Innovation in Teaching and Learning

Case Study - I

Name of the students: 

S.N ROLL NO NAME
1 0192CS191090 NISHANT RAJ
2 0192CS191133 SASHANT PRATAP SINGH
3 0192CS191044 GAURAV KUMAR
4 0192CS191046 GHANSHYAM PRAJAPATI

Faculty Mentor: Prof.Shraddha Saxena

Introduction: In response to the growing need for digital literacy in rural areas, our initiative, "Empowering Rural Communities through Digital Literacy," was launched in collaboration with local stakeholders and community leaders. The aim was to bridge the digital divide, empower individuals with essential digital skills, and create opportunities for socio-economic development in rural regions. The targeted rural community, located at Rapadia Village, Bhopal, faced challenges associated with limited access to technology, digital education, and online resources. Many residents lacked basic computer skills, internet literacy, and knowledge of digital tools necessary for modern-day communication and learning.

Objectives:

  1. To provide comprehensive digital literacy training to residents of all age groups.
  2. To equip participants with essential computer skills, internet usage knowledge, and proficiency in digital applications.
  3. To foster a culture of lifelong learning, digital communication, and online collaboration among community members.
  4. To empower individuals to access online resources for education, employment opportunities, government services, and entrepreneurship.

Implementation:

The initiative was implemented through a structured training programs, workshops, and
community engagement activities:

  1. Digital Literacy Workshops: Basic computer training sessions were conducted to familiarize participants with hardware, software, internet browsing, email usage, and Microsoft Office applications.
  2. Internet Literacy Training: Participants learned how to navigate the internet safely, search for information, evaluate online content, and use online platforms for communication and research.
  3. Skill Development Programs: Advanced workshops were organized on topics such as digital marketing, e-commerce, online banking, and using mobile applications for daily tasks.

Impact and Outcomes:

  1. Enhanced Education Access: Participants gained access to online educational resources, e-learning platforms, and digital libraries, expanding their learning opportunities.
  2. Skill Development: Over 80 participants acquired foundational and advanced digital skills, empowering them to navigate the digital world confidently.
  3. Improved Employability: Digital literacy skills increased participants' employability by enabling them to apply for online jobs, participate in remote work opportunities.
  4. Empowerment of Women and Youth: Special focus was given to empowering women and youth through targeted digital skills training, creating pathways for economic independence.
  5. Community Development: Digital literacy contributed to community development through enhanced communication, digital collaboration, and access to government services, health information, and financial tools.
  6. Community Engagement: The initiative fostered a sense of community pride, collaboration, and knowledge sharing, leading to collective problem-solving and innovation.

Future Plans:

The success of "Empowering Rural Communities through Digital Literacy" laid the foundation for
sustainable initiatives, including:

  • Establishing a Digital Resource Centre (Dedicated spaces equipped with computers, internet access, and educational materials for continuous learning and practice.)in local schools or colleges.
  • Partnering with local schools, colleges, and businesses to integrate digital literacy into formal education and vocational training.
  • Advocating for government support, funding, and policy initiatives to expand digital infrastructure, internet access, and digital inclusion efforts in rural areas

Conclusion:

The initiative not only empowered individuals with digital skills but also catalysed socio-economic development, fostered community resilience, and paved the way for a digitallyinclusive future.

Case Study - II

Title:Digital Agricultural Extension Services for Rural Farmers

Name of Students:

S.N ROLL NO NAME
1 0192CS191019 AKSHAT SHARMA
2 0192CS191126 SANDEEP DHAKAD
3 0192CS191007 ABHISHEK NAGAR
4 0192CS191084 MUKESH PRAJAPATI

Faculty Mentor: Prof. Ram Sahu

Introduction: The "Digital Agricultural Extension Services for Rural Farmers" initiative was launched to address the challenges faced by rural farmers in accessing timely and relevant agricultural information, resources, and expert guidance. The program utilized digital technologies to enhance agricultural practices, improve productivity, and empower farmers with knowledge and tools for sustainable farming. The targeted rural areas, situated at Kanasaiya village, Bhopal, were characterized by small-scale farming, limited access to modern agricultural practices, and a lack of real-time information on weather, market trends, pest control, and crop management. Farmers often relied on traditional methods and faced uncertainties due to changing climate patterns and market dynamics.

Objectives:

  1. To provide farmers with access to digital platforms for receiving agricultural information, advisories, and best practices.
  2. To connect farmers with agricultural experts, government agencies, and market stakeholders through digital communication channels.
  3. To promote sustainable farming practices, resource optimization, and climate-resilient agriculture.
  4. To enhance farmers' decision-making abilities, crop management skills, and income generation opportunities through technology adoption.

Implementation:

The initiative was implemented through a multifaceted approach leveraging digital tools and platforms:

  1. Mobile Apps and SMS Services: Farmers were provided with the information of mobile applications and SMS-based services for receiving real-time weather updates, crop advisories, market prices, and expert recommendations.
  2. Online Training and Webinars: Interactive training sessions and webinars were conducted on topics such as crop rotation, soil health management, organic farming, pest and disease control, and water conservation.
  3. Virtual Consultations: Farmers could schedule virtual consultations with agricultural experts, agronomists, and extension officers to address specific farming challenges, seek advice, and receive personalized recommendations.
  4. Digital Market Linkages: Platforms were suggested to connect farmers directly with buyers, agribusinesses, cooperatives, and e-commerce platforms, facilitating fair pricing and market access.

Impact and Outcomes:

  1. Knowledge Empowerment: Farmers gained access to up-to-date agricultural information, scientific practices, and market intelligence, leading to informed decision-making and improved crop yields.Farmers reported significant improvements in crop yields, quality, and resilience.
  2. Income Generation: Enhanced market access and better price realization resulted in increased incomes for farmers, contributing to poverty alleviation and rural economic growth.
  3. Resource Optimization: Adoption of digital tools and precision agriculture techniques helped farmers optimize resource usage, reduce input costs, and enhance productivity while conserving natural resources.
  4. Risk Mitigation: Timely weather alerts, pest outbreak notifications, and disease management strategies enabled farmers to mitigate risks, protect crops, and minimize losses.
  5. Better Market Access and Income Generation: Digital market linkages expanded farmers' access to diverse markets, improved price transparency, reduced middlemen's influence, and empowered farmers in negotiating fair prices for their produce.Enhanced market access and better price realization resulted in increased incomes for farmers.
  6. Sustainability: Emphasis on sustainable farming practices, organic cultivation methods, and climate-smart agriculture promoted environmental conservation, soil health, and resilience to climate change impacts.
  7. Knowledge Sharing: Farmers engaged in knowledge sharing networks, peer learning, and community forums, fostering a culture of collaborative learning and innovation.

Future Plans:

The success of the digital agricultural extension services paved the way for sustained efforts and future expansion:

  1. Scaling up digital platforms, content delivery mechanisms, and user engagement strategies to reach more farmers and remote communities.
  2. Collaborating with government agencies, NGOs, and private sector partners to strengthen digital infrastructure, connectivity, and rural development initiatives.

