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Electronics & Telecommunication Engineering

Abstract Project Details

Group no.

Description

1

Title

Smart Sowing Machine

Projectees

Abhishek Chandrakant Nagre

Tushar Rajendra Navghare

Vaibhav Rajendra Thakre

Guide

Dr. Narendra Narole

Abstract

The aim of the project is to reduce the man power, time and increase the productivity rate. The entire basic automation robot works like weeding, harvesting and so on. In current generation most of the countries do not have sufficient human factor in agricultural sector and it affects the growth of developing countries so it’s time to automate the sector to overcome this problem. In India, there are 70% people dependent on agriculture. So we need to study the agriculture. Innovative idea of our project is to automate the process of sowing crops such as groundnut, sunflower, and baby corn and so on. The farming system like ploughing, cultivating, weeding, harvesting, etc. is the different process. All the processes are advance to modifying the mechanism in farming which works automatically without the man power requirement. The small machine would be assembled from existing mass produced components without the need of specialized design and tooling. Also energy require to this machine is less as compared with tractors or any agricultural instrument. With the help of raspberry pi camera, the detection of several types of diseases on plants can be detected also it can also be used for surveillance and security purposes which will be useful for farmers with low income.


Group no.

Description

2

Title

Orange Sorting Processor

Projectees

Kirti Bhute

Rajeshwari Yashwant Ingole

Rohini Choudhary

Tushar Ujjawal Thombre

Sneha Wandhare

Guide

Prof. Swati Mohod

Abstract

Mechanical sorters are machines, usually integrated to a conveyor belt, over which agriculture products are sorted by external criteria like dimensions and weight. Such equipment is based on mechanical apparatus triggered by these criteria. For example, a product, be it fruit or vegetable, is dropped into a bucket when its weight or diameter are measured at higher values than a given threshold. When values are lower, it simply travels on the conveyor belt towards the following test. Mechanical sorters are fast and reliable. However, they are limited in that they test only generic criteria. Morphological image processing techniques are used for detecting spots or rottenness emerged on oranges. Image processing methods is developed to detect the characteristics of the oranges. Overall conveyor belt system is controlled by PLC.


Group no.

Description

3

Title

Krushimitra

Projectees

Mrunal Prafulla Mhaiskar

Sanyukta Patmase

Sayali Gunwant Nighot

Shivani Nitin Sendre

Akash Anil Deshmukh

Guide

Prof. Shilpa Katre

Abstract

In order to reduce the cost of Inefficient agricultural technique and improper Usage of water there is a need of Smart Agriculture monitoring bot. This bot will perform the analysis on the soil based on the pH value, dissolved oxygen and nitrogen content, temperature and humidity conditions to suggest the farmer type of crop to be cultivated for better productivity. To monitor and Enhance irrigation system for optimum usage of water so as to prevent Water loss and enhance productivity.


Group no.

Description

4

Title

Car Theft Intimation and Prevention System using Face Recognition.

Projectees

Devika Hemant Bapat

Prajakta Mohan Tamboli

Adwait Vishwas Moroney

Harshal Panjabrao Khuje

Shubham Abhay Joshi

Guide

Prof. Shashank Jaykar

Abstract

In the modern era, along with the technological development, there is an enormous increase in crime rate. Hence, security system is extremely essential. Now-a-days, automobile thefts are increasing at an alarming rate all over the world. Motor Vehicle Theft Rate in India is growing at an average annual rate of 6.90%. In 2018, Delhi Police have already recorded 4,970 cases of vehicle thefts as against 40,692 in 2017 which again hints that this year, the problem will even get bigger. The fact is less than 8 per cent cases are solved by the police. An average of 110-120 vehicles being stolen in the capital every day has been reported. The most common reason for a car theft is the unavailability of parking space both in residential colonies and commercial hubs this is why the thieves target the vehicles easily and the lack of parking space outside homes forces car owners to park their vehicles at a distance from their homes, which makes it difficult for them to keep an eye on their vehicles. Even there have been cases where vehicles have been stolen from designated parking spaces. The lack of security features in vehicles is also one of the reasons why thieves get better of the police and vehicle’s own security system. People don’t get security system installed which again make the things easy for these. Last year the police were able to recover only 10 percent of the stolen cars. The antitheft technology that is used in automobiles are costlier and not everyone is able to afford it. Since, the existing systems just focused on prevention from being stolen. But, only preventing theft will never solve the problem in actual sense. These provoked us to introduce the face recognition unit in our system which not only overcome the drawbacks of the existing systems but also helps in identifying the thief and keep its record for future investigation. The antitheft technologies include GPS tracking, RFID tags and biometric identification. We thought to develop a hardware that is less expensive and can provide you similar amount of safety that the other antitheft devices available in the market do. The anti-theft device will not require any additional effort while  using the secured item, without reducing the level of security.


