IEEE 2019-2020 Project Titles on Raspberry-Pi

Abstract: Monitoring of the health plays a crucial role in the medical industry; an application for monitoring the children from distances by their parents is developed. Different types of sensors are used like; a temperature sensor is a device typically is an RTD. Heartbeat senor works on the principle of the basic optoelectronics. The Raspberry Pi 3 B + Model are presently the latest, faster, and easier to use. Massimo’s acoustic respiration sensor the RAS-45 for Rainbow Acoustic Monitoring scored FDA clearance for infants and patients 10kg and under. We use an IOT board that is used for online applications with many advantages and authorize the embedded system. We use ADC to convert analog values to digital values as output.
Abstract: Cultivation is the fundamental wellspring of pay of the general population in a nation like India adding up to 15-16% of the Gross domestic product of the nation. As per the financial overview of India 2018, around 55% of the number of inhabitants in India relies upon cultivating as their wellspring of occupation pay and time has come to acquaint a few changes with supplant those conventional cultivating rehearses with the development of money trims under computerized nursery utilizing IoT through remote sensors, actuators, microcontroller, raspberry pi, GSM module and associating links. In this paper, we have proposed a low cost greenhouse prototype model which can be afforded by the Indian farmers for the cultivation of cash crops such as saffron, vanilla, sugarcane, etc. and they can carry out the cultivation under this automated greenhouse thus improving their social, economic and financial condition by a great extent.
Abstract: Garbage disposal is one of the main problems faced in India regardless of the growth of the states and the area of development. It is a major problem in the under developed places It is found that most cases the trashes are spread across the road side because it is not collected on time. This trash leads to spread of disease and cause illness. There is a possibility of having some deadly disease. So, the proposed systems find the solution for the garbage disposal by designing a smart dust bin by managing the garbage. The garbage is collected, and the garbage collector sent from the control room. The smart dustbin sends the message to the control room through the sensors attached to it. The dustbin is attached with the ultrasonic sensor, infrared sensor for detecting the level of the waste and anonymous gases which is connected to a Raspberry Pi microcontroller where it is programmed to send message to the control room if the garbage is full and also if the garbage is not disposed for a long time.
Abstract:with every enhancement in Internet in terms of speed and bandwidth, IOT (Internet Of things) is taking the market on a new node and knocking the door with new opportunities of inventions. This paper talks about an energy saving electrical device Surveillance and Control system based on IOT. A large amount of energy is consumed by lighting appliances, so making improved efficiency and quick fault detection is a significant challenge. In this work, two different model approaches is followed depending on the nature of application. For small areas or confined premises IEEE 802.11 wireless technology is used where all the appliances is connected to a common Wi-Fi network. In the second model like street lamp pole where number of appliances grows only in one direction, wired configuration is used to avoid range issue.
Abstract: This research proposed a web-based monitoring system that can help to view in real time environment data like temperature and humidity. By using sensors connected to Arduino Microcontroller, the system collects data, transmits them to the Raspberry Pi Minicomputer which stores them on remote server and makes them available to Internet users. We use Wi-Fi Router based on GSM/GPRS Module as the network unity to send collected environment data to ThingSpeak web server. A supervisor through a dashboard monitors various data. The system can help to resolve emergencies. In this way, it simultaneously improves the quality of the environment through constant attention. This project enters in the concept of Internet of Things which consists of integrating the real-world into the Internet.
Abstract; Power theft is a blatant problem in electric powersystems, which causes great economic losses and leads to irregular supply of electicity. Power theft can be briefly defined as usage of power without the knowledge of the supplier. It has become the major problem in India and it is a crime. Overall India has highest losses about 16.2 billion dollar. Power theft can be happened in many ways one such way is that a registered customers steal either bypassing the meter ie: connecting around the meter to a live cable on a company side of the meter or tampering with the meter to make the meter to read less or no consumption. In order to eradicate the power theft it has to be identified. In this paper the raspberry Pi is fixed with threshold voltage and current whenever the voltage level get increased power theft is detected.
Abstract: Fire fighter robot is a machine developed by humans to guard human live, because the accidents happening during the fire extinguishing process is uncountable. This robot main function is to detect fire and move towards the fire automatically to extinguish it from a safe distance using water. This robot's movement and behavior will be fully controlled by a programmable raspberry pi. This robot which will be in a form of vehicle will move right, left, front and back to detect and extinguish the fire. This fire fighter robot will also have a thermal camera and an infrared camera mounted over it. The purpose of thermal camera is to detect fire and the temperature and the infrared camera is to provide night vision imaging which will do live recording of the entire process of extinguishing. This live recording can be viewed in PC reference which comes along with a log in system as well.
Abstract: This paper defines the concept of a new home-based solution for the future that has high performance intelligent systems to control more critical parameters such as humidity, temperature, lighting, door and window state, house energy consumption and many other features. The paper includes essential issues related to the design and implementation of an inexpensive and secure home security system for the general users. A wireless sensor network based on ESP8266, Raspberry Pi3 and a series of open source software packages introduces a very attractive feature in scalability, cost, compactness, ease of maintenance, ease of deployment and ease of customization of the entire system control. The security level is increased due to the use of Raspberry Pi3 control, which has built-in capabilities, sends SMS to the user, and is easily connected to other external devices.