Conclusion:

The "Digital Agricultural Extension Services for Rural Farmers" initiative demonstrated the transformative potential of digital technologies in empowering farmers, enhancing agricultural productivity, fostering rural development, and building resilience in the face of evolving agricultural challenges.

Research Activity - I

Name of Faculty: .Prof. Rakesh Kumar Tiwari

No of students involved in the activity:

S.N ROLL NO NAME
1 0192CS201010 ADITYA KULSHRESTHA
2 0192CS201016 AKASH MEENA
3 0192CS201020 AMIT KUMAR KORI
4 0192CS201041 ASTHA SONI

Abstract:
For years, people have disputed whether or not to allow internet voting. Since the advent of block chain, the immutability feature has enabled the absolute security of Internet voting. Ethereum provides a block chain-based framework for decentralized applications such as voting systems. Any system that functions democratically must have a fair voting procedure because it allows people the ability to express their opinions. The current method has a problem since it uses Electronic Voting Machines (EVM), which save data locally and are centralized. Since the information is kept locally on the EVM(s) until the election is over, it might be hacked. Additionally, there have actually been instances of "booth hijacking" during the elections in several locations. There have been numerous claims in recent years that EVMs were hacked and that this caused the elections to be rigged. Unfortunately, the current system does not have any mechanism that could be used to demonstrate that a certain vote was cast correctly and that the EVM was not tampered with. A new, decentralized, and distributed technology called the block chain has the potential to improve numerous industries' various facets. Adding block chain technology to e-voting could help address the current issues with e-voting because it is a nearly hack-proof method of recording transactions. This work addresses the challenges with present internet voting and proposes a trustworthy and secure electronic voting system built on the Ethereum network. Because people could cast their ballots without going to the polls, it would boost accessibility. Its implementation makes use of the Ethereum block chain and smart contracts.

Objectives

  • Voter eligibility and voting: Only registered voters are eligible to participate in a particular election session; only registered voters who have undergone additional verification prior to voting are permitted to participate in voting; every vote is counted; and there will be no votes that are invalid of any kind if a vote is cast by a registered and verified voter.
  • Multiple voting is not permitted: Multiple voting from a single voter appears to be a problem for online voting, however it is readily avoided in blockchain-based voting systems, especially those that use Ethereum as the platform: The status of a voter changes to "voted" (or various variants of "voted") once they have cast a vote and can no longer cast more votes; instead, they can only confirm the vote they have already placed.
  • Voting integrity: The outcome of any vote cannot be changed. Published source code is required: Before going into effect, the voting system's source code should be examined.
  • Voter privacy: Despite the fact that the source code for the voting system is open to the public, all information pertaining to voters and votes must be kept in a private database.

Extension work based on this research work

In order to improve the block chain technology's resistance to the "double spending" problem, which translates to "double voting" for electronic voting systems, we are continuing this effort. Although the block chain technology is quite effective at detecting malleable change in a transaction, successful proof of such events has been made, which encourages us to look into it more. In order to accomplish an end-to-end verifiable e-voting scheme, we believe it will be essential to develop an efficient approach to establish reliable provenance for e-voting systems. An extra provenance layer to support the current blockchain-based infrastructure is being developed as part of the effort to accomplish this.

Research Activity - II

Name of Faculty: Dr. Amit Khare

No of students involved in the activity:

S.N ROLL NO NAME
1 0192CS201037 ARADHYA JAIN
2 0192CS201061 HARSH SHRIVASTAVA
3 0192CS201147 SATYENDRA KUMAR
4 0192CS201148 SAURABH PATEL

Brief Information of Research Work:

Rural development remains a critical issue in many regions around the globe, as rural areas often face unique challenges such as limited access to basic infrastructure, healthcare, education, and economic opportunities. This paper explores various strategies and initiatives aimed at enhancing rural development, drawing on a comprehensive review of literature and case studies from diverse geographical contexts. The paper examines the role of government policies, community-based approaches, technological innovations, and public-private partnerships in fostering sustainable rural development. Additionally, it analyses the socio-economic and environmental impacts of rural development interventions, highlighting both successes and challenges encountered in implementation. Special attention is given to the importance of inclusive and participatory approaches that empower local communities and leverage their knowledge and resources. Furthermore, the paper discusses emerging trends and future directions in rural development, including the potential of digital technologies, sustainable agriculture practices, and integrated rural-urban planning. By synthesizing key insights from existing research and practice, this paper aims to inform policymakers, practitioners, and scholars about effective strategies for promoting rural development and addressing the complex and interconnected challenges faced by rural communities in the 21st century.

Outcome of the work till date:

  1. Community Empowerment: The paper's emphasis on inclusive and participatory approaches may have empowered local communities by highlighting the importance of leveraging their knowledge and resources in the development process. It could have inspired community-led initiatives and collaborations with external stakeholders.
  2. Technological and Innovation Adoption: The paper's discussion of technological innovations and sustainable practices may have encouraged the adoption of new technologies and approaches in rural development projects. It could have facilitated knowledge exchange and capacity building among practitioners and communities.

Training Activity for faculty and students

  • Training on software’s Python ,OCI, Data Science, Mongo DB, AWS, IOT, Network Installation, Fundamentals of BI and Analytics, Nod J
  • Hands-on Practice session on IoT, CCNA, ML, Deep Learning, Oracle, AWS,MERN Stack, Low code & No Code,
  • Group Discussion
  • Internal SIH
  • Exposure to Research

