Department of Electronics & Communication Engineering

The department of Electronics and Communication offers UG and PG courses. The department has well furnished laboratories and digital class rooms, software and Central library with more than 15000 volumes of text books and reference books with subscribed e-journals The department has well qualified and competent faculties who are abreast with the latest technologies. The department has state of art infrastructure and also has laboratories equipped with latest equipment and testing facilities.

Vision of the Department

To create technocrats in the field of Electronics and Communication Engineering through an effective teaching-learning process, to make them competent in futuristic analytical and design skills with professional ethics.

Mission of the Department

  1. To provide appropriate facilities and environment for the effective teaching-learning process
  2. To ensure the availability of intellectual assets in terms of qualified faculty committed to the cause of developing competent engineers.
  3. To put in dedicated efforts for inculcating human values in the students through motivational classes, extracurricular and co-curricular activities.
  4. To provide value-added courses through Industry-Institute interactions.
  5. To make students competent for higher studies and to develop entrepreneurial skills for enhancing their employability.

Program Educational Objectives (PEOs)

PEO 1: Work as an Electronics and Communication professional in the area of software development, networking, electronic and communication industries by applying fundamental and practical knowledge.

PEO 2: Engage in research, higher studies or entrepreneurship by adopting emerging technology and trending scientific knowledge.

PEO 3: Use acquired knowledge of Electronics and Communication Engineering to provide real-life solutions to technical problems with societal, environmental and ethical responsibility.

Program Specific Outcomes (PSOs)

PSO-1: The ability to create, design, and test the specify electronic communication systems for analog and digital signal processing as per industry requirements.
PSO-2:The ability to Formulate, solves, design and implement the realistic problems of society relevance to VLSI and embedded industries.

PSO-3: Graduates will be able to Formulate, solve and adopt rapid changes in tools and technology with appropriate consideration of social and environmental issues.

Program outcomes (POs)

PO-1: Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.
PO-2: Problem analysis: Identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences.
PO-3: Design/development of solutions: Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for the public health and safety, and the cultural, societal, and environmental considerations.
PO-4: Conduct investigations of complex problems: Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions.
PO-5: Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modelling to complex engineering activities with an understanding of the limitations.
PO-6: The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice.
PO-7: Environment and sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development.
PO-8: Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
PO-9: Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
PO-10: Communication: Communicate effectively on complex engineering activities with the engineering community and with society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.
PO-11: Project management and finance: Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments.
PO-12 Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.

Course Outcomes (COs)

Subject & Code

B-Tech 3rd Semester

BT301 Mathematics-III

  C301-1:       Solve algebraic and transcendental equations using Bisection method, Regula-falsi method and Newton-Raphson method.

 C301-2:        Apply the partial differentiation to find Total derivative and Gauss’s Jordan, Crout’s methods, Jacobi’s of a given multivariable functions.

 C301-3:        Solve differential equation using numerical methods.(Taylor’s series, Euler’s, Picard’s and Runge Kutta Milne’s and Adam’s predicator-corrector) methods.

 C301-4:        Develop the skill of evaluating Laplace and inverse Laplace transform to solve linear equations.

 C301-5:        Evaluate Probability function, Density and Distribution which occur in engineering applications governed by the Binomial, Poisson, methods.

EC-302 Electronic Measurements and Instrumentation

Students will be able to:

  C302.1:        Measure voltage, current and power using electronic instrument.

  C302.2:        Demonstrate the working and application of CRO.

  C302.3:        Determine the unknown inductance, capacitance, frequency and resistance using A.C. bridges.

  C302.4:        Analyze the characteristics of transducers for electronics projects.

  C302.5:        Analyze  analog to digital and digital to analog converter

EC-303

Digital System Design

Students will be able to:

  C303.1:         Apply the concept of digital number systems and Boolean expressions in   digital complex functions.  

  C303.2:         Design the combinational and sequential logic circuits

  C303.3:         Illustrate  logic families and semiconductor memories

  C303.4:         Design registers and counters for  synchronous  and asynchronous digital system

EC-304

Electronic Devices

Students will be able to:

  C304-1:         Analyze the characteristics of the semiconductor  diodes, schottky diode and photo diodes.

  C304-2:         Design clipper, clamper, rectifiers and regulated supply

  C304-3:         Analyze biasing and load line characteristics of bipolar junction transistor under CB, CE and CC configuration.

  C304-4:         Design small and large signal amplifiers.