Abstract: Environmental monitoring systems are often designed to measure and log the current status of an environment or to establish trends in environmental parameters. In this paper, We proposed an autonomous robotic system that is designed and implemented to monitor environmental parameters such as temperature, humidity, air quality, and harmful gas concentration. The robot has GPS coordinates, and it can store data on the ThingSpeak IoT platform. The mobile robot is controlled by a smartphone which runs an app built on the Android platform. The whole system is realized using a cost-effective ARM-based embedded system called Arduino and Raspberry Pi which communicates through a wireless network to the IoT platform, where data are stored, processed and can be accessed using a computer or any smart device from anywhere. The system can update sensor data to IoT server every 15 seconds. The stored data can be used for further analysis of the reduction of pollution, save energy and provide an overall living environment enhancement. The robotic system has designed for cost-effective remote monitoring environmental parameters without any human intervention to avoid health risk efficiently. A proof-of-concept prototype has been developed to illustrate the effectiveness of the proposed system.
Abstract: In water supply networks system, the major problem is water leakage. Unwanted water leakage due to leaky pipe lines and beneath the underground pipelines is almost always pertaining in drinking water supply networks. This system contains two sections, first part is leakage detection and automatically closes the solenoid valve for to prevent the over leakage of water and send SMS to the corporation using GSM module according to sensor information. By using GPS location to detect where the leakage takes place. The second part is that to fill the water tank by using android application.
Abstract: Now-a-days, crime rates are increasing at an alarming rate due to theft cases. It is equally important to catch the thief to prevent theft. Most of the time, thief escapes due to delay in action taken by concerned authorities at that time. In this paper, we present the design of a security system which solves this problem. The proposed system is for Smart Door lock technique with Raspberry Pi using IoT and is done by integrating webcam and motion sensor with e-mail. Raspberry Pi operates and controls motion sensor and webcam for sensing and surveillance. For instance, whenever any motion is detected, the webcam streaming starts and Raspberry Pi device alerts the owner through an e-mail on his registered mail-id. Whenever it is a wrong or random PIN entered, webcam captures the intruder’s image and sends it over e-mail for real-time action to be taken by the owner to prevent theft.
Abstract— in our country around 2.78% of peoples are not able to speak (dumb). Their communications with others are only using the motion of their hands and expressions. We proposed a new technique called artificial speaking mouth for dumb people. It will be very helpful to them for conveying their thoughts to others. Some peoples are easily able to get the information from their motions. The remaining is not able to understand their way of conveying the message. In order to overcome the complexity the artificial mouth is introduced for the dumb peoples. This system is based on the motion sensor. According to dumb people, for every motion they have a meaning. That message is kept in a database. Likewise all templates are kept in the database. In the real time the template database is fed into a microcontroller and the motion sensor is fixed in their hand. For every action the motion sensors get accelerated and give the signal to the microcontroller. The microcontroller matches the motion with the database and produces the speech signal. The output of the system is using the speaker. By properly updating the database the dumb will speak like a normal person using the artificial mouth. The system also includes a text to speech conversion (TTS) block that interprets the matched gestures.
Abstract: Autonomous miniature vehicles are widely used to test many types of algorithms and simulate the driving behavior as in the real world. In the last decade, several approaches have been proposed for obstacle avoidance in self-driving vehicles. In this paper, we present our autonomous vehicle implementation which gives a solid solution to this problem in an efficient manner, using a Raspberry Pi and a LIDAR module for indoor navigation. Our vehicle is capable of navigating in an unknown environment while avoiding obstacles. Unlike other implementations, our vehicle doesn't use Computer Vision (CV) techniques for obstacle detection but only a single LIDAR sensor and thus can safely navigate in low luminosity enviroments. We perfomed various experiments and verified the success of our implementation.
Abstract: This paper describes the prototype of the All Time Medicine and Health device for the use of every person in need of drugs or medical assistance. ATMAH comprises of an automatic medicine vending machine to dispense drugs as per a doctor's prescription. The vending mechanism is controlled by the raspberry pi which is a single board computer and the second aspect of it is the online portal for a user to check his prescriptions, and for the doctor to generate an e-prescription. The device dispenses out the prescribed medicines by the doctor when the user credentials of patients are validated from the database. The online portal is built on two fronts - a webpage and an android application which are linked to the same database. The patient can view his details and prescriptions through the android application or webpage by logging in with appropriate credentials.
Abstract: Wireless sensor network applications in the agricultural sector are gaining popularity with the advancement of the Internet of Things technology. Predominantly, wireless sensor networks are used in agriculture to sense the important agricultural field parameters, such as temperature, humidity, soil moisture level, nitrite content in the soil, groundwater quality, and so on. These sensed parameters will be sent to a remote station, where it will be processed and analyzed to build a decision support system. This paper describes the implementation of a wireless visual sensor network for precision agriculture to monitor paddy crop for weeds using Raspberry Pi. Bluetooth 4.0 was used by visual sensor nodes to send the data to the base station. Base station forwarded the data to the remote station using IEEE 802.11 a/b/g/n standard. The solar cell battery was used to power up the sensor nodes and the base station. At the remote station, images were preprocessed to remove soil background and different shape features were extracted. Random forest and support vector machine classifiers were used to classify the paddy crop and weed based on the shape features. The results and observations obtained from the experimental setup of the system in a small paddy field are also reported. This system could be expected to enhance the crop production by giving timely advice to the crop producers about the presence of weeds so that steps can be taken to eradicate weeds.