2021-22 List of Final Year BE/B.Tech/M.tech/MCA IoT Projects

Project Code: RBI100
Abstract: Evolution of technology has always been endeavored with making daily life simple. With a fast paced life everybody today is harnessing the benefits of technology except some parts of the society .One of them is the visually impaired Who have to rely on others for travelling and other activities? This paper aims at providing one such theoretical model which incorporates the latest technologies to provide efficient and smart electronic aid to the blind. We have used IR sensors along with ultrasonic range finder circuit for hurdle detection. Bluetooth module which along with GPS technology and an Android application for blind, will provide voice assistance to desired location and in panic situations will send SMS alert to registered mobile numbers The basic objective of the system is to provide a convenient and easy navigation aid for unsighted which helps in artificial vision by providing information about the environmental scenario of static and dynamic objects around them.

For IEEE Paper & Synopsis contact: 9886468236 / 7022390800

Project Code: RIOT001
Abstract: In this paper, an approach to the development of medical wearables is proposed. The system integrates sensing modules, Wi-Fi microcontroller and Web browser based user interface. As an example, ECG-PPG monitor is presented. The signals are acquired by AD8232 ECG amplifier module and MAX30102 PPG and SpO2 system on chip. The ESP8266 microcontroller is used as a host, while HTML5 protocol with JavaScript, Canvas and Web Socket performs user interfacing, data post-processing and visualization. The idea and testing confirm satisfactory results, both in terms of performance and cost.

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Project Code: RIOT002
Abstract: A cost-effective portable glucose monitoring system with remote data access based on a novel e-oscilloscope was developed using a glucose biofuel cell and a capacitor circuit interfaced to an ESP8266 microcontroller programmed to convert the charge/discharge rates of the capacitor functioning as a transducer. The capacitor charge/discharge rates were converted into glucose concentration readings that is monitored remotely. The glucose monitoring system comprise a glucose biofuel cell, a charge pump circuit, a capacitor and an ESP microcontroller. The anode was fabricated by modifying a gold microwire with nanoporous colloidal platinum (Au-co-Pt) and the cathode was constructed using a mesh dense network of multiwalled carbon nanotubes modified with bilirubin oxidase, respectively. The glucose monitoring system showed sensitivity of 1.18 Hz/mM•cm2 with a correlation coefficient of 0.9939 with increasing glucose concentration from 1 mM to 25 mM. In addition, the glucose monitoring system exhibited optimal operation at a pH of 7.4 and 37 C, which is ideal for physiological glucose monitoring.

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Project Code: RIOT003
Abstract: In the present-day world we are residing in a highly industrialized and tech-driven environment. No single day goes without interacting with the mechanized surrounding. It goes without saying that it does have an adverse effect on the environment we live in. There is a concerning need to monitor the quality of air present in the working environment. This paper focuses on a device capable of monitoring the index of air quality in the industrial environment along with fire safety measures for the employees. This is achieved by using a wifienabled ESP8266 NodeMCU microcontroller which is interfaced with air quality monitoring sensor MQ135, DHT11 (humidity and temperature) sensor for environmental parameters and flame sensor (IR based) for fire safety. OLED (I2C) as a display module. The proposed device works with the Blynk application (an IoT platform) with Thingspeak cloud storage.

For IEEE Paper & Synopsis contact: 9886468236 / 7022390800

Project Code: RIOT004
Abstract: In the contemporary era, Now a days there is a surge in the crimes contra to the women. Women are obverse with molestation, sexual torment and acid assaults in the nonce civilization. There is no Impeccable system that ensures protection for the women. In this paper, a persuasive protection and alert framework for women has been evolved. The refined system assures a safeguard for women in the aspects of tracking, recording and self-defense. The smart women protection system is unified with Internet of things and open source technology to contribute favored ensue. The Raspberry Pi 3 and ESP8266 Wi-Fi device employed with modules aforementioned as fingerprint, GSM, GPS, camera, body sensors and Nerve simulator enhances to accomplishngly safeguard the women. The GSM, GPS, camera, fingerprint module and body sensors ensures the tracking and locating the women. The nerve simulator employs the job of self defense. In the case of troublesome situation, women in the equipped device ensures the fingerprint and then the GPS and GSM equipped with a microphone and speaker, camera and body sensors will be triggered and the location alerts will be directed to the corresponding persons and stats will be updated in the server also with the aid of nerve simulator an array of shocks can be remitted to the attacker. The developed framework insure that it immensely accomplishes its task in protecting a women in all the circumstances.