  C304-5:         Analyze the characteristics of FET, UJT and  thyristors

EC-304 Lab

Electronic Devices

CL304.1:         Test the characteristics of the semiconductor diodes.

CL304.2:         Design the clipper and clamper circuits.

CL304.3:         Analyze the biasing and load line characteristics of bipolar junction transistor under CB, CE and CC configuration.

CL304.4:         Analyze small and large signal amplifiers.

CL304.5:         Test the characteristics of FET, UJT and thyristors.

EC-305

Network Analysis

Students will be able to:

  C305-1:       Solve complex circuit problems using Tree, Node, Branch, Cut set, Tie Set Methods.

  C305-2:       Choose appropriate network theorems for complex Circuits

  C305-3:       Apply the transient, steady state response and Laplace transform for complex circuit problems.

  C305-4:       Determine the electrical parameters and interconnection properties  using two port network

  C305-5:       Design electrical network for project work and electronics circuit application

EC-305 Lab

Network Analysis

Students will be able to:

CL305.1:         Measure voltage, current and power of electrical network.

CL305.2:         Choose appropriate network theorems for solving the  complex circuits

CL305.3:         Apply the transient, steady state response and Laplace transform for complex Circuit problems.

CL305.4:         Measure the electrical parameters and interconnection properties  using two port network

CL305.5:         Design electrical network for  electronics circuit application.

 

 

Subject & Code

B-Tech 4th  Semester

ES401

Energy & Environmental

Engineering

Students will be able to:

  C401-1:         Survey the energy systems and resources, storage of energy and its applications.

  C401-2:         Utilize Structure and function of an ecosystem to control environmental issues.

  C401-3:         Evaluate the concept of biodiversity for  social, ethical at global, levels

  C401-4:         Justify sustainable development  for environmental issues

  C401-5:        Compare the Land filling, open dumping, recycling, and insemination methods related to environmental issues.

EC402

Signals & Systems

Students will be able to:

  C402-1:       Classify the characteristics of signal for analog and digital communication systems.

  C402-2:       Analyze the implications of linearity, time-invariance, causality, memory, and bounded-input, bounded out (BIBO) stability.

  C402-3:       Apply the properties of Z-transform for Linear Time Invariant system.

  C402-4:       Solve the problems of discrete time signals using Fourier transform and Fourier series.

  C402-5:       Analyze the characteristics of state space, matrix operation and sampling theorem.

EC403

Analog Communication

Students will be able to:

  C403.1:      Apply the concepts and properties of Fourier Transform in Analog communication system.

  C403.2:      Analyze the amplitude, frequency modulation and demodulation techniques of the transmitter and receiver.

  C403.3:      Evaluate the image signal rejection, selectivity, sensitivity and fidelity parameters for AM transmitter& receiver.

  C403.4:      Classify the noise and their parameters in AM and FM transmitter and receiver.

  C403.5:      Demonstrate the block diagram of AM, FM transmitter and receiver.

EC403

Analog Communication

(Lab)

  C403.1:      Demonstrate the AM, FM transmitter and receiver.

  C403.2:      Measure parameters of amplitude modulation and demodulation.

  C403.3:      Measure parameters of frequency modulation and demodulation.

  C403.4:      Demonstrate pre-emphasis, de-emphasis and AGC circuits.

  C403.5:      Examine  analog modulated waveform and modulation index in time/frequency domain

EC404

Control System

Students will be able to:

  C404.1:      Solve open and closed loop transfer function using block diagram reduction and signal flow graphs. method

  C404.2:      Analyze the stability response of control system using Routh-Hurwitz criterion and Root Locus technique.

  C404.3:      Test the stability of control systems using Bode Plot, Polar plot and Nyquist Plot.

  C404.4:      List the performance of compensators and controllers by using compensation techniques.

  C404.5:      Analyze the state space representation of system   using transfer function decomposition, state equation, controllability and observability.

EC405

Analog Circuits

Students will be able to:

  C405.1:      Design the feedback amplifiers and oscillators circuits for electronics application.

  C405.2:      Illustrate the ideal and practical characteristic of operational amplifier.

  C405.3:      Design filters using operational amplifier

  C405.4:      List the wave shaping and multivibrator circuits using Op-Amp.

  C405.5:      Design the voltage regulator and dual power supply using Op-Amp.

EC405

Analog Circuits       (Lab)

CL405.1:      Design the feedback amplifiers and oscillators for electronics circuit application.

CL405.2:      Test the characteristic of operational amplifier.