Group no.

Description

5

Title

Smart Solar Grass Cutter

Projectees

Kalyani Choudhari

Monali Haribhau Barange

Nikita Prabhudayal Bisen

Shital Narendra Khode

Abhay Yashwant Khapekar

Guide

Dr. Narendra Narole

Abstract

This project of a solar powered grass cutter will relieve the consumer from mowing their own garden and will reduce both environmental and noise pollution. A grass cutter is a machine consists of variety of components such as blades ,rotor and motor used in household applications in order to cut the grass up to some particular height that can be varied according to the design criteria of grass cutter blades.This system allows for fully automated grass cutting system without the need for any human intervention.


Group no.

Description

6

Title

Solar Panel Cleaning And Monitoring System Using IOT

Projectees

Sakshi Sunil Choudhari

Shriya Ghanshyam Ate

Ujwal Kishor Dixit

Gaurav Pawan Kabra

Nishchay Narayanrao Barde

Guide

Prof Manisha Khorgade

Abstract

The project proposed here aims to design a solar panel cleaning system with a trolley mechanism. The biggest factor that makes up the cost of a cleaning robot is the driver system. Cleaning robots are most commonly installed on rails along the panels. These make the installation relatively expensive for two reasons.  The first reason is the obvious fact that more material costs more money. All parts are machined and often are built for several purposes, in order to fit a specific part on those types of projects. The second reason is the labor costs for installing the track system to the installation. Apart from rail based robots, there are other solutions for cleaning panels like sprinkler systems or robots driving on caterpillar tracks made from different suction cups.
However, these solutions lack both flexibility and cost effectiveness to be applied on a smaller scale. The last part of the problem statement focuses on applying the driver principle which works on our command automatically which leads to a concept that it could work in real life and to point out the strengths and weaknesses of the system.


Group no.

Description

7

Title

Designing And Fabrication Of Microstrip Antenna For Wlan  Application

Projectees

Anagha Anil Huddar

Simran Naresh Khodwe

Aniket Suresh Kadu

Rakesh Shivprasad Shahu

Chaitanya Ghate

Guide

Prof. Komal Tumsare

Abstract

An microstrip antenna of size 40mm X 40mm is design for WLAN applications like Wi-Fi , Wi- Max. In this project a partial ground structure (PGS) is used to achieve good isolation. Simulation is done to study reflection coefficient as well as bandwidth, directivity, peak gain, efficiency, impedance and VSWR.


Group no.

Description

8

Title

Agriculture field monitoring system using sensor
technology & Networking

Projectees

Diksha Chandrakant Kumre

Juhi Ashokrao Fukatkar

Pallavi Kukadkar

Shriya Prashant Laad

Taiyabba Sheikh

Guide

Prof. Yeshwant Deodhe

Abstract

Agriculture field monitoring system using sensor technology & networking can bring a green revolution in agriculture. Introducing this system can help in increasing the cultivation in a controlled environment. Greenhouse environment, used to grow plants under controlled climatic conditions for efficient production, forms an important part of the agriculture and horticulture sectors. Appropriate environmental conditions are necessary for optimum plant growth, improved crop yields, and efficient use of water and other resources.Farmers don’t know the exact condition of the weather so whatever activity performed by them is not accurate. They perform such activities either by observation or as per their feeling, so every time it may not possible that they would get the proper results. So to give the accurate result about what activity should be performed in a greenhouse by the farmers in different environment conditions this system is used. By means of the greenhouse, we can raise the efficiency. In our arrangement, we can monitor the conditions of the environment as well as manage the conditions from a remote place. So it exceptionally uses full system. It is based to perform following activities that are to monitor the system and control the system from a remote place that controls the weather inside the greenhouse by performing actions like fogger on/off or heater on/off etc. It contains basically Arduino UNO microcontroller, computer server and Android Smartphone in the system. This system works in two modes manual mode and automatic mode. Automatic mode is based on the threshold range. When sensors reach a certain threshold it will send the signal to the microprocessor or a microprocessor will process that signal and perform appropriate actions.