For IEEE Paper & Synopsis contact: 9886468236 / 7022390800

Project Code: RIOT005
Abstract: The Internet of Things (IoT) is the network of physical devices, vehicles, home appliances, and other items embedded with electronics, software, sensors, actuators and connectivity which enables these things to connect and exchange data. The number of IoT devices has increased 31% year-over-year to 8.4 billion in 2017 and it is estimated that there will be 30 billion devices by 2020. Water pollution is a major environmental problem in India. The largest source of water pollution in India is untreated sewage. Other sources of pollution include agricultural runoff and unregulated small scale industry that results in polluting, most of the rivers, lakes and surface water in India. In this paper, An IoT Based Smart Water Quality Monitoring System using Cloud and Deep Learningis proposedto monitor the quality of the water in water-bodies. In conventional systems, the monitoring process involves the manual collection of sample water from various regions, followed by laboratory testing and analysis. This process is ineffective, as this process is arduous and timeconsuming and it does not provide real-time results. The quality of water should be monitored continuously, to ensure the safe supply of water from any water bodies and water resources. Hence, the design and development of a low-cost system for real-time monitoring of water quality using the Internet of Things (IoT) is essential. Monitoring water quality in water bodies using Internet of Things (IoT) helps in combating environmental issues and improving the health and living standards of all living things. The proposed system monitors the quality of water relentlessly with the help of IoT devices, such as, NodeMCU. The in-built Wi-Fi module is attached in NodeMCU which enables internet connectivity transfers the measured data from sensors to the Cloud. The prototype is designed in such a way that it can monitor the number of pollutants in the water. Multiple sensors are used to measure various parameters to assess the quality of water from water bodies. The results are stored in the Cloud, deep learning techniques are used to predict whether the water suitable or not.

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Project Code: RIOT006
Abstract: This paper describes an internet of things (IoT)- based parking sensing system that deploys a robust outdoor vehicle localization and recognition methodologies. Although, parking occupancy monitoring systems have made a considerable progress, smart parking payment is rarely studied in smart parking research. This paper proposes a new low-cost sensor system allowing real-time parking occupancy monitoring along with parking payment without requiring any user/driver interaction. The proposed on-board vehicle transceiver device (VTD) sensor, will be deployed without having to install new components on each parking lot. It has benefits in terms of detection and payment reliability, and reduced expense by reducing the system complexity, infrastructure investment, and battery replacement expense. A robust vehicle recognition and parking occupancy monitoring is achieved using two-fold sensing approach. It is a sequence of motion detector and global navigation satellite system (GNSS) sensing techniques. The sensor is triggered when the vehicle is within a parking area thanks to a proposed radio frequency (RF) wake-up technique. As consequence, the energy consumption is optimized and the VTD has a power saving scheme with a power consumption as low as 20 µW at 3 V supply. The VTD can be seamlessly integrated into the intelligent vehicular ad-hoc networks (inVANETs).

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Project Code: RIOT007
Abstract: Nowadays, the smart home automation system has a significant role in makes daily work easier and efficient. Keeping room keys is an obstacle. Therefore many research has been proposed however the lack of a security system makes the automation systems less trustworthy and unreliable, as well as limited control distances. This paper purposes speech recognition to control the door and only registered people can access it. The proposed system uses microcontroller NodeMCU ESP8266 with a wifi connection to control actuators. The android application has features tracking history control menu, real-time monitoring menu, registration menu, and speech recognition control. The system security consists of a login system, biometric authentication, and specific speech command. The system also uses restful API technology and a java programming language for conducting data transactions either android or microcontroller with a database server. The results show a stable response time of 2 seconds for the microcontroller to control the smart home locally and distantly in one city. The system also proves the registration menu, tracking history control and real-time monitoring perform well with 100% success. The 3 levels of security system also have 100% success with each level must have a value true before doing control of the smart home. This level of security proves the application system is not easy to hack by anyone, very reliable and trustworthy.

For IEEE Paper & Synopsis contact: 9886468236 / 7022390800

Project Code: RIOT008
Abstract: Recent aggressive scientific and technological developments all these focus on a global environmental issue considering air quality system, reveals the fact that India is facing severe health hazards. In recent reports, more than 10 cities in India are listed on top. The air quality index (AQI) in India launched in 2014 under Swachh Bharat Abhiyan monitors air pollution on 10 scales ranging from low (green) to moderate (yellow) to serious (red) through data analysis of various air contaminating matters like pm 2.5, O3, NO2, SO2, CO. The present paper develops an Internet of Things (IoT) that enabled air quality monitoring system mobile in nature analyzing real-time surrounding data measuring Carbon Monoxide, Smoke and PM level. The system can measure local area air contamination and generate analyzed data based on which it alerts the people through a buzzer device integrated into the system. The user-friendly and easy handling of the system technology is such that it can be installed in houses and in small places.

