etc to provide practical knowledge to design and develop printed circuit boards based on in-depth knowledge, during course of study acquired by student in study. They have to design various modules of prototype, software to implement and solve real world problems in the industry or organization. Use of various labs and interdisciplinary idea is also a part of exercises in project lab.

e-Yantra lab

e-Yantra is a project by IIT Bombay to spread education in Embedded systems and Robotics. This project has been sponsored by Ministry of Human Resource Development(MHRD) through the National Mission on Education through ICT (NMEICT).Several equipments are provided by IITB -

  • Fire Bird V ATMEGA2560 (AVR)

  • Fire Bird V P89V51RD2 (8051)

  • Fire Bird V LPC2148 (ARM7 TDMI)

  • Fire Bird V Microcontroller Adapter Boards

  • RASPBERRY PI, MODEL B, 512 MB

  • Metal-gear Servo Motor

  • Maxbotix ultrasonic range sensor

  • Dexter ER2 Robotic Arm

Microwave Lab

Microwave Lab consist of following equipments:-

  • Microwave Benches (X-Band, Ku- Band)

  • Microwave test benches Klystron based and various Microwave components

  • Spectrum Analyzer

  • Microwave Circuit Design tools MAT LAB software

Texas Instruments Lab

Texas instrumentation Lab is set with the collaboration of Texas Instruments.It has following equipments:-

  • MSP 430

  • LaunchPad MSP430G2452

Following are the major hardware and software projects developed by students under the guidance of the faculty members:

  • Intelligent traffic light control system

  • Wireless bomb detection and diffusion robot

  • Wireless controlled industrial pickup and place robot

  • Intelligent traffic signal control using data acquisition

  • Dual band microstrip antenna

  • Design and implementation of a stair-climbing robot

  • Object distinguish and sorting system

  • Automatic number plate recognition system

  • Speaker recognition system using MATLAB

  • Fuzzy controller design using FPGA for sun tracking in solar array system

  • Gesture recognition system using ADT.