Group no.

Description

9

Title

Arduino based automatic plant Irrigation system.

Projectees

Neha Deshkar

Rachana Vijay Kadwe

Samrudhi Vijay Charde

Sneha Sanjay Nerkar

Vidhya Dhanraj Nagapure

Guide

Prof. Manisha Khorgade

Abstract

Plants need water every day but due to some problems people couldn’t able to do gardening. So we need automated system which helps in gardening. Here we are using electronic and 3 automatic system where the soil moisture sensor using arduino detects the water level in the soil. The whole process is automatic without any manual intervention. Water is a resource that all living species need. Generally, plants need to be watered twice a day, morning and evening. Various plants and crops have different requirements for water, fertilizers and sun. In busy schedule of day to day life, people can’t pour the water on to the plants in their gardens when they go to vacation or often forget to water plants. As a result, there is a chance to get the plants damaged. Therefore, we need the automated system which can help in daily life. In this paper we have evaluated different measurement technique most widely used to estimate soil moisture content. So, we introduce “SOIL MOISTURE DETECTOR CIRCUIT”. In this system, Arduino controls the sensor and Sensor will sense the moisture level of dry and wet soil and give their readings on the desktop.


Group no.

Description

10

Title

Bus Safty System For School Children Using  RFID And SIM 800 GSM Modal

Projectees

Rupali Dhadse

Sapna Prabhudas Doifode

Shradha Dhore

Tanvi Saptarishi

Rohit Verma

Guide

Prof. Apurva Ganar

Abstract

The paper proposed a bus safety system which was designed to control the entering/exiting of students from the bus. This system does several tasks, including identifying personal  information (Eg. Name) of each student using RFID tag, which will exchange the  data  with the RFID reader via radio waves, and displaying each student name into LCD display. This will let the driver to know the number of students inside the bus and the students who departed from the bus. In addition, if the bus depart and arrive successful from the source to destination, it will inform the management through an SMS about its successful departure and arrival. The key novel feature of the proposed methodology is the use of energy efficient  systems to support the tasks.


Group no.

Description

11

Title

GSM Based Automatics Overloading Protection System

Projectees

Ankita Madhukar Hedaoo

Divyani Shyamraoji Charpe

Harshita Ishwar Kothale

Priti Rajendra Kamble

Rohini Satish Gedam

Guide

Prof. Anagha Wankhede

Abstract

The current in a circuit depends on the rating of the appliances connected to it. The choice of wires depends upon the maximum current estimated to pass through them. If the total power rating of the appliances exceeds this permitted limit, they tend to draw a large current. This is known as overloading.Nowadays electrical overloads can be dangerous for home appliances because overloading can kill. Overloaded sockets can easily cause fires, which could be easily prevented. If too many appliances draw power from one socket it can start overheating and catch fire. In this project we will explain how electrical circuits work, how to figure out which outlets are on which circuit, and how to avoid overloading them. The power needed by the outdoor lights added to the load from the refrigerator, the heater and any other devices connected to the same circuit, and all of them running at once exceeded the capacity of the electrical wiring. An “overcurrent protective device” at the main panel will automatically shut off the power before damage occurs. In most cases, the device will be a circuit breaker that trips open. In older systems a fuse was “blow” (burn out). But finding a solution can be a hassle. This project is based on automatic protection of overloading. We design a circuit which overcome overloading problem. Automatically as well as manually operating techniques is used in this system. Here we also use GSM (Global System for Mobile). However the overloading occurs the micro-controller give signal to operator through GSM. Microcontroller also give command to the LCD (liquid crystal display), and it display a message and alert the user that the overloading has been occur.


Group no.