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Project Code: RIOT009
Abstract: nowadays development of IoT applications with robotics is an ongoing revaluation. This paper mainly focuses on the security, remote surveillance, and monitoring of our homes done by the surveillance robots. Remote surveillance has become the most important research topic over the past decade. Through this paper we put forward a surveillance robot that can be used in domestic areas and many other places. Robots are becoming important in our day to day life activities as they reduce the human labor and probability of error. We can control robots manually or they can be automatic based on the need of people. This paper focuses on design and implementation of mobile robot for obstacle detection and avoidance in a real-time basis.

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Project Code: RIOT010
Abstract: In view of the measurement and control of temperature and humidity in the material warehouse of a factory, the Internet of things scheme is adopted, ESP8266 chip is used to connect WiFi, temperature and humidity sensor DHT11 is used to collect temperature and humidity, the collected temperature and humidity data is connected to Baidu intelligent cloud server through MQTT protocol, and the collected temperature and humidity data is sent to WeChat and stored in cloud through topic subscription and release of Baidu intelligent cloud According to, and at the same time use gray prediction model to predict the temperature and humidity data of the warehouse, through the WeChat end, you can view the current and predicted temperature and humidity data of the warehouse. The design of the measurement and control system is convenient and effective for real-time detection and prediction of the temperature and humidity data of the material warehouse. The system has the advantages of small size, low deployment cost and so on.

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Project Code: RIOT013
Abstract: Managing energy consumption in houses, industries or cities is a critical area in which IoT can contribute. This work present a low cost energy meter based on IoT, capable of measuring several energy circuits with a single microcontroller. The meter also provides power quality parameters, and is capable of online and bidirectional communication, so that the system can receive data and send commands to the meter. This enables configuring its measuring parameters and also creating energy saving policies or equipment protection. Experimental results show the system works as proposed.

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Project Code: RIOT014
Abstract: Recent advancement in healthcare technologies provides a new edge to the medical services. The health condition of the people living in remote rural areas of India is far worse than urban people. To monitor basic medical parameters for identifying the abnormalities in the early stage of chronic diseases need regular interval hospital’s visit which is a relatively costly and time-consuming process. Rare availabilities of medical experts or medical centers, ignorance of the people and proper care at the correct time are the prime causes of serious medical concern which leads to unexpected death. This work is an attempt to solve basic health problems and take advice from registered medical experts for the betterment of the targeted community. The imperative goal of the paper is to develop a costeffective and reliable Internet of Things (IoT) architecture customized health monitoring system to visualize some basic medical parameters like heartbeat rate, blood pressure and temperature of the patient. In the proposed e-Health monitoring system, the medical parameters are collected from dedicated sensors and send over the internet to the webserver through ESP8266 Wi-Fi module which is commanded by the Arduino controller. The registered medical experts can visualize and advise after analyzing the data of the patient present on the webserver. Hence, this system provides cost-effective, secure, reliable and real-time solutions for improving the health status of rural people.

For IEEE Paper & Synopsis contact: 9886468236 / 7022390800

Project Code: RIOT015
Abstract: The monitoring of water level in the agriculture irrigation channels is essential to control the opening gates of these channels. In this way, WSNs (Wireless Sensor Networks) have high relevance to obtain this kind of data. In this paper, we propose a sensor to measure the depth changes in irrigation channels to control the gates opening. It is connected to an Adafruit Feather HUZZAH based on ESP8266, which allows us to build a mobile edge computing system. The developed sensor is based on two coils. Sinus-wave powers the first one, and the second is induced. The coils are winding over a polyvinyl chloride (PVC) that has high resistance for corrosion and low price. Besides, we use copper wire as a conductive metal. We test two different configurations of coils. P1 has five spires for the powered coil (PC) and ten spires for the induced coil (IC). On the other hand, P2 has 40 spires for the PC and 80 spires for the IC. The two prototypes were coiled in one layer. Then, both sensors are tested using a glass bottle where the water column increased with the target to obtain the information of the depth. In both prototypes, the difference of voltage between the maximum and minimum studied depths is more or less the same, 4.46V for P1 and 4.44V for P2. Nevertheless, during the stabilization test, the P1 showed better adaptation for the turbulences than the P2. The P1 shows an oscillation of 0.48V, where the P2 has a maximum fluctuation of 3.2V.

