Multifunctional Intravenous Infusion Device based on Internet of Things

Team Members: Toyam Sharma, Khojema Makda, Jay Karelia, Raj Lodhari
Guided by: Prof. Chirag Vachhani

The major problem faced in these days for every hospital that is fighting towards COVID-19 pandemic is, dealing with the intravenous infusion (IV) bottle. In this situation monitoring the saline level of many patients at a time becomes a tedious and time-consuming task. An empty saline bottle connected to the patient can cause many serious medical problems to the patient’s health. Thus, real-time monitoring of the IV bottle is required to ease the task of the hospital staff and nurses. The user of the system can see the data of many infusion sets at a time on a single screen along with a low-level warning. Such a real-time monitoring system will be helpful to the hospital staff while dealing with many infusion bottles at a time. Battery backup for any emergency or power cut situation is also included in the project.

Accident Detection and Rescue System

Team Members: Chirag Mehta, Ankit Makwana, Nirav Gohel
Guided by: Prof. Anup Budhrani (anup.budhrani.el@vvpedulink.ac.in)

The project accident reduction and rescue system are implemented on the principle of minimum time required in between the serious incident happens to the individual injured person gets emergency service as soon as we could make it possible. By integrating the GPS module which is continuously monitoring the particular vehicle’s location coordinates attached with the MICROCONTROLLER BOARD itself as ARDUINO UNO embedded with the GSM module which regulates the intermittent sharing of such locations to nearby available emergency service centres which are pre-defined in the program itself. The whole prototype is powered by the battery connected with adapter suitable for arduino.

Witty Agro Monitoring and Controlling System

Team Members: Juhi Vala, Riddhi Solanki, Drashti Chauhan
Guided by: Prof. Shilpa Kathad (shilpa.kathad.el@vvpedulink.ac.in)

There are so many problems due to lack of awareness of farmers like perceptual power cuts, lack of ground water, motor malfunction, fear of animal and so on. This project gives the solution of most of the problems using Arduino, android application, and by using so many sensors. By adopting this system, not only farmers but also florists are able to monitor and control of the farm as well as garden. Also, for future scope Gsm module can be used for remote operation. Also, there is no gas or any kind of chemical used here or released so it is eco-friendly as well and also mainly there is no harm caused to the animals here and to the crops as well it will just give a kind of signal so that animals don’t come nearby the farm and also don’t get harmed by any kind of shock.

INTELLIGENT FARMING SYSTEM USING IoT

Team Members: Denish Dobariya, Vala Preeti, Raval Jeel
Guided by: Dr. Chirag Vibhakar

In India, income of majority population is bank upon agriculture. IoT – Internet of Things, is gaining its importance in computer communication due to its huge application in oriented project development. IoT is used for remote controlling as well as the real time monitoring, it becomes very interesting aspect for agriculture sector. IoT includes sensors, actuators, embedded system and internet connection. So, we have to develop an IoT application for smart farming system. There are so many problems due to lack of awareness of farmers like perceptual power cuts, lack of ground water, motor malfunction, fear of animal and so on. This project gives the solution of most of the problems using Arduino, android application, GSM module and by using so many sensors. By adopting this system, not only farmers but also florists are able to monitor and control of the farm as well as garden.

SMART FAULT DETECTION IN RING MAIN FEEDER SYSTEM

Team Members: Parsana Parth, Joshi Harshil, Thaker Dhyey, Prasad Ravishankar
Guided by: Dr. Alpesh Adeshara (elhod@vvpedulink.ac.in)

In modern power system, protection schemes are very complex and there is huge scope of research in this area. In the presented work on attempt has been made to detect the fault by smart means and to resolve the same quickly. The present work focuses on major issues of power system protection and operation of its various protection schemes. Our project area is electrical power system protection. In that we are going to work on hardware model designing and testing of ring main feeder protection system. Intrinsic of this project is faulty condition in isolate the faulty path from rest of healthy part in electrical network. The objective of a protection system to keep network in operation by isolating component those are under fault. In this experimental setup we will make the power circuit, control circuit, network simulation and Hardware model of ring main feeder protection system and component use relay, current transformer, potential transformer, circuit breaker, rheostat as a line impedance

PV PANEL BASED D-STATCOM

Team Members: Kukadiya Keyur, Kukadiya Pranav, Tank Manit, Kantariya Kartik
Guided by: Prof. Hardik Pandya (hardik.pandya.el@vvpedulink.ac.in)

distribution static compensator connected with solar photovoltaic (SPV) system employed for voltage regulation, power factor correction, and load balancing in the distribution network. The inverter employed with SPV system for supplying active power to the grid/load can be made multifunctional i.e. it also serves as DSTATCOM when SPV power is not available (The arrangement is called PV-DSTATCOM). For such an arrangement the need for the actually installed DSTATCOM for voltage regulation and temporary over voltage control can be either minimized or altogether eliminated, bringing a significant savings for the utility. The intention of this review is to provide a broad view on configuration, topologies, and control techniques to the researchers and engineers working on power quality improvement.

Enhancing the life of transformer through smart in build module for incipient fault.

Team Members: Vineet Parekh, Darshak Dadhaniya, Nikunj Tilala, Saurabh Samal, Nirav Raikundaliya
Guided by: Dr. Alpesh Adeshara

The idea behind development of this project is to sense the type and concentration of various gases that are evolving during transformer incipient faults inside transformer tank and to provide a suitable protection for fault as well as communicating the information about fault to user.

DESIGN AND ANALYSIS OF INDUCTION MOTOR

Team Members: Mendpara Keval, Bakori Shubham, Jivani Avadh, Makwana Jevin
Guided by: Prof. Kishan Bhayani (kishan.bhayani.el@vvpedulink.ac.in)

This project explains the design parameter of a 3-phase induction motor the torque improvement of a induction motor & speed regulation of a motor increase without using power electronics or semiconductor device, by changing parameter we can easily achieve the same at the same time the all over losses is less efficiency of a motor is increase.

Temperature regulator of solar water heater

Team Members: Bhayani Sagar, Dharsandiya Sagar, Gajera Akshit, Vora Jaydeep
Guided by: Dr. Chirag Vibhakar

In a solar water heating system, the most frequently met difficulty is to obtain the hot water at a required temperature continuously due to variation in the incident solar radiation over a day or even in the different seasons of the year. So, this concept will regulate the temperature of solar water heater by mixing of two waters having different temperatures.