Learning Support for Students and Faculty Members

  • Expert Lectures and Workshops
  • Training on AWS , CCNA, Python, , Microsoft certified Azure Fundamentals, Android Development, WEEKA, Google Cloud Computing Foundations & Generative AI
  • Online & Offline Workshop
  • Webinar
  • Online Quiz Competitions
  • Sample List of suggested online learning courses/MOOCs Courses
Subject Name Link
Energy & Environmental Engineering https://archive.nptel.ac.in/courses/127/105/127105018/
https://www.youtube.com/watch?v=G6jCtMw8IEI
Discrete Structure https://onlinecourses.nptel.ac.in/noc20_cs82/preview
https://www.digimat.in/nptel/courses/video/106106094/L01.html
Data Structure https://nptel.ac.in/courses/106102064
https://nptel.ac.in/courses/106106133
https://www.youtube.com/watch?v=dmb1i4oN5oE
Digital Systems https://www.youtube.com/watch?v=zhHVxL08Nkk
https://nptel.ac.in/courses/108105132
Object Oriented Programming & Methodology https://nptel.ac.in/courses/106105151
https://www.youtube.com/watch?v=m_MQYyJpIjg
https://www.youtube.com/watch?v=KlOgiMsoIS0
Mathematics- III https://www.digimat.in/nptel/courses/video/122107037/L16.html
https://www.youtube.com/watch?v=aSu5Yde9Sfk
Analysis Design of Algorithm https://nptel.ac.in/courses/106106131
https://www.youtube.com/watch?v=itbkP50iggM
https://www.digimat.in/nptel/courses/video/106101060/L31.html
Software Engineering https://nptel.ac.in/courses/106105182
https://www.digimat.in/nptel/courses/video/106105182/L01.html
Computer Org. & Architecture https://archive.nptel.ac.in/courses/106/106/106106166/
https://www.youtube.com/watch?v=Ol8D69VKX2k
Operating Systems https://nptel.ac.in/courses/106106144
https://www.youtube.com/watch?v=vBURTt97EkA
Theory of Computation https://onlinecourses.nptel.ac.in/noc23_cs31/preview
https://www.youtube.com/watch?v=aoUEXRlvmxc
https://www.youtube.com/watch?v=eqCkkC9A0Q4
Database Management Systems https://onlinecourses.nptel.ac.in/noc22_cs91/preview
https://www.youtube.com/watch?v=mh26fgrO-9k
https://www.youtube.com/watch?v=T7AxM7Vqvaw
Departmental Elective-Cyber Security https://onlinecourses.swayam2.ac.in/nou19_cs08/preview
https://www.youtube.com/watch?v=z5nc9MDbvkw
Open Elective-Internet and Web Technology http://www.digimat.in/nptel/courses/video/106105084/L18.html
https://www.youtube.com/watch?v=Oh93xiKv-Jg
Machine Learning https://www.digimat.in/nptel/courses/video/106105152/L01.html
https://nptel.ac.in/courses/106105152
Computer Networks https://www.digimat.in/nptel/courses/video/106105183/L01.html
https://www.youtube.com/watch?v=UXMIxCYZu8o
Departmental Elective-Compiler Design https://www.youtube.com/watch?v=Qkwj65l_96I
https://www.digimat.in/nptel/courses/video/106108052/L24.html
Open Elective-Project Management https://archive.nptel.ac.in/courses/110/107/110107081/
https://www.youtube.com/watch?v=rBSCvPYGnTc
Software Architectures https://www.youtube.com/watch?v=bQPkJdp-E34
https://www.youtube.com/watch?v=IPlP2R7l-Nc
Departmental Elective-Big Data https://www.digimat.in/nptel/courses/video/106104189/L02.html
https://www.youtube.com/watch?v=TzxmjbL-i4Y
Open Elective-Data Mining and Warehousing https://www.youtube.com/watch?v=m-aKj5ovDfg
https://www.youtube.com/watch?v=05uWXF6GwtM
Internet of Things https://onlinecourses.nptel.ac.in/noc22_cs53/preview
https://www.youtube.com/watch?v=7DZR5UaAM0E
Departmental Elective-Cloud Computing https://archive.nptel.ac.in/courses/106/105/106105167/
https://www.youtube.com/watch?v=RWgW-CgdIk0
Open Elective-Image Processing and Computer Vision https://www.digimat.in/nptel/courses/video/108103174/L19.html
https://www.youtube.com/watch?v=9-8Js62wzQs

Use of Modern Tools and Techniques

  • Python
  • OCI
  • Data Science
  • Mongo DB
  • AWS
  • IOT
  • Microsoft Azure
  • Lumenore

Hands on Practice session on IOT & SMART THING

Department: Department of Computer Science & Engg.

Semester: B. Tech III & V Students

Activity: 2 Days Workshop

Date and Duration: October 12, 2023, to October 13, 2023

Title: WORKSHOP ON IOT & SMART THING

Resource person/agency and affiliation:  Mr.  Abhigyanam Giri, Founder & CEO

Indeyes Technology Bhopal (MP)

Convener. Prof Rakesh Kumar Tiwari

Executive Summary 

Department of Computer Science and Engineering  TIT & Science has successfully conducted Two Day Workshop on “IOT & SMART THING” Technology for II Year & III year students on 11th & 12th Oct 2023 from 10 AM to 5 PM. Mr. ABIGYAN GIRI, INDEYES TECHNOLOGY, is the program's resource person. He began the session by introducing Internet of Things is a new revolution of the Internet. A world where the real, digital and the virtual are converging to create smart environments that make energy, transport, cities and many other areas more intelligent. A device become a smart device is called IOT. Now a days there are many android and server based application. In this Workshop, how machine to machine connectivity is rapidly growing everywhere was discussed. Also the business benefits for connected devices and assets for remote location connectivity are instantly cleared. The aim of workshop to discuss real life use cases on IoT application and make the session really interactive by providing an opportunity to suggest a solution to real life scenario also has been include to discuss some bonus: IoT demo applications with raspberry Pi board. Day ended with the demonstration of live project such as temperature monitoring. All the faculty and staff members & 170 student actively participated in the event to make it a grand success.

The main headlights of the workshop are given below:

  • Different types of Arduino board such as Arduino Uno, Arduino Uno R3 SMD, Ardino Pro 3.348 MHz , Arduino mini , Aurdino Ethernet and there characteristics ( Power supply, clock speed, Digital I/O, Analog Input, PWM modulation and different kinds of interfacing.
  • Wi-Fi module Programming with Arduino.
  • Interfacing of sensors and uploading data on cloud. For interfacing different types of sensors with Arduino and Arduino with data base ,different programming steps have been discussed (function , statement ,control statement levels variables, math, pin mode, serial mode, digital mode variable, delay and for loop).
  • Interfacing and controlling various devices like LED, motors, sensors etc with Arduino.
  • Four examples have been taken as a hands-on such as LED glow, Switch sensing, Temperature display, small motor controlling.

Workshop Objectives

The progress in internet of things is massive and wide spread from industrial automation to defense applications. These fields contribute significantly on future intelligent systems in industry and society. Since next generation industries need engineers with an interdisciplinary attitude and experience to meet the future demands, this Workshop is aimed to explore the potential areas and the significance in the fields of Internet of Things (IOT). This program aims at providing an opportunity for participants to enrich their knowledge and skill in developing various solutions for solving engineering problems in the society.

Outcomes and Feedback

The workshop received overwhelmingly positive feedback from the participants. Students gained a comprehensive understanding of Internet of Things (IOT), and the hands-on experience with the Arduino. The knowledge and skills acquired during the workshop are expected to be highly beneficial for their future careers. This workshop serves as a platform for research scholars, faculty, engineers and students to interact on cutting-edge technologies in IoT.

Acknowledgments

we extend our gratitude to Mr.  Abhigyanam Giri for their excellent training and guidance throughout the workshop.

Conclusion

At valedictory ceremony, the participants were awarded the certificates. Also competitive hands-on problem has been given to the students they performed very well and two groups have been identifying for extra ordinary effort. The ceremony and function came to an end with a group photo session.

No. of participants: Total 170 students have participated.