Description

12

Title

Service Robot For Human Resource And Support

Projectees

Amruta Jawanjal

Mrunali Dnyaneshwar Thakre

Priyal Kolhe

Shruti Suresh Nandanwar

Sudiksha Rajendra Deoghare

Guide

Dr. Narendra Narole

Abstract

In the last decade, the clinical reasoning in physical therapy has been to develop systems for physiotherapists to make clinical decisions rapidly, effectively and efficiently, in response to the increasingly complex needs of health and rehabilitation units. Some studies show the importance of walking aids during rehabilitation from some diseases, and after surgery for arthroplasty in the elderly population, and in elderly patients with balance disorders, muscle weakness or in people with diabetes mellitus. Walkers are important devices that aid the rehabilitation process. The use of a walker is recommended for gait changes and imbalance due to various factors, such as surgery of the lower limbs or neurodegenerative changes, especially in the early recovery period.


Group no.

Description

13

Title

Smart Drip Irrigation and Vegetable Cleaning System using Solar Panel.

Projectees

Deepa Arun Mohitkar

Mugdha Shriram Arekar

Shradha Sunil Durbule

Shivani Murkute

Sneha Chaudhari

Guide

Prof. Priyanka Mandavgade

Abstract

The main objective of this project is to establish an automatic solar powered Drip Irrigation and Vegetable Cleaning Process using solar panel. In Drip Irrigation Process, Farmers can save water, energy, and labouring time by adopting solar power. Vegetable Cleaning Process is a smart system that automatically washes the vegetable on field itself using solar panel. Irrigation is an artificial and an essential application of water historically followed to overcome the deficiencies in rainfall for the purpose of growing crops. Irrigation is the method in which controlled amount of water is supplied to the plants at regular intervals to maintain the soil moisture which is necessary for the germination of seeds. In many countries irrigation is an old art, as much as the civilization, but for humanity it is a science, the one to survive. The global irrigation scenario is categorized based on increased demand for higher agricultural productivity and decreased availability of water and power. These problems can be appropriately rectified by adopting an automated solar power based drip irrigation system which is linked to soil moisture sensor through Android mobile.


Group no.

Description

14

Title

MSEB E-Meter Reading

Projectees

Amruta Kamlakar Pise

Ketki Mulkar

Mahima Ishwar Junghare

Mandar Tamhan

Rahul Sahare

Guide

Prof. Shilpa Katre

Abstract

The MSEB E-METER reading is a advanced technology which increase the demand for automatic meter reading this proposed system replaces the traditional meter reading methods into the digital meter readings. Also they can monitor the meter readings regularly without the person visiting from home to home. Live meter reading from the GSM enable the energy meter is sent back to the billing point periodically and these details are updated in the MSEB office and we get the exact readings of meter with the updates of number of units consume at every end of the month. This technique helps to reduce human errors.


Group no.

Description

15

Title

Hand Gesture Recognition In Real Time For Partial Paralysed Person

Projectees

Abhishek Rajendra Tidke

Hitesh Bodhraj Zade

Pratik Avinash Patre

Vishal Thenge

Jayant Tambe

Guide

Prof. Dhiraj Bhojane

Abstract

According to recent survey in the world 7 million to 9 million of the total population suffers from the condition of PARTIAL PARALYSIS. These people face various difficulties to convey their messages within the society. The sign language is an important and only method of communication for deaf-dumb persons, but most of the time the normal people find it difficult to understand this sign language. . The blind people can speak freely whereas the dumb have their own manual-visual language referred to as language. Sign language is the language used by mute people and it is a communication skill that uses gestures instead of sound to convey meaning of a speaker’s thoughts. Signs are used to communicate words and sentences to audience. A gesture in a sign language is a particular movement of the hands with a specific shape made out of them. A sign language usually provides sign for whole words. It can also provide sign for letters to perform words that don’t have corresponding sign in that sign language. Hand gesture recognition help us to communicate with the partially paralyzed person. By using this project the hand gestures of partially paralyzed person can converted into predefined sound clips and it will display the LCD screen.


Group no.

Description

16

Title

Vehicle Monitoring And Tracking System

Projectees

Akshay Vilasrao Surose

Jitesh Raju Parate

Nischalkumar Bhandarkar

Rakesh Bhagwatji Asare

Swanand Welatkar

Guide

Prof. Prashant Wanjari

Abstract

This system is based on tracking the vehicles using GPS and GSM .This system can be used for commercial applications such as transportation industry, bus services. Using these system we can observe our driver as well as vehicle position on the map these system can also be useful for government to reduce the traffic on road. The system also able to calculate the overall distance the vehicle covered if using by specific transportation industry. The system receive vehicle state information through GPS and GSM, send information which is strored in database. The design of Vehicle positioning System Based on ARMˈa combination of GPS and GSMˈcan upload the information of the vehicle such as the position and speed to the Monitoring center.


