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Water Level Monitoring System Using Internet of Things

Water Level Monitoring System Using Internet of Things

This project IOT liquid level Monitoring System is a very innovative system which will inform the users about the level of liquid. To demonstrate this system makes use of two containers. For this the system use ultrasonic sensors placed over the container to detect the liquid and compare it with the container depth. The system makes use of AVR family microcontroller, LCD screen, wifi modem for sending data and the system is powered by a 12v transformer. The LCD screen is used to display the status of the level of liquid in the container. Whereas a web page built to show the status of user monitoring it. The web page give the graphical view of the containers and heights of the liquid level in order to show the level of liquid .The LCD screen shows the status of the liquid level. Thus this system helps by informing about the liquid level. Thus this system helps by informing about the liquid level of the containers by providing graphical image of the containers via a web page.

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Industrial Automation and Speed Control

Industrial Automation and Speed Control

This project mainly focuses on the controlling industrial loads remotely and shutting down the operation when fault is detected during operation of machines when the user is away from the place. The system uses GSM technology thus providing universally access to the user for automated machine control. AT89s52 Micro Controller is the core component of this project.  The objective of this project is to investigate a cost effective solution that will provide controlling of industrial loads remotely with fault detection and protecting the system from damage. The motivation was to facilitate the users to automate their industry having universal access. The industrial automation control system with an affordable cost was thought to be built that should be mobile providing remote access to the machines and equipment.
The project uses a motor and a microcontroller of ATmega family that operates the loads. The user can remotely start and stop the operation as well as control the speed. If any fault is detected (like over voltage and line to ground) the motor is automatically switched off. The status of the load and speed are displayed on seven segment display.

Programmable logic controllers used in industrial applications are very expensive. Thus, tasks performed by costly PLCs can now be achieved using a micro-controller making the device cost effective.

RESPONSIBILITY OF DITM IN PROJECT MAKING

  •         Describe their expectations regarding student’s activities, time commitment, and performance.
  •         Provide competent advice on project work, research, and employment opportunities.
  •         Provide or arrange the necessary facilities, supplies, components and equipment to conduct project.
  •         Provide opportunities for students to be imaginative and innovative in pursuit of their project.
  •         Create an atmosphere of encouragement and support that leads to the successful completion of the project.
  •         Stay abreast of the student’s project and its progress.
  •         Provide assistance.

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RFID based Attendance System

RFID based Attendance System

PROJECT DETAILS

ECE DEPARTMENT


The paper describes the development of student’s attendance system based on RFID AND GSM followed by power saving concept. The existing system includes manual attendance which is very time consuming and at the same include lots of paperwork. The drawback of this system is that the student can make proxy or may do the sign of other student mistakenly or intentionally. Our system includes attendance of students by swiping the RFID card. This system is easily accessible by both  faculty and students.The faculty can easily keep the record of the student. This system also includes sending the overall attendance of the student to their HOD , so that HOD can also be aware about their STUDENT sincerity at same day. Keeping in mind their Importance of Power saving, we undertook this along with attendance system. As technology is getting advanced people nowadays have become more depended on it and have become lazy. They want everything to get automatized. Based on such factors power saving concept was developed. Radio frequency identification(RFID) is a matured technology that incorporates the use of electromagnetic or electrostatic coupling in the radio frequency portion of the electromagnetic spectrum to uniquely identify an object, animal, or person. They are grouped under the automatic identification (Auto-ID) technologies. RFID tags are not an"improved bar code" as the proponents of the technology would like you to believe. An RFID system consists of three components which include: an antenna, a transceiver and a transponder (the tag). The antenna and the transceiver are often incorporated into one reader. The antenna uses radio frequency waves to transmit a signal that activates the transponder. When activated, the tag transmits data back to the antenna. The RFID can read the tag using Radio Frequency, meaning that the RFID reader can be read from a distance, right through your clothes, wallet, bags etc. An RFID tag consists of unique ID for each tag. The RFID technology has been in existence since the early 1920s. This technology has been used in libraries, museums, race timing, toll collection and contact less payment, tracking of persons and animals etc

 

LOVELY 15007003006

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Anti Theft Toll System

Anti Theft Toll System
“RF Adaptive Anti-Theft Toll Collection System” is a new technology for collecting toll in a faster and more efficient way. It is a great alternative to long waiting at manual toll plazas. In order to overcome the wastage of time and fuel at same time we have come up with a concept of RFID based automated toll collection system using Microcontroller. RFID stands for Radio Frequency Identification; these cards are unique identities provided to every vehicle by Registration Office at each city. Whenever a vehicle with such Unique ID reaches the toll plaza, the RFID card reader attached on the toll plaza gate reads the card and transfers the unique ID to Microcontroller. Accordingly, the processor works and deducts a fixed money from the prepaid card. If the card’s ID is valid and has sufficient balance, the processor will command the DC motor to start and open the gate, letting the vehicle to pass. On passing from the gate the screen will show the deducted and current balance of the card. If the card is not valid or it is thefted vehicle then the microcontroller will processes the function and will not allow the vehicle to pass through the gate and the gate will not open.

This is very efficient and power full idea. This idea comes in my mind for saving of time, energy consumption and saving of life and provide perfect traffic controlling anti theft toll collection system.
In this we use two module such as transmitter and receiver module. Transmitter module placed on special vehicle and receiver module placed on traffic control room. if any thefted vehicle found on the road system automatically check and inform the control room.

For this purpose we use RF active module that send a particular no and according to vehicle system collect the toll money and pass the vehicle.

Participating Students


Abhishek: 15007003003

Darpit: 15007003004

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Baby Incubator Project

Baby Incubator Project

BABY INCUBATOR

The birth rate of underweight children increased growth of the past years due to chronic and genetic diseases such as heart disease and diabetes. Leading to their entrance to the incubators for a certain period. But the lack of incubators because of the high cost of prices leads to a large proportion of deaths among children. Or maybe the death of children due to technical lack reasons in temperature control.

In this project the collection of sufficient data to solve this problem has been gathered, to build incubator for children to complete the rest of their growth at a low price and high accuracy, this leading to preserve the lives of children.

Microcontroller was used as a key tool to control the temperature and humidity of the incubator to give signals to the tools used to help increase and decrease all of the factors above.  
TARUNA
16007003901 
ECE DEPARTMENT
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Robotic Arm Using ADXL335 By Electronics and Communication Engineering Student

Robotic Arm Using ADXL335 By Electronics and Communication Engineering Student
ROBOTIC ARM USING ADXL335 
In today’s world there is an increasing need to create artificial arms for different inhuman situations where human interaction is difficult or impossible. They may involve taking readings from an active volcano to diffusing a bomb. Here we propose to build a robotic arm controlled by natural human arm movements whose data is acquired through the use of accelerometers. 

For proper control Mechanisms and to reduce the amount of noise coming in from the sensors, proper averaging algorithm is used for smoothening the output of the accelerometer. The development of this arm is based on ATmega32 and ATmega640 platform along with a personal computer for signal processing, which will all be interfaced with each other using serial communication. Finally, this prototype of the arm may be expected to overcome the problem such as placing or picking hazardous objects or non-hazardous objects that are far away from the user. 

Participating Students:
Mrigank
Shilpa
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