CL405.3:      Design amplifiers, oscillator’s and filters using operational amplifier

CL405.4:      Analyze the wave shaping and multivibrator circuits using Op-Amp.

CL405.5:      Design the voltage regulator and dual power supply using Op-Amp.


Prof. (Dr.) Rajesh Nema

Head of the Department 

Dr. Rajesh Kumar Nema, Head of Department, Electronics & Communication Engineering at IES College of Technology, Bhopal completed his PhD from UIT RGPV Bhopal in 2017, titled “Optimal Gain Mutli-bandwidth Micro strip antenna for pervasive wireless communication”. He did his M. Tech in Microwave and Millimetre wave from MANIT, Bhopal.

He is a highly energetic, dynamic and self-motivated person with 19 Years of teaching experience. He has published more than 50 research publications in National and International Journals and conference proceedings including SCI and Scopus. He is a Life Fellow Member of the Indian Society for Technical Education (ISTE). He is also a reviewer of many Journals.

He has reviewed 2 Ph.D. and 30 dissertations at the PG level. His research and development areas are Microwave and Antenna design. He has applied for research grants in DST “An Optimal Design of mm-Wave Massive MIMO Antenna Array for upcoming 5G Communication Technology”. He has been awarded sliver certification in Antenna Design by IIT Bombay

Dr. Rajesh Kumar Nema, is certified in the National Board of Accreditation program for undergraduate programs conducted by IIT Madras and NITTTR Bhopal. He worked as program Coordinator for conducting training on Sci-Lab under Spoken Tutorial IIT Bombay. He has conducted various training as an instructor on PCB Design, MATLAB, SCI-LAB, Electromagnetic simulator IE3DTM and LT-Spice.

He has handled position of responsibilities such as Head of Department, PG Coordinator and Research Coordinator, etc., organizing various training programs, workshops, seminars, conferences, and expert lectures of highly skilled and leading field experts of national level.

As a Departmental Head, Dr. Rajesh Kumar Nema provides a cooperative and helpful environment to the faculty members, and gives the best guidance to the students of Electronics & Communication Engineering. He ensures proper theoretical, technical and practical exposure to students makes them competent as per the global benchmarks His Area of interest and Research is Microwaves and Antenna System Design and his Interest.

Patents Filed

    1. Patent Reference Number: AMCZ-2110341332. Title “An Apparatus and System For Denoising Signals Using Wavelet”
    2. Patent Reference Number: 348826-001. Title “Backfire Micro-strip Patch Antenna”
    3. Patent Reference Number: 202121042610. Title “A Backfire Antenna Meta-material device for wireless charging system”

Vision of the Department

To create technocrats in the field of Electronics and Communication Engineering through an effective teaching-learning process, to make them competent in futuristic analytical and design skills with professional ethics.

Mission of the Department

  1. To provide appropriate facilities and environment for the effective teaching-learning process
  2. To ensure the availability of intellectual assets in terms of qualified faculty committed to the cause of developing competent engineers.
  3. To put in dedicated efforts for inculcating human values in the students through motivational classes, extracurricular and co-curricular activities.
  4. To provide value-added courses through Industry-Institute interactions.
  5. To make students competent for higher studies and to develop entrepreneurial skills for enhancing their employability.

Program Educational Objectives

PEO 1: Work as an Electronics and Communication professional in the area of software development, networking, electronic and communication industries by applying fundamental and practical knowledge.

PEO 2: Engage in research, higher studies or entrepreneurship by adopting emerging technology and trending scientific knowledge.

PEO 3: Use acquired knowledge of Electronics and Communication Engineering to provide real-life solutions to technical problems with societal, environmental and ethical responsibility.

Program Specific Outcomes (PSO's)

PSO-1: The ability to create, design, and test the specify electronic communication systems for analog and digital signal processing as per industry requirements.
PSO-2:The ability to Formulate, solves, design and implement the realistic problems of society relevance to VLSI and embedded industries.

PSO-3: Graduates will be able to Formulate, solve and adopt rapid changes in tools and technology with appropriate consideration of social and environmental issues.