Title: Case study on solar-powered outdoor air purifier for Bhopal City

Name of the students: Abhay Kumar Chaubey, Aman Kumar Pandey, Deepak Kushwaha, Himanshu Sharma, Keshwendra Kumar

 Faculty Mentor: Dr. Anoop Pathariya

The current Air Quality Index (AQI) of Bhopal is 113, which is considered poor. The PM2.5 level is 37 μg/m³ and the PM10 level is 119 μg/m³ ¹. The temperature is 29°C . It is recommended that you keep windows closed to avoid dirty outdoor air, wear a mask outdoors and run an air purifier.

Background

Bhopal, the capital of Madhya Pradesh, India, faces significant air pollution challenges. The city's rapid industrialization and urbanization have led to high levels of particulate matter (PM), nitrogen dioxide (NO2), and ozone (O3) in the air. This has severe health implications for the citizens, including respiratory problems and other diseases.

Solution

A solar-powered outdoor air purifier can be an effective solution to address Bhopal's air pollution issues. This system uses solar energy to power a fan that draws in polluted air, which then passes through a series of filters, including:

  1. Pre-filter: Removes larger particles and debris
  2. HEPA filter: Captures 99.97% of particles as small as 0.3 microns, including PM2.5 and PM10
  3. Activated Carbon filter: Removes gases, VOCs, and odors
  4. UV filter: Kills bacteria, viruses, and other microorganisms

Key Features

  1. Solar Power: Harnesses renewable energy from the sun, reducing carbon footprint and operating costs
  2. Large Coverage Area: Can purify air for a radius of up to 1 km
  3. Real-time Air Quality Monitoring: Equipped with sensors to monitor PM, NO2, O3, and temperature
  4. Smart Technology: Can be integrated with mobile apps for remote monitoring and control
  5. Low Maintenance: Easy to install, maintain, and replace filters

Benefits

  1. Improved Air Quality: Reduces PM, NO2, O3, and other pollutants, providing cleaner air for citizens
  2. Health Benefits: Reduces respiratory problems, cardiovascular diseases, and other health issues associated with air pollution
  3. Energy Efficiency: Uses renewable solar energy, reducing carbon emissions and operating costs
  4. Scalability: Can be installed in multiple locations, covering a large area of the city
  5. Economic Benefits: Can increase property values, boost tourism, and enhance the city's reputation

Implementation Plan

  1. Conduct a feasibility study to identify optimal locations for installation
  2. Collaborate with local authorities and stakeholders for installation and maintenance
  3. Install units in public spaces, such as parks, squares, and bus stops
  4. Monitor and evaluate performance, adjusting filters and settings as needed
  5. Educate citizens about the benefits and importance of air quality improvement

Conclusion

A solar-powered outdoor air purifier can be a game-changer for Bhopal City, providing a sustainable and effective solution to address air pollution challenges. By improving air quality, reducing health risks, and promoting energy efficiency, this technology can contribute to a healthier, more sustainable future for the city's citizens.

Action taken: The Recommendations were forwarded to M.P. Pollution Control Board.

 

Title: case study on replacing petrol and diesel powered autorickshaws with Electric Vehicle (EV) autorickshaws in Bhopal city

Name of the students: Amit Patle, Anshul Dange, Ashish Patel, Prashant Vishwakarma, Rudraksh Rahangdale

Faculty Mentor: Mr. Gaurav Goswami 

Background

  1. Bhopal, the capital of Madhya Pradesh, has a large fleet of autorickshaws (over 20,000) that run on petrol and diesel, contributing significantly to air pollution and greenhouse gas emissions.
  2. The city aims to reduce its carbon footprint and improve air quality by promoting electric vehicles.

Problem Statement

  1. High operating costs for autorickshaw drivers due to rising fuel prices
  2. Significant air pollution and noise pollution from petrol and diesel autorickshaws
  3. Limited charging infrastructure for EVs in the city

Solution

  1. Replace existing petrol and diesel autorickshaws with EV autorickshaws
  2. Install charging stations at strategic locations across the city
  3. Offer incentives to autorickshaw drivers to switch to EVs, such as subsidies, low-interest loans, and reduced electricity tariffs

Benefits

  1. Environmental Benefits:
  • Reduction in CO2 emissions by 70%
  • Decrease in air pollutants like PM, NOx, and SOx
  1. Economic Benefits
  • Lower operating costs for autorickshaw drivers (electricity is cheaper than fuel)
  • Increased savings for drivers, leading to improved livelihoods
  1. Social Benefits
  • Improved air quality and reduced noise pollution for citizens
  • Enhanced reputation for Bhopal as a sustainable and eco-friendly city

Implementation Plan

  1. Conduct a feasibility study to identify the best EV autorickshaw models and charging infrastructure
  2. Collaborate with autorickshaw unions and drivers to raise awareness and encourage adoption
  3. Install charging stations at public places, such as bus stops, markets, and parking areas
  4. Offer training and support to drivers for smooth transition to EVs
  5. Monitor and evaluate the project's impact on air quality, noise pollution, and driver livelihoods

Challenges and Mitigation Strategies

  1. Challenge: Limited charging infrastructure and range anxiety
  2. Mitigation: Install charging stations at frequent intervals, promote battery swapping technology, and develop a mobile app to locate charging points
  3. Challenge: Higher upfront cost of EV autorickshaws
  4. Mitigation: Offer subsidies, low-interest loans, and financing options to drivers

Conclusion

Replacing petrol and diesel powered autorickshaws with EV autorickshaws in Bhopal city offers a win-win solution for the environment, economy, and society. With careful planning, implementation, and mitigation of challenges, this project can be a successful model for sustainable transportation in Indian cities.

Action taken: The Recommendations were forwarded to M.P. Pollution Control Board.

 

Research Activity 1

Name of Faculty: Gaurav Goswami

No of Students Involved: 5

DESIGN OF 1 kW CAPACITY SOLAR ROOF TOP SYSTEM

The exhaustion of conventional resources and its effect on climate requires an urgent call for the substitute power resources to invite up the current power requirement. Solar energy is an endless, unsoiled and prospective energy source among all other non conventional energy options. As more concentration is being done on focal point for the development of renewable energy capital globally. To detect their feasibility it is necessary to do the economic and technical assessment of the resources. In the recent era of electrical system development, the solar PV plays an important role in the energy conservation. This paper describes a complete analysis of 1 KW solar rooftop system. For this purpose we have installed 1KW solar rooftop system by considering the load forecasting, electrical design parameters, fabrication of structure by considering mechanical parameters and environmental consideration.

OBJECTIVES

  1. To study solar roof of system including equipment and system specification that is solar panel, charge controller and batteries.
  2. The main aim of our project is to track on the maximum solar energy without solar radiation loss for the efficient use of solar energy

CONCLUSION

A 1KW PV system is studied for small homes only for rustic areas sited in India. Performance of the system  and cost analysis. The energy produced by the PV system is also calculated hourly wise. Also the effect of global radiation on the generation of solar energy is depicted. In this project it is necessary to obtain the analyzation and properly estimation of the system with including measurement of the various parameters such as power, output voltage, current, solar radiation.