Group no.

Description

17

Title

Automatic cloths size detection system

Projectees

Kanchan Thakare

Shilpa Sanjay Thakare

Dinesh Mohan Netam

Gauri Bobade

Kanchan Thakare

Guide

Prof Manisha Raut

Abstract

Cost effective solar power can be the answer for all our energy needs. Solar powered smart irrigation systems are the answer to the Indian farmer. This system consists of solar powered water pump along with an automatic water flow control using a moisture sensor. It is the proposed solution for the present energy crisis for the Indian farmers.This system conserves electricity by reducing the usage of grid power and conserves water by reducing water losses. In the field of agriculture, use of proper method of irrigation is important because the main reason is the lack of rains & scarcity of land reservoir water. The continuous extraction of water from earth is reducing the water level due to which lot of land is coming slowly in the zones of un-irrigated land. Another very important reason of this is due to unplanned use of water due to which a significant amount of water goes waste. For this purpose; we use this automatic plant irrigation system. The system derives power from solar energy through photo-voltaic cells. Hence,dependency on erratic commercial power is not required. In this paper, automatic irrigation system based on ARMs and RF module. All the system will be setup using ARM and RF module. The most important factor of this system is RF module which is used to send and receiving the message to the controller. This system used three nodes which communicate each other and irrigate paddy field automatically. The aim of our project is to modernizing agriculture technology by programming components and built the necessary component for the system. The system is real time based and extracts the exact condition of paddy field. There is one central node used which to control other node. The main function of RF module is to pass the message to the node and operate the system.


Group no.

Description

18

Title

IOT Based Fault Finding Of Underground Cable

Projectees

Akhilesh Anil Raut

Mehul Nilawar

Rishabh Khandekar

Uttam Sukhdeo Varma

Akhilesh Anil Raut

Guide

Prof Manisha Raut

Abstract

The main objective of this project is to determine the distance of underground cable fault from base station in kilometers. These project was based on arduino which is the heart of our system. The system circuit will determines the fault from the divider circuit based on ohms law and display the output on LCD display. Because of these output we determines whether the fault occurs or not and according to it maintenance work can proceed with the exact location of fault. These information was also send to the monitoring android app through the cloud by using wifi module which enables the user to monitor the system online.These system will reduced the lot of efforts, reduce the time for maintenance as well as save the cost of repairing.


Group no.

Description

19

Title

Automatic PCB Itching Machine

Projectees

Paresh Sonone

Abhishek Sakhale

Sapna Umare

Priyanka Ubale

Vaidehi Nagose

Guide

Prof. Shashant Jaykar

Abstract

Printed Circuit Board (PCB) designing is the most important process in electronics.As we know for making PCB’s, we spend so much time in etching process in colleges and laboratories .The purpose of this project is to reduce the man work and the time required for the making PCB’s. By this method, the amount of chemical (FeCl3) will be less utilized. We are also introducing a mobile application which will be controlled or interconnected with the system.We are also introducing image processing in this project.


Group no.

Description

20

Title

Iot Based Smart Irrigration Using Solar System

Projectees

Prajakta  H.Jambhulkar

Shruti S.Bhautkar

Konika Jamgade

Guide

Prof Manisha Raut

Abstract

Farmers usually work on large portions of land to grow different types of crops. It isnot always possible for one person to be able to keep track of the entire farmland all the time. Sometimes it may happen that a given patch of land receives more water leading to water-logging, or it may receive far or no water at all leading to dry soil. In either of the cases, the crops may get damaged and farmer may suffer losses. So in order to solve this problem, we propose an “IoT Based Smart Irrigation System Using Solar System “.This system consists of solar powered water pump along with an automatic water flow control using a moisture sensor. In this project, we will work with a soil moisture sensor Node MCU, WIFI-module and solar system to develop a smart irrigation system project that detects the change in moisture level in the soil and controls the flow of water accordingly. In this proposed system we utilize the solar energy from solar panels to automatically pump water from bore well directly into a ground level storage tank depending on the intensity of sunlight