Program outcomes (PO's)

PO-1: Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals to solve the problem of Electronics and Communication field.
PO-2: Problem analysis: Identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and electronics and communication engineering.
PO-3: Design/development of solutions: Design solutions for complex problem related to Electronics and Communication Engineering system, component, or process to meet desired needs within the realistic constraints such as economic, environmental, social, political, ethical, health and safety, Manufacturability and sustainability.
PO-4: Conduct investigations of complex problems: Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions.
PO-5: Modern tool usage: Use the techniques, skills, and modern engineering tools necessary for engineering practice.
PO-6: The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional Electronics and Communication engineering practice.
PO-7: Environment and sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development.
PO-8: Ethics: The broad education necessary to understand ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
PO-9: Individual and team work: An ability to work effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary approaches.
PO-10: Communication: Communicate effectively on complex engineering activities with the engineering community and society as well as comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.
PO-11: Project management and finance: use modern electronic design tools, software and electronic equipment for understanding of engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments.
PO-12Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.

Course Overview

Degree Program Sanctioned Intake
Bachelor of Engineering (B.Tech) Electronics and Communication Engineering 60
Master of Engineering (M.E.) Embedded System and VLSI Design 18

Departmental Activities

Academic Year

2023-24 2022-23

2021-22

2020-21

Total

Industrial Visits

4

4

4

-

12

Training Program

2

4

3

2

11

Expert session

6

11

9

8

34

No of FDPs/Workshops Conducted

2

4

4

1

11

Seminar

1

1

1

-

3

Conferences

-

1

2

-

3

Consultancy Projects

Year Company Amount
2021-22

BHARAT COMPUTER SERVICE

SAM Systems

HLBS

200000

100000

300000

2022-23

BHARAT COMPUTER

SAM SYSTEM

HLBS

200000

200000

275000

2023-24

IT Solutions

Artest Solutions pvt . Ltd

HLBS

325000

600000

250000

Sponsor Research

Session

Name of the Faculty Project Title Project Type Research/ Consultancy

Funding Agency

Amount

Duration

2023-24

Dr. Pramod Kumar Patel

Design of high performance drones for transportation and logistics

Research

MPCST Bhopal

800000

3 Years

2023-24

Dr. Rajesh Kumar Nema

One Week AICTE Training and Learning (ATAL) Academy Faculty Development Program (FDP) “Technologies, Challenges, & Research Directions of 6G Wireless Communication Systems” 15th to 20th January 2024

FDP Grant

AICTE ATAL FDP

350000

One Week

2021-22

Dr. Rajesh Kumar Nema

National virtual conference of Recent Development of 6G Wireless Communications

Conference Grant

AICTE

50000

Research Publications

Authors

Journal/ conference Title DOI Link

Date of Publication

Dr. Rajesh Nema

Advances in Data-Driven Computing and Intelligent Systems Lecture Notes in Networks and Systems book series (LNNS,volume 698)

GuardianOpt: Energy Efficient with Secure and Optimized Path Election Protocol in MANETs

https://link.springer.com/chapter/10.1007/978-981-99-3250-4_46

04 August 2023

Dr. Pramod Patel

2023 3rd International Conference on Energy, Power and Electrical Engineering (EPEE), Wuhan, China, 2023

Efficiency Evaluation of Solar PV Array with Improved Performance,"

10.1109/EPEE59859.2023.10351821

11/1/2023

Dr. Pramod patel

2023 3rd International Conference on Energy, Power and Electrical Engineering (EPEE), Wuhan, China, 2023

A Mini Review on MEMS Switches: Design, Fabrication, and Applications

10.1109/EPEE59859.2023.10351866

11/1/2023

Dr. Shweta Singh

intelligent computing and networking ( springer )

Controlling Project Execution in the Era of Soft Computing and Machine Learning

https://doi.org/10.1007/978-981-99-3177-4_28

8/23/2023

Ashish Raghuwanshi

2023 3rd International Conference on Energy, Power and Electrical Engineering (EPEE)

Ternary Half Adder Using DGFET Technology for Low Power Applications

10.1109/EPEE59859.2023.10351822

11/1/2023

Ashish Raghuwanshi

2023 3rd International Conference on Technological Advancements in Computational Sciences (ICTACS)

FPGA Architecture of Bilateral Filter for Image-Denoising

https://ieeexplore.ieee.org/document/10390372

1/25/2024

Ashish Raghuwanshi

2024 3rd International Conference on Technological Advancements in Computational Sciences (ICTACS)

FPGA Implementation of High-Performance Accurate and Approximate Multiplier

10.1109/ICTACS59847.2023.10390463

1/25/2024

Renu Yadav

2023 3rd International Conference on Energy, Power and Electrical Engineering (EPEE), Wuhan, China, 2023

Power Quality Enhancement in Wind-Hydro Based Hybrid Renewable Energy System by Interlocking of UPQC