Based on Research Work Project was designed

The suggestions/ Review / feedback can be sent on gauravgoswami8@gmail.com

 

 

 

Research Activity 2

Name of Faculty: Prashant Bhatt

No of Students Involved:

Design And Analysis Of  Solar PV System Models

Solar Rooftop PV systems are becoming more popular these days as it is proven to lower electricity bills and potential contributory to lessen CO2 emissions. Three models of 1.215 kWp solar rooftop PV systems, namely: on-grid, off-grid and hybrid were designed and installed at Room EB217 of the College of Engineering building, Tarlac State University, Romulo Boulevard San Vicente, Tarlac City in order to determine their individual characteristics in terms of (1) design analysis and wiring diagram; (2) solar PV System components and total cost of installations; (3) amount of savings incurred in the solar generation and (4) rate of return and recovery period. The result showed that for the same amount of solar panel capacity, the on-grid model has the simplest design and wiring diagram as compared to the off-grid and hybrid models. Also, the on-grid model has the least number of components and no battery and thereby it is the most economical model to install since it is 58% cheaper than the two other models. In terms of actual amount of savings incurred in the solar generation, the hybrid model offers the highest savings of P2,798.40 per month, followed by the on-grid model at P2,126.40 per month while the off-grid model had the lowest monthly savings of P1,017.60 per month. Among the three models, the on-grid offers the highest ROR on investment at 2.72% per month and the shortest period of recovery of 3 years. The hybrid had an ROR of 2.08% per month and a recovery period of 4 years while the off grid had the lowest ROR of 0.75% per month and the longest recovery period of 11 years. It is concluded that the on-grid model offers the most feasible and viable alternative in solar rooftop PV system design and installations.

RESEARCH METHOD

The project used Research and Development Method which is focused on electrical design and installation, observation and comparison of the three solar PV models. The following steps summarized the procedure of the project:

  1. Conduct design analysis for three 1 kW solar PV system models. In this step, electrical circuit diagrams with design computations were prepared and drawn to serve as wiring guide for installers. In the design computation, proper size of wires and overcurrent circuit protections both for the DC and AC side were determined and specified. Also, the proper ratings of inverters and solar charge controller, battery connections and other components were identified and specified.
  2. Prepare bill of materials and cost estimates based on the design analysis.
  3. Assemble and install the materials for each model. Once the items were completed, the installations commenced upon approval of proper authorities.
  4. . Perform testing and commissioning. Testing and commissioning were done to ascertain the functionality of the assembled models.
  5. Report Writing.

CONCLUSION

Three models of solar PV systems of the same input capacity of 1,215 Watts each were compared and presented in this paper. The three models differ with each other in terms of wiring design, system components, initial costs, actual monthly savings, rate of return and period of recovery. With these parameters, it is concluded that the on-grid model offers the most feasible and viable alternative in solar rooftop PV system design and installations.

Based on Research Work Project was designed

The suggestions/ Review / feedback can be sent on prashantindore11@gmail.com

 

 

 

Research Activity 3

Name of Faculty:  Dr. Uzma Qureshi

No of Students Involved: 10

Design of an Electric Cart with Batteries & Solar Panel for 6 Seat Capacity

In this paper, the Design & Calculations of an Electric golf cart is done the calculations and process to develop a golf cart chassis, electrical transmission using transaxle, braking, steering geometry, suspension system, solar panel of a long six seat golf cart, battery calculations and controller which monitors the electric system is explained. All the materials used for the calculation are industry standard being utilized currently. Priority of this design was to keep the cart as light weight as possible and rigid with good performance on grassy and concrete terrain’s used in either golf course or in hospitality / education sectors. A unique tubular chassis is used in the design comprising of circular & rectangular shape. The focus of design was long mileage from the batteries used and how much, adding solar panels can contribute to the existing range of the electric vehicle. A 23 miles range from the battery pack using 6 deep cycle lead acid batteries was achieved and increased 12 miles from the solar panels under the constraint assumed for its use (direct sunlight for over 6-7 hours)

DESIGN DEVELOPMENT

The design development stage is where the design considerations are outlined and according to which under certain parameters, criteria and market research the following design is developed.

  1. The design considerations set are so the vehicle can meet all safety standards & ergonomics and performance during its entire life cycle
  2. The design development stages are divided in many steps they are;
  3. Chassis
  4. Transmission
  5. Brake
  6. Steering
  7. Suspension
  8. Battery
  9. Solar panel

CONCLUSION

  1. A lot of market research went into the design of the electric cart and desirable results were achieved.
  2. Finalizing the design of the chassis and trying to innovate with different pipe sizes and shapes gave a unique looking cart with considerable strength and balance.
  3. The performance of overall vehicle including its speed, braking distance and turning radius were achieved under the pre-set assumed values.
  4. The suspension design was selected carefully to give the best performance in overloading conditions as well and the leaf spring to provide more support in case of heavy luggage/materials kept behind.
  5. The batteries being heavy and placed below the seats makes the majority of the weight carried by the cart at low height even after passenger is seated which gives the entire cart a very low roll center which reduces the chance of cart rolling during uneven terrains

Based on Research Work Project was designed

The suggestions/ Review / feedback can be sent on uzmarose162@gmail.com

 

 

Research Activity 4

Name of Faculty: Dr. Anoop  Kumar Pathariya

No of Students Involved: 5

Fabrication of Solar Outdoor Air Purifier

This research paper is about designing and fabricating an air purifier system which is powered by solar energy and testing the effectiveness of the system to curb the air pollution. The focus is on extracting the suspended particulate matter from the air which are the major contributors in the pollution of air in many urban cities. It works on a nonconventional method and intents to achieve best possible air purification results using eco-friendly and economical method. It works on the basic principle of adhesion of the suspended particles in the air with the liquid and settles down due to being heavier than air and gets separated from the air helping us to achieve better air quality index. The fans and the pump in system are operated with the help of solar energy, produced by solar panels, which converts the solar radiations into electricity.

Working

There is a chamber in which air is sucked in by the fan, while the air is entering it passed through strainer.

Simultaneously water is pumped from reservoir to the atomizer, which converts water into small water droplets and these droplets are suspended into the chamber along with air.

These water droplets have adhesive property due to which the particulate matter and dust particles get absorbed on them.

This way air is cleaned and is flown out from chamber by exhaust fan.

The water with dust and particulate matter is collected in evaporation tank, where water under goes natural evaporation process, leaving behind the dust and particulate matter these are periodically cleaned and water is used again in air cleaning process.

Conclusion

Now we have seen that how efficient is SOLAR POWERED AIR PURIFIER than other type of device available in market. It also very economical and do not have to replace any component quickly. It reduces particulate level to satisfactory position where a person does not need to worry about pollution related problems.

A pure and clean air is right of a human being and all other living creatures on this earth and this project is a small effort from our side to give the all their right.