Dr. S.J. Wagh

M.Tech., Ph.D.
Professor


Dr. M.R. Khan

B.Sc., M.Sc., Ph.D.
Professor


Mr. S. Vamshi Krishna

B.Tech.,
M.Tech. , Ph.D (Pursuing)
Asstt. Prof., HOD





Ms. Shilpi Shukla

B.Tech., M.Tech.,Ph.D(Pursuing)
Assistant Professor


Ms. Deepti Aggarwal

B.Tech.,
M.Tech. , Ph.D (Pursuing)
Assistant Professor


Ms. Ashwini Deshmukh

B.Tech, M.Tech.
Assistant Professor





Ms. Poonam Yadav

B.Tech, M.Tech
Assistant Professor


Mr. Sanjay Sharma

B.Tech, M.Tech.
Assistant Professor


Ms. Priyanka Chauhan

B.Tech,M.Tech
Assistant Professor





Ms. Ajita Singh

B.Tech, M.Tech
Assistant Professor


Ms. Ekta Gurnani

B.Tech.,M.Tech
Assistant Professor
Name of Student Department Name of Event Position Venue of the Event
Barkha Mishra EC Student of the year Kohinoor Antarnaad-2015
Anshu Singh EC Student of the year Kohinoor Antarnaad-2014
Nitin Rawat, Shrey Bhardwaj, Nitin Dogra, Rajdeep Gupta EC Humanoids 1st Amity University, Noida
Shrey Bhardwaj, Nitin Nogra, Nitin Rawat, Rajdeep Gupta EC Boat Rush 1st Amity University, Noida
Rohit Verma, Badre Alam, Mohd. Kafeel, Yugain Sharma EC Robota (Roborace) 2nd Delhi Technical University
Mohd. Kafeel, Yugain Sharma, Piyush Jain EC Transformer's in Action 2nd Amity University, Noida
Rajdeep Gupta, Nitin Rawat, Shrey Bhardwaj, Nitin Dogra EC Formula-1 2nd Amity University, Noida
Nitin Nogra, Nitin Rawat, ShreyBhardwaj, Rajdeep Gupta EC Encephilia (Robot Race) 2nd Jamia Milia Islamia, New Delhi
Mayank Diwedi, Nitin Rawat, ShreyBhardwaj, Nitin Nogra, Rajdeep Gupta EC Water Race 2nd Sharda University, Greater Noida
Rohit Verma, Yugain Sharma EC Drag the War 2nd Amity University, Noida
Yugain Sharma, Rohit Verma EC Robo Wrestling 2nd Amity University, Noida
Badre Alam, Rohit Verma, Mohd. Kafeel, Yugain Sharma EC Robo-Soccer 3rd Delhi Technical University
Rohit Verma, Yugain Sharma, Mayank Dwivedi EC Stasisr 3rd Delhi Technical University
Navita, Ashutosh, Aalekh Rai, Anshu Singh, Abhinav Kumar EC TRYST 2012 5th I.I.T, Delhi
PROJECT TITLE ABSTRACT
SOFTWARE DEFINED SELF HEALING NETWORKING Software defined networking (SDN) is emerging and intensively discussed as one of the most promising technologies to make networks programmable and virtualizable , so that SDN could simplify network operations , reduce cost and accelerate service delivery .Even if openness which gives network customers choice to built best of breed their networks is one of main properties of SDN, open architecture , interfaces ,APIs , etc. are not fully investigated yet. Software Defined Networks (SDN) as a new approach to computer networking which attempts to address these weaknesses of the current paradigm.
CHANNEL ESTIMATION IN OFDM SYSTEMS Orthogonal frequency division multiplexing (OFDM) provides an effective and low complexity means of eliminating inter - symbol interference for transmission over frequency selective fading channels .This technique has received a lot of interest in mobile communications research as the radio channel is usually frequency selective and time variant .In OFDM system , modulation may be coherent or differential .Channel state information (CSI) is required for the OFDM receiver to perform coherent detection or diversity combining , if multiple transmit and receive antennas are deployed .In practice , CSI can be reliably estimated at the receiver by transmitting pilots along with data symbols .
ADVANCE SECURITY AND BIOMETRIC ATTENDANCE SYSTEM. This project is developed by using Radio Frequency Identification (RFID) System and biometrics system , Raspberry Pi Microcontroller , Zigbee and wireless door access system. The main objective of this project is to implement a time attendance system along with a door lock system for secure and reliable applications .The system gives all types of information regarding student registration , in out track record , attendance details which can be used for future reference . In this project both the hardware and software modules are integrated .
SPEECH RECOGNITION USING HMM. The objective of human speech is not merely to transfer word from one person to another ,but rather to communicate ,understanding a thought , a concept or idea. In speech recognition , a person speaks into a microphone , telephone and the computer listens. Automatic speaker recognition is the use of machine to recognize a person from a spoken phrase .ASR application have included voice dialing , call routing , interactive voice response , data entry and dictation , voice command and control structured document creation , appliance controlled by voice and robotics. In this project it will be seen how Hidden Markov Model is used to model speech recognition application .
IMAGE COMPRESSION USING BIO- ORTHOGONAL WAVELET METHOD. Image compression is a process to remove the redundant information from the image .so that only essential information can be stored to reduce the storage size transmission bandwidth and transmission time . The essential information is extracted by various transforms techniques such that it can be reconstructed without losing quality and information of the image. In this project work comparative analysis of image compression is done by four transform method which are DCT , DWT, & Hybrid (DCT+DWT) Transform and fractional Coding.