10.1109/EPEE59859.2023.10352036

11/1/2023

Ankit Verma

2023 3rd International Conference on Technological Advancements in Computational Sciences (ICTACS)

Secure Data Sharing and Mining in Distributed Environments

 10.1109/ICTACS59847.2023.10389943

1/1/2024

Renu Yadav

2023 3rd International Conference on Technological Advancements in Computational Sciences (ICTACS)

Machine Learning for Cardiac Disease Detection and Family History Association

10.1109/ICTACS59847.2023.10389961

11/1/2023

Rakesh Singh

2023 3rd International Conference on Technological Advancements in Computational Sciences (ICTACS)

Fire Monitoring Method of Ancient Building Repair Stage Based on Machine Learning Algorithm

10.1109/SmartTechCon57526.2023.10391500

8/1/2023

Jamvant Omkar

2023 Second International Conference On Smart Technologies For Smart Nation (SmartTechCon)

Research on Majorization Algorithm and Application of Geotechnical Engineering Structure Based on Granule Swarm Majorization

https://ieeexplore.ieee.org/document/10391364

1/1/2024

Antima Saxena

2023 IEEE World Conference on Applied Intelligence and Computing (AIC)

Comparative Analyses of Multi-Wavelength Converters Based on Electro Absorption Modulators at Various Data Rates

10.1109/AIC57670.2023.10263947

10/1/2023

Santosh Kumar Yadav

2023 Second International Conference On Smart Technologies For Smart Nation (SmartTechCon)

Research on Graphic Design Image Processing Technology Based on Newton's method in Photoshop

10.1109/SmartTechCon57526.2023.10391390

1/1/2024

Naim Ansari

2023 Second International Conference On Smart Technologies For Smart Nation (SmartTechCon)

Statistical Analysis of Ecological Mathematical Model Based on Data Warehouse

 10.1109/SmartTechCon57526.2023.10391642

8/1/2023

Ashish Raghuwanshi

2023 3rd International Conference on Technological Advancements in Computational Sciences (ICTACS)

Recent Advances, Challenges, and Applications of Deep Learning in Healthcare Systems for Medical Diagnosis and Treatment

10.1109/ICTACS59847.2023.10390124

1/1/2024

Vishal Mehra

2023 Second International Conference On Smart Technologies For Smart Nation (SmartTechCon)

Research on Piano Music Recommendation Algorithm Based on Time-Frequency Information

10.1109/SmartTechCon57526.2023.10391791

Neha Shrivastava

2023 IEEE Renewable Energy and Sustainable E-Mobility Conference (RESEM)

Innovative Method for Enhancing E-Bikes Performance through riding mechanical force

10.1109/RESEM57584.2023.10236065

9/1/2023

Aizaz Tirmizi

IEEE Embedded Systems Letters

Approximate row-merging-based multipliers for Neural Network acceleration on FPGAs

10.1109/LES.2023.3304678

8/1/2023

Ashish Raghuwanshi

International Conference on Newer Engineering Concepts and Technology (ICONNECT-2023)

Hand Gesture and Voice Assistants

https://doi.org/10.1051/e3sconf/202339904050

7/1/2023

Neha Shrivastava

International Conference on Newer Engineering Concepts and Technology (ICONNECT-2023)

MEM Based Hand Gesture Controlled Wireless Robot

https://doi.org/10.1051/e3sconf/202339901013

7/1/2023

 Annapurna N Tiwari

International Conference on Newer Engineering Concepts and Technology (ICONNECT-2023)

Sea Water Channel for Underwater Communication

https://doi.org/10.1051/e3sconf/202339901015

7/1/2023

Renu Yadav

3rd IEEE International Conference onICT in Business Industry and Government (IEEE ICTBIG-2023)

Biometric Netork Security Enhencements through deep learning tecniques

11/1/2023

Sonulal

3rd IEEE International Conference onICT in Business Industry and Government (IEEE ICTBIG-2023)

End-to-end Network security solutions using deep learning algorithm

11/1/2023

Neha Shrivastava

3rd IEEE International Conference onICT in Business Industry and Government (IEEE ICTBIG-2023)

Cryptograpgyic key management Using Neural Network Algorithm

11/1/2023

Jamvant Omkar

3rd IEEE International Conference onICT in Business Industry and Government (IEEE ICTBIG-2023)