Also in future, modifications can be made to improve working efficiency without effecting setup.

Based on Research Work Project was designed

The suggestions/ Review / feedback can be sent on anoopphd@gmail.com

Training Activity for faculty and students

Training on software like CAD/CAM and MATLAB

  • Hands on Practice session on Auto CAD.
  • Expert lecture on electric golf- kart
  • Paper Presentation Competitions
  • Work shop on Designing of Drones
  • Seminar on solar technology

Learning Support for Students and Faculty Members

  • Expert Lectures, Seminar and Workshops
  • Training on AutoCAD
  • Workshop on Entrepreneurship
  • Workshop on Designing of Drones
  • Quiz Competitions

Use of Modern Tools and Techniques

  • Training on software like CAD/CAM and MATLAB
  • Hands on Practice session on Auto CAD.
  • Group Discussion
  • Paper Presentation Competitions

Work shop on Designing of Drones

Department: Department of Mechanical Engineering

Semester: B. Tech III, V & VII Students

Activity: 3 Days Workshop

Date and Duration: October 10, 2022, to October 10, 2022

Title: Work shop on Designing of Drones.

Resource person/agency and affiliation: Mr. Pankaj Bhojwani , Drone and RC Trainer, Beyond Gravity, Bhopal.

 

Convener:  Mr. Prashant Bhatt  /  Mr.  Sandeep Shah

Executive Summary: The 3-day Workshop on “Designing of Drones” was organised successfully, at TIT & S, Bhopal by the Department of Mechanical Engineering, TIT & S, Bhopal from October 10, 2022, to October 10, 2022.

The workshop aimed to provide students with comprehensive knowledge and hands-on experience in designing of drones. The expert for the training was Mr. Pankaj Bhojwani, Drone and RC Trainer, Beyond Gravity, Bhopal.

 

Workshop Objectives:

 

The primary objectives of the workshop were to:

  1. Familiarize students with the various mechanism and operations related with drone’s technology.
  2. Make participants aware of applications of drones in various areas.
  3. Train students about assembling of drones.
  4. Make students to aware about the recent employment possibilities in drone technologies.

Outcomes and Feedback

  • Participants benefitted from immersive hands-on experiences, meticulously assembling drones under the expert guidance of seasoned instructors.
  • Students got an exposure about technological aspects and flight dynamics of drones.
  • Students acquired knowledge and learing on design and developments of drones.
  • Students learned about the sensors and controllers related with drones.

Acknowledgments
we extend our gratitude to Mr. Pankaj Bhojwani   for their excellent training and guidance throughout the workshop.

Conclusion

The 3-day Workshop on “Designing of Drones” organised successfully, at TIT & S, Bhopal will provide an insights into necessary skills and knowledge to operate drones safely to the participants.

No. of participants: 90

Title: Mobile and Cell radiation

Method: Case study has been carried out to assess radiation intensity of cell towers. Research articles on radiation effect discussed and survey was done by the students during industrial visit at cell sites of mobile service providers.

Outcome: Students were able to understand that high radiation affects human health.

Action Taken: Safety measures are discussed with students while exposing to radiation.

 

Students:

Faculty Mentor: Dr Om Pal Singh, Mr Devkant Sen

Name of faculty: Dr Padmashree Kunthe

Students Involved in Collaborative research with faculty

S No Name Enrolment No
1 Khushi Shrivastava 0192EC191026
2 Devesh Prasad Shukla 0192EC191019
3 Akash Mishra 0192EC191007
4 Shashwat Gupta 0192EC191048

Medical Assistance Robots

Abstract

RoboCare-Med is an advanced medical assistance robot designed to revolutionize patient care and healthcare The healthcare landscape is continuously evolving, with an increasing demand for advanced technologies to enhance patient care, improve outcomes, and optimize healthcare delivery. One area where significant advancements have been made is in the development of medical assistance robots. These robots play a crucial role in addressing various challenges faced by healthcare professionals and institutions:

Need for Medical Assistance Robots

Aging Population: With the global population aging rapidly, there is a growing demand for healthcare services, particularly in areas such as elderly care and chronic disease management. Medical robots can assist in tasks like patient monitoring, medication management, and mobility support, thereby alleviating the strain on healthcare providers and improving the quality of care for elderly patients.

Precision and Accuracy: Medical procedures often require a high degree of precision and accuracy. Robots equipped with advanced sensors, imaging technologies, and robotic arms can perform tasks with greater precision than human hands, reducing the risk of errors and improving surgical outcomes.

Minimally Invasive Procedures: The trend towards minimally invasive surgeries has led to the development of robotic systems that can perform complex procedures through small incisions. These robots offer surgeons enhanced dexterity and control, leading to faster recovery times, reduced complications, and improved patient satisfaction.

Workforce Shortages: Many healthcare systems face challenges related to workforce shortages, especially in specialized areas such as intensive care units (ICUs) and emergency departments. Medical robots can supplement existing healthcare staff by automating routine tasks, allowing human providers to focus on critical patient care activities.

Remote Healthcare: Telemedicine and remote healthcare services have become increasingly important, especially in rural or underserved areas. Medical robots equipped with telepresence capabilities enable remote consultations, diagnostics.

Infection Control: Infection control is a paramount concern in healthcare settings, particularly in light of global pandemics such as COVID-19. Robots can be designed for tasks that minimize direct human contact, such as disinfection, sterilization, and delivery of supplies, contributing to a safer healthcare environment.

Data-driven Decision Making: Medical robots integrated with artificial intelligence (AI) and data analytics can analyze vast amounts of patient data in real time, providing valuable insights for clinical decision-making, personalized treatment plans, and predictive analytics for disease management.

In conclusion, the need for medical assistance robots arises from a combination of demographic shifts, technological advancements, healthcare challenges, and the pursuit of improved patient outcomes. These robots represent a transformative force in modern healthcare, offering innovative solutions to complex healthcare problems and shaping the future of medical practice

Conceptual Design and Prototyping:

  1. The conceptual design phase involves creating initial design concepts, sketches, and mock-ups of the RoboCare-Med robot. Multiple design iterations may be explored to evaluate different concepts and refine the design based on feedback from stakeholders.
  2. Computer-aided design (CAD) software is used to create detailed 3D models of the robot, including its physical structure, components, sensors, actuators, and user interfaces. Virtual simulations and prototypes are developed to assess the feasibility and functionality of the design.

Training Activity for students

  • Training on software’s - Python , C, C++, Java
  • Hands-on Practice session on IoT, MATLAB, Microcontroller & Embedded system, VLSI Design
  • Training on Aptitude and reasoning
  • Internal SIH
  • Expert Lectures and workshops

Training Activity for Faculties

  • Faculty development program
  • Workshops
  • Short term training program
  • Expert Lectures
  • Software training

Student Support:

Tutoring Services: Offer peer tutoring or faculty-led tutoring sessions to help students with difficult concepts or coursework.