IMAGE COMPRESSION COMBINED WITH ENTROPY DECODING Principal components analysis ( PCA ) is one of the most widely used techniques for dimension reduction . It exploits the dependencies among the variables and represents the higher dimensional data in the lower dimensional with more amenable form , without losing a countable information .In this project we represent a new image compression technique that uses PCA .The input image is first compressed by using PCA , a few of the Principal components (PCs) are used to reconstruct the image ,while the other less significant PCs are ignored .The reconstructed image is further quantized with either to reduce contouring , occurred due to less number of PCs are used in image reconstruction.
APPLICATION OF COMMON ALERTING PROTOCOL FOR DMS. The Common Alerting Protocol (CAP) is a simple but general format for exchanging all hazard emergency alerts and public warnings over all kind of networks .CAP allows a consistent warning message to be disseminated simultaneously over many different warnings systems , thus increasing warning effectiveness while simplifying the warning task . CAP also facilitates the detection of emerging patterns in local warnings of various kinds , such as might indicate an undetected hazard or hostile act and CAP provides a template for effective warning messages based on best practices identified in academic research and real - world experience.
DIGITAL VIRTUAL LAB In this project we represents a new experience concerning a practical Laboratory for Digital Logic Design that can be accessed from anywhere via the internet .The availability of low cost , high -power , single -board computers like the Raspberry Pi has allowed to create lots of Electronics Project. Through this a low cost Digital Virtual Lab is developed .Our approach was to design a virtual laboratory, using a multimedia platform, namely Digital Virtual Lab which can be access from anywhere via the Internet. Digital Virtual Lab runs as an online application where a user needs to have internet connection and user account before access to the application.
SMALL CAPACITANCE MEASUREMENT A technique for measuring low frequency and low level capacitance variations is proposed. It is based on lock in detection circuit with a feedback loop, containing an integrator and modulator for zeroing the capacitance mean value. This approach provides a good signal to noise ratio and high sensitivity.
WIRELESS POWER TRANSFER This project is designed for transmission of electrical energy from a power source to an electrical load without using man made conductors .Wireless power transmission is useful in cases where interconnecting wires are inconvenient , hazardous or impossible. Solar cells are combined and used to convert light energy into electrical energy to provide higher efficiency.
AGRICULTURAL ROBOT An agriculture robot is a robot deployed for agricultural purposes. The main area of applications of robot in agriculture is at the harvesting stage, Here the use of robotics technologies in various fields and about an upcoming automation technology, Agricultural robotics will be discussed. The main target of this technology is how crop production can increase but not on how to replace human driver with a computer simply.
HIDDEN ACTIVE CELL PHONE DETECTOR This handy, pocket size mobile transmission detector or sniffer can sense the presence of an activated mobile cell phone from a distance of one and a half meters. So it can be used to prevent use of mobiles phones in examination halls, confidential rooms etc. It is also useful for detecting the use of mobile phone for spying and unauthorized video transmission
FINGER PRINT RECOGNITION BASED ELECTRONIC VOTING MACHINE Finger print recognition technology can be used in the Election's making it more efficient, reliable and sustainable .Fingerprint recognition system make use of thumb impression for voter identification as we know that thumb impression of every human being has a unique pattern, thus it would have an edge over the present day voting systems. Creation of a database consisting of thumb impressions of all eligible voters in a constituency is done as a pre poll procedure.
FACE RECOGNITION BASED ELECTRONIC VOTING MACHINE Face is a complex multidimensional structure and needs a good computing technique for recognition .This approach treats face recognition as a two dimensional recognition problem. In this scheme face recognition is done by principal Component Analysis (PCA) .Face images are projected onto a face space that encodes best variation among known face images .
STUDENT PLACED ORGANIZATION NUMBER OF STUDENTS
JITESH SHARMA MAINTEC TECHNOLOGY 9
SACHIN PAL MAINTEC TECHNOLOGY
KAUSTUV CHATTERJEE MAINTEC TECHNOLOGY
PRIYANKA PANDEY MAINTEC TECHNOLOGY
URVASHI MAINTEC TECHNOLOGY
VAIBHAV SHARMA MAINTEC TECHNOLOGY
SHREYA TIWARI MAINTEC TECHNOLOGY
HIMANSHU CHAUDHARY MAINTEC TECHNOLOGY
AMIT BISHT MAINTEC TECHNOLOGY
SACHIN PAL ABSAS 1
AMIL SRIVASTAV INDIAN ARMY 1
JITESH SHARMA DIGI TELE SERVICES 1
NAKUL JAIN FORTUNE MARKETING 1
ANKUR ARN INFOTECH 5
AMIT BISHT ARN INFOTECH
SHARAD ARN INFOTECH
JITESH SHARMA ARN INFOTECH
CHANDAN MAHTO ARN INFOTECH
ASHISH GARG ARDEN TELECOM 6
AMIT BISHT ARDEN TELECOM
KAUSTUV CHATTERJEE ARDEN TELECOM
SUSHMITA GOSH ARDEN TELECOM
CHANDAN MAHTO ARDEN TELECOM
RAJAT SHUKLA ARDEN TELECOM
MANPREET CMS IT SERVICES 6
RAHUL CMS IT SERVICES
PRIYANKA PANDEY CMS IT SERVICES
VARUN CMS IT SERVICES
AMIT BISHT CMS IT SERVICES
NISHA CMS IT SERVICES




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