Evoluntionary Algorithms for Deep Learning in Secure Network Environments

11/1/2023

Santosh Kumar Yadav

3rd IEEE International Conference onICT in Business Industry and Government (IEEE ICTBIG-2023)

Predictive Analysis of Zero Day Vulnerabilities Using Deep Neural Networks

11/1/2023

Annapurna Nand

3rd IEEE International Conference onICT in Business Industry and Government (IEEE ICTBIG-2023)

Machine Learning Stretegies in Quntum Resistance Network Security Protocols

11/1/2023

Rohit Vaish

3rd IEEE International Conference onICT in Business Industry and Government (IEEE ICTBIG-2023)

Transfer Learning Innovations in network Security and Threat Intelligence

11/1/2023

Ankit Verma

3rd IEEE International Conference onICT in Business Industry and Government (IEEE ICTBIG-2023)

Automated Malware Classification using Deep learning Neural Network

11/1/2023

Antima Saxena

3rd IEEE International Conference onICT in Business Industry and Government (IEEE ICTBIG-2023)

Advanced Threat Forecasting using Machine Learning Algorithm

11/1/2023

Rakesh Singh

3rd IEEE International Conference onICT in Business Industry and Government (IEEE ICTBIG-2023)

Real time phishing Attack through advanced Machine Learning Techniques

11/1/2023

Anil Sharma

3rd IEEE International Conference onICT in Business Industry and Government (IEEE ICTBIG-2023)

Machine Learning Protocols for Enhenced Cloud Network Security

11/1/2023

Md Naim Ansari

3rd IEEE International Conference onICT in Business Industry and Government (IEEE ICTBIG-2023)

Secure data Algorithm in Deep Learning for Enhenced Network Protection

11/1/2023

Vishal Mehra

3rd IEEE International Conference onICT in Business Industry and Government (IEEE ICTBIG-2023)

Predictive Machine Learning Models for DDoS Attack

11/1/2023

Mrs. Deepmala Singh

2024 IEEE International Students' Conference on Electrical, Electronics and Computer Science

Harnessing the Power of Nature: A Short Review of Renewable Energy Resources

2/24/2024

Dr Rajesh K. Nema

Circular Polarized Triple Band Micro-strip Patch Antenna for S-C- X Band Communication

2022 International Conference on Intelligent Controller and Computing for Smart Power (ICICCSP

9/22/2023

Dr Rajesh K. Nema

Broad Band Antenna for S-Band Wireless
Communication

2022 International Conference on Intelligent Controller and Computing for Smart Power (ICICCSP)

10.1109/ICICCSP53532.2022.9862428

8/22/2023

Dr. Shweta Singh

IoT Equipment ID and Blockchain Driven Internet Fused Learning

10.1109/ICIEM54221.2022.9853098

17th august. 2022

Ashish Raghuwanshi

Floating Multiplier based Matrix Multiplication using PPI-MO Technique

2023 7th International Conference on Intelligent Computing and Control Systems (ICICCS)

10.1109/ICICCS56967.2023.10142287

6/8/2023

Academic Calendar

Academic Calander

Labs Facility

ANALOG AND DIGITAL COMMUNICATION LAB

ANTENNA LAB

DIGITAL SYSTEM DESIGN LAB

    EDC LAB


NETWORK ANALYSIS & SYNTHESIS LAB

OPTICAL COMMUNICATION LAB

PROJECT LAB

MICROPROCESSOR & MICROCONTROLLER LAB

Faculty Achievements & Awards

Dr. Rajesh Kumar Nema sucessfully completed AICTE Trainning and Learning (ATAL) at MANIT


Mr. Sonu Lal attending webinar on "Commercial use of Antennas"

Dr. Pramod Kumar Patel attended one week faculty development program on "Modern Cryptography, Blockchain & IoT Security"

Mr. Ashish Raghuwanshi is course coordinator during the one day blended mode workshop on "eSim"

Industrial Visit

Student experienced the know-how about weather report recorded forecasting and broadcasted to all over station and working of different electronics equipments and measurements are seen.

Student Visited various lab VLSI Design, Fiber Optic Networking, Electrical Control and Relay Logic Application, Electronics Maintenance, Power Electronics and Industrial Drives and learned about Instruments application in electronics field.

Students Achievements

Workshops

IES Students Participated in HR Enclave 4.0 

IES Students Participated in MATLAB Workshop 2019 

IES Students Participated in National Student Startup & Innovation Summit 2019

IES Students Participated in Solar Workshop 2019 at MANIT, Bhopal