Workshops and Seminars: Organize workshops and seminars on topics like programming languages, circuit design, communication protocols, and industry trends.

Online Resources: Provide access to online learning platforms, educational videos, and interactive simulations for self-paced learning.

  • You Tube Channel: Electronics and Comm. TIT & S
    In this channel video lectures of faculties are provided for student for e-learning facility
    Link of channel- https://www.youtube.com/@Ecdepartment/videos
  • E library : In this e- learning facility some e- books are provided for the students bar code is provided here

Lab Facilities: Ensure well-equipped labs with modern equipment for hands-on learning and experimentation.

Study Groups: Encourage students to form study groups to collaborate on projects, discuss coursework, and support each other.

Central Library: In this students can refer several books, Journals, News papers

Faculty Support:

Professional Development: Arrange workshops, conferences, and training programs to enhance faculty skills in teaching, research, and industry engagement.

Curriculum Enhancement: Collaborate with industry experts to update the curriculum with the latest technologies, case studies, and real-world applications.

Research Funding: Facilitate grants and funding opportunities for faculty research projects in areas like IoT, signal processing, telecommunications, etc.

Mentoring Programs: Establish mentoring programs where experienced faculty members guide junior faculty in teaching methodologies, research strategies, and professional growth.

Teaching Resources: Provide teaching resources such as lesson plans, assessment tools, and teaching aids to support effective classroom instruction.

By implementing these support measures, we can create a conducive learning environment for both students and faculty in the electronics and communication branch.

Learning Support for Students and Faculty Members

  • Expert Lectures, Seminar and Workshops
  • Training on PLC & SCADA
  • Workshop on Entrepreneurship
  • Workshop on Design and development of Drones
  • Quiz Competitions

Use of Modern Tools and Techniques

  • Training on software like MATLAB etc.
  • Hands on Practice session on PLC.
  • Group Discussion
  • Paper Presentation Competitions

Seminar on Drone Technology

Department: Department of Electrical & Electronics Engineering

Semester: B. Tech III, V & VII Students

Activity: Seminar

Date: 26.04.2022

Title: Seminar on Drone Technology.

Resource person/agency and affiliation: Mr. Yashraj Sunhare, Co-founder & CEO - Jarvis Labs Pvt. Ltd. Bhopal

Convener: Dr. Saurabh Gupta

Executive Summary:

Seminar on “Drone Technology” was organized successfully, at TIT & S, Bhopal by the Department of Electrical & Electronics Engineering, TIT & S, Bhopal on date 26.04.2022.

The workshop aimed to provide students with comprehensive knowledge in designing of drones. The expert for the training was Mr. Yashraj Sunhare, Co-founder & CEO - Jarvis Labs Pvt. Ltd. Bhopal

Seminar Objectives:

  1. Make students about development of utility-based drone that provide assistance agriculture, surveillance, heavy payload lift, disaster relief management, surveying & inspection. Introduction to Drones and Basic principles of flight.
  2. Provide knowledge to students about designing of a Drone from scratch. Dimensioning, Motor, ESC and Propeller selection Hands-on with Motors, ESCs, Propellers, FCB, Transmitter-Receiver, Battery and Frame.
  3. Make students to aware about the recent employment possibilities in drone technologies.

Outcomes and Feedback

  • Students learned the basic knowledge about drone technology and future in drone industry with great enthusiasm and kept their points efficiently.
  • Students learned Basic principles of flight.
  • Students acquired knowledge about Autonomous Drones & Mission Planning.
  • Students aware about the Applications & Use of Drone in India, Government Initiatives Regulationsof DGCA, Civil Aviation Requirements.

Conclusion

Seminar on “Designing of Drones” organized successfully, at TIT & S, Bhopal will provide knowledge about development of utility-based drone that provide assistance agriculture, surveillance, heavy payload lift, disaster relief management, surveying & inspection. Students learned the basic knowledge about drone technology and future in drone industry with great enthusiasm and kept their points efficiently.

No. of participants: 80

Title: Traffic Volume Survey

Name of the students: Raju Kumar Maurya, Alok Kumar Dubey, Samay Jain Faculty Mentor: Mr. Sujeet Kumar Yadav Department has offered case study to assess the width of flexible pavement between Piplani Petrol pump to Bhopal-Indore Bypass Road. Traffic survey was conducted by the students. Based on Traffic Volume survey during peak hours it was suggested that width of pavement is sufficient to cater the traffic provided the encroachment of road is taken care by adequate number of traffic police personnel at Anand Nagar. Action taken: The Recommendations were forwarded to commissioner of National Highway authority for benefit of residents and road-users. The outcome was removal of encroachment and now there is no traffic jam conditions.

Title: Ground Water Quality Analysis in Govindpura Area

Name of the students: Ajeet Kumar Maurya, Gautam Karn, Manohar Kumar Faculty Mentor: Mr. Amit Rai Ground water is the major alternative source of water of Bhopal city. About twenty ground water samples were collected from Govindpura Industrial area. Study of some physico -chemical parameters of ground water was carried out using Indian Standard Code IS 10500. Acidity, Alkalinity, Chlorides obtained are within permissible limits but Turbidity, total hardness and iron content of some samples are beyond the permissible limit of drinking water standards. From the Bacteriological analysis it can be concluded that water is contaminated. The industrial activities, dense vehicle movement and industrial waste water discharge and its intermixing in ground water may be the probable reason for the same. Action taken: The Recommendations were forwarded to M.P. Pollution Control Board.

Research activity 1

Name of Faculty: Mr. Azad Mohammad No of students involved in the activity: Four Abstract: Water is the need of the society. It should reach to each and every consumer in sufficient quantity, potable in quality and at suitable pressure. The design of water distribution network is an optimization problem where cost is to be minimized by using pipes from a list of discrete commercially available pipe sizes. By using different methods like Linear programming, Non-linear programming, Gradient method, Newton Raphson Method etc have been used in the past but due to discrete nature of pipe diameters and non-linear constraints the use of evolutionary optimization methods like Genetic Algorithm, Particle Swarm Optimization, Ant Colony Optimization, Differential Evolution, Honey Bee Mating Optimization, Memetic Algorithm, Simulated Annealing, Shuffled Complex Evolution and Harmony Search etc are used for optimization of WDN in recent times. Objectives

  1. Developing criteria for design of water distribution system.
  2. Model formulation and development i.e. identification of objective functions and constraints and prepare mathematical model of the selected distribution networks.
  3. Explore the methods of optimization of water distribution network and selection of optimization method based on the literature review.
  4. Identify suitable optimization techniques to propose a robust algorithm to optimize the design of Water Distribution Network. It can be coupled with hydraulic Solver EPANET.
  5. Identify at least two optimization procedures for the design of WDNs for different benchmark problems as well as the real life problems. Identify a real life case study of a large sized WDN to establish its efficacy on the criteria of optimal design.
  6. To produce and present the results of analysis in a systematic manner to draw valid conclusions from the present work.
  7. To draw conclusions from the present study.

