Abstract team 72 - capstone - ECO-NAAV Mentor: DR MOHIT AGARWAL AND DR AMIT MUNJAL Team 72- • Team

ECO-NAAV

Mentor: DR MOHIT AGARWAL AND DR AMIT MUNJAL

Team 72-

• Team Member 1 (Anupam Srivastava, 102106177 , asrivastava2_be21@thapar.edu)

• Team Member 2 (Divyanka, 102106198 , ddivyanka_be21@thapar.edu)

• Team Member 3 (Shashank Jha, 102156019 , sjha_be21@thapar.edu)

• Team Member 4 (Muskan deep Kaur, 102106213 , Mkaur_be21@thapar.edu)

• Team Member 5 (Vedant Katiyar, 102165008 , vkatiyar_be21@thapar.edu)

Abstract

•It is foremost important to keep the water bodies around us to be clean. It is very terrible

that huge amount of garbage is deposited on water bodies every year. Measurement of

pollutants in every part of the water body by visiting directly is not possible. The Ganga and

Yamuna rivers, two of the most important rivers in India face severe pollution and have poor

water quality. Many communities depend on such water bodies as source of drinking water.

Therefore, it creates a necessity for real-time water quality monitoring. The Government of

India has launched various initiatives and campaigns to address this issue of garbage

dumping and improve waste management practices.

Our work aims to create a garbage gathering object to monitor the lakes and ponds and

also measure the condition of water by measuring several parameter .In view of the

floating garbage problem, a Smart Manual IOT based multi-function manual surface

vehicle (MF-MSV) equipped with various sensors to measure different pollution

parameters, a camera providing for live video and navigation, a conveyer to pick up

small floating garbage all connected to a microcontroller which coordinates and syncs

the working of all the components is proposed. The real-time data collected from the

sensor is transmitted wirelessly to a central data repository. Threshold-based alerting

mechanisms are to be implemented to automatically trigger notifications when water quality

parameters exceed predefined thresholds.

•Keywords: Smart Manual IOT based multi-function manual surface vehicle (MFMSV),

Water quality monitoring, Surface water cleaning, data transmission

•Undergraduate Courses:

Embedded Systems: Designing and programming the microcontroller or embedded

system that will control the boat's sensors, cleaning mechanism, and data transmission

system.

Abstract team 72 - capstone

Capstone Project (UCS797)

Thapar Institute of Engineering and Technology

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ECO-NAAV

Mentor: DR MOHIT AGARWAL AND DR AMIT MUNJAL

Team 72-

• Team Member 1 (Anupam Srivastava, 102106177 , asrivastava2_be21@thapar)

• Team Member 2 (Divyanka, 102106198 , ddivyanka_be21@thapar)

• Team Member 3 (Shashank Jha, 102156019 , sjha_be21@thapar)

• Team Member 4 (Muskan deep Kaur, 102106213 , Mkaur_be21@thapar)

• Team Member 5 (Vedant Katiyar, 102165008 , vkatiyar_be21@thapar)

Abstract

• It is foremost important to keep the water bodies around us to be clean. It is very terrible

that huge amount of garbage is deposited on water bodies every year. Measurement of

pollutants in every part of the water body by visiting directly is not possible. The Ganga and

Yamuna rivers, two of the most important rivers in India face severe pollution and have poor

water quality. Many communities depend on such water bodies as source of drinking water.

Therefore, it creates a necessity for real-time water quality monitoring. The Government of

India has launched various initiatives and campaigns to address this issue of garbage

dumping and improve waste management practices.

Our work aims to create a garbage gathering object to monitor the lakes and ponds and

also measure the condition of water by measuring several parameter .In view of the

floating garbage problem, a Smart Manual IOT based multi-function manual surface

vehicle (MF-MSV) equipped with various sensors to measure different pollution

parameters, a camera providing for live video and navigation, a conveyer to pick up

small floating garbage all connected to a microcontroller which coordinates and syncs

the working of all the components is proposed. The real-time data collected from the

sensor is transmitted wirelessly to a central data repository. Threshold-based alerting

mechanisms are to be implemented to automatically trigger notifications when water quality

parameters exceed predefined thresholds.

• Keywords: Smart Manual IOT based multi-function manual surface vehicle (MFMSV),

Water quality monitoring, Surface water cleaning, data transmission

• Undergraduate Courses:

Embedded Systems: Designing and programming the microcontroller or embedded

system that will control the boat&#039;s sensors, cleaning mechanism, and data transmission

system.

Electronics: Understanding circuit design, sensor functionality (pH, conductivity,

turbidity, etc.), motor control, and power systems management.

Mechanical Engineering: Designing the boat&#039;s physical structure and ensuring durability

and watertight construction.

Robotics: Incorporating elements of autonomous control for navigation and potentially

automating the cleaning process. Image segmentation and path planning would be

relevant.

Internet of Things (IoT): Network protocols, device communication, and setting up the

data transmission infrastructure from the boat to a cloud-based platform or control

center.

Data Science: Managing, analyzing, and visualizing the water quality data collected by

the boat. Developing algorithms to extract meaningful insights.

Software Engineering: Creating robust software for the boat and any associated control

dashboards or data visualization platforms.