Extension work based on this research work

  • Technical Performance evaluation of water distribution network using EPANET software.
  • Water demand analysis of existing water distribution network of Bhopal City.
  • Water quality modelling of Water Distribution network.
  • Performing Extended Period simulation in Pressure driven demands.

These projects were given to a group of students as their project. The suggestions are invited from the researchers to explore new dimensions in research. The suggestions/ Review / feedback can be sent on mdazad019@gmail.com

Research activity 2

Name of Faculty: Ms. Juhi Nigam Brief Information of Research Work. Solid waste management is perhaps the most important service required by urban dwellers to maintain their quality of life. Large amount of solid waste is generated in India, in Urban, municipal and industrial sectors which are finally disposed to the solid waste disposalsites.Bhopal is not an exception. The Bhopal city has 75 acres of land for waste disposal. The waste generated in the city is deposited at this landfill site which is situated in Bhanpur village at a distance of 16 km from the city. No scientific method of waste disposal is adopted. All waste is disposed off at the landfill. This system of disposal by open dumping of waste creates a lot of environmental problems and public health hazards. Madhya Pradesh state Agro Industries Development Corporation limited has set up an Organic manure plant based on solid waste which produces organic manure from the solid waste which is being sold to the farmers of M.P. The organic mantic is made in this plant through Bio-augmentationprocess. The non- biodegradable war left after the segregation from the plant is used for land filling.The landfill site is closed for the dumping of waste since 2018 by Bhopal Municipal Corporation.This Municipal Solid waste is creating a lot of environmental concern in surrounding area. Unscientific disposal of solid waste pollutes the soil as well as ground water sources. The present work aims to find out the ground water and soil pollution post closure impact of dumping site. During the study about twenty four tube wells were selected and samples were collected for Physico-chemical parameters like pH, Turbidity, Electrical conductivity, Total dissolved solids, Chlorides, Total Hardness, Calcium Hardness, Magnesium Hardness, Nitrate and Sulphates. Outcome of the work till date The results showed higher concentration of contamination in most parameters like conductivity, TDS, chloride, total hardness, calcium hardness, magnesium hardness, which exceeds the limits of standards prescribed by BIS:10500. It was found that ground water near the closed dumping site is contaminated and is not fit for direct drinking purposes. Presence of fecel coliform in the samples indicates disease causing characteristics and may cause intestinal problems to consumers. Improper solid water management has also given rise to problems like health, sanitation and environmental degradation. Based on Research Work some Projects were designed. These topics may be given to group of students as their minor/major project.

  1. Environmental Impact Assessment of Solid waste Management – A Case study of Bhanpur Area.
  2. Groundwater and Surface water quality analysis of surrounding area of Bhanpur village.
  3. The Public’s Perception Regarding Waste Management.
  4. How Recyclable Materials Support Effective Waste Management.
  5. The Impact of Solid Waste on surrounding Environment.

The suggestions/ Review / feedback can be sent on nigamjuhi0598@gmail.com

Training Activity for faculty and students

  • Training on software’s like EAG and Benley
  • Hands-on Practice session on Total Station
  • Group Discussion
  • Project Model Competitions
  • Exposure to Conferences on Road Safety
  • Exposure to Interdisciplinary Research

Learning Support for Students and Faculty Members

  • Expert Lectures and Workshops
  • Training on AutoCAD
  • Online Workshop on Bridge Design
  • Workshop on Stadd Pro
  • Online Quiz Competitions

Use of Modern Tools and Techniques

  • Training on software like EAG and Benley
  • Hands on Practice session on Total Station.
  • Group Discussion
  • Project Model Competitions

Hands on Practice session on Total Station

Department: Department of Civil Engineering Semester: B. Tech III & V Students Activity: 3 Days Workshop Date and Duration: September 05, 2022, to September 07, 2022 Title: Working and Uses of Total Station on Field. Resource person/agency and affiliation: • Er. Amit Gupta, Site Engineer, Smart City Project, Bhopal. Convener. Dr. Anup Kumar Aditya/ Mr. Rahul Bhargava Executive Summary The 3-day Workshop on “Working and Uses of Total Station on Field”held at TIT, Bhopal, from September05, 2022, to September 07, 2022, was a resounding success. Organized by the Department of Civil Engineering, the workshop aimed to provide students with comprehensive knowledge and hands-on experience in total station surveying. The main trainer expert is, Er. Amit Gupta, (Site Engineer, Smart City Project, Bhopal). Workshop Objectives The primary objectives of the workshop were to:

  1. Familiarize students with the various components and operation of total station machines.
  2. Instruct students on centering and leveling procedures to ensure accurate survey data.
  3. Teach students about topographic survey methods and data interpretation.
  4. Provide hands-on training in stakeout procedures, area and volume calculations.
  5. Demonstrate precise distance measurement techniques using total stations.

Outcomes and Feedback The workshop received overwhelmingly positive feedback from the participants. Students gained a comprehensive understanding of total station surveying techniques, and the hands-on experience with the machines was particularly appreciated. The knowledge and skills acquired during the workshop are expected to be highly beneficial for their future careers in civil engineering and land surveying.

Acknowledgments We extend our gratitude to Er. Amit Gupta for their excellent training and guidance throughout the workshop. Conclusion The 3-day Total Station Survey Workshop held at Technocrats Institute of Technology, Bhopal, Civil Engineering Department was a successful endeavor, equipping students with essential skills and knowledge in the field of civil engineering and land surveying. This workshop represents a significant step in ensuring that our students are well-prepared for the challenges and opportunities that lie ahead in their careers. No. of participants: 60

 

Training on AutoCAD

Topic AutoCAD
Resource Person Ms. Kamna
Duration 10/10/2022 to 22/10/2022
Time 30 Hours
Venue CAD Lab, TIT
Participation Students of B.Tech. IIIrd & Vth Semester

SUMMARY In collaboration with Elite Arch Group, the Department of Civil Engineering at Technocrats Institute of Technology, Bhopalprovided 10 Days of AutoCAD lab training sessions for Civil Engineering students. This training program's major goal is to encourage students to plan and illustrate experiments in accordance with the guidelines provided, as well as to gauge their level of inventiveness. The Expert Ms. Kamna, shared with the students his knowledge of the field's expectations for the designations of draughtsmen and interior designers. Additionally, he showed students some of his works and explained design principles and the use of fundamental tools with students. In total, 80 students have participated in this training program. The AutoCAD software used is one of the most commonly used software programs for civil engineering, It is used to create 2D and 3D models for the designed project. The tool allows engineers to instantly envision their designs, make any necessary revisions, and use it to create detailed building project drawings. OUTCOME The main goal of this course is to ignite students' interest in civil-core software. By using this tool, the students will be able to produce 2D, 3D drawings & Design, which also makes it simpler and quicker for them to build and update digital 2D and 3D designs than they could manually.