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Project Code: RIOT017
Abstract: In the proposed system, a load balancing system for the residential purpose has been developed which can be connected to solar energy and grid. The load balancing system will ensure the usage of solar power as much as possible. When solar energy is low, power from the AC grid system will be used for the loads. The load balancing system identifies automatically the required loads and switches off unwanted loads to reduce power consumption. The system is equipped with passive filters for the reduction of harmonic distortion. Based on user requirement, a mechanism to switch OFF/ON the loads in the house will be provided by the load balancing system. This system is demonstrated with IoT based controller which interface the communication between the connected devices.

For IEEE Paper & Synopsis contact: 9886468236 / 7022390800

Project Code: RIOT018
Abstract: Energy-saving techniques play a key role, as there is a huge demand for electricity in the present situation due to increased population, urbanization and industrialization. Hence, energy monitoring techniques are becoming more prominent. Therefore, a considerable amount of research work is in progress for energy conservation. By using the Internet of Things, we can save energy to a great extent. This paper addresses the calculation of the energy consumption of a load. In this paper, we have proposed a low-cost energy monitoring system, which is used for saving a significant amount of energy by identifying the devices that are consuming excessive power and the devices can be turned off by using MIT Platform based App. The Wi-Fi enabled ESP8266 based circuit connected to the load, calculates the consuming energy and the user can observe the real values of consumed energy continuously by using the IP address generated by the Wifi module in the ESP8266. Hence, a significant amount of power can be saved using the proposed energy monitoring system. The problem with conventional energy monitoring is these methods only calculate the energy consumption of the loads but, using the proposed method the user can turn off the device, which is consuming excessive power.

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Project Code: RIOT019
Abstract: The current urban planning trend is to build smart cities that are advanced, safe and sustainable. To build these cities several technologies could be exploited including the Internet of Things (IoT) and edge computing. This motivated us to develop an IoT-based fire alarm system that uses edge computing. The developed system would be suitable in smart cities, as it mitigates issues faced by the existing fire alarm systems like installation overhead and lack of remote warning. Our system is an ad-hoc network of several sensing nodes and a single central node. Each of these sensing nodes consists of an ESP8266-nodeMCU connected to different types of sensors, such as smoke, temperature, humidity, flame, Methane and Carbon Monoxide (CO) sensors. These nodes are responsible for sensing the environment and detecting fire which means that they are smart end nodes and hence satisfying one of the characteristics of edge computing. The nodes transfer their readings to a centralized node that was implemented with a Raspberry Pi computer. Communication between the sensing node and the central node is through Message Queuing Telemetry Transport (MQTT) protocol which is carried via a bridge node. When a node detects fire, it signals the centralized node to alert the user and the fire department using the attached 4G module. An SMS is sent to them and the user is called. Users can inquire about the status of their home by sending an SMS. A prototype for the system performed the desired functionalities successfully with an average delay of less than 30 seconds and a node coverage of 1400m2

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Project Code: RIOT020
Abstract: The paper “Greenhouse based on IoT and AI for societal benefit” using a native microcontroller (LPC2138), environment monitoring sensors, communication module (ESP8266), along with a server design (which takes into account the real time weather forecast, and data analysis on the data gathered by sensors for irrigation decision) is focused on achieving automation, IoT deployment level -3, wrong weather forecast counter-action in real time with automation and intelligent control for water utilisation and optimization which will result in a uniform yield. The system described optimizes water utilisation on the basis of plant’s water need instead of cultivator’s assumptions by working on static data such as plant and soil type and environment dynamic data gathered from sensors. The data has been tested for algorithms such as Naïve Bayes, C4.5 and SMO (svm). A web page has been created which can be used for monitoring the data of green house.

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Project Code: RIOT021
Abstract: —The idea of home automation or smart home system derives from the ideal of doing things inside a home to be easily controlled and managed. Also, they can automatically work as the resident’s demand and increase the living standard in different aspects for life. This paper presents the work of using mobile application as an user interface that provides convenience for user(s) to be able to control the home appliance remotely by two alternative tasks; voice command and graphical user interface. The user interface employs the Google assistance for voice command environment while the graphical user interface is developed Blynk App. The experiment has been demonstrated with the environment which is programming commands to the Node MCU V3 ESP8266 to control the home appliance devices through Wi-Fi and the Internet. The test results to user(s) can control the On/Off switch in the connected devices by both methods of command. The effective work benefits firstly the user(s) of family, elderly, and may effective for disable people to empower themselves to live with least burden to the family member. Secondly, the ordinary people can develop the system for their home by extending the basic communication equipment they have with the effective cost of implementation.

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Project Code: RIOT022
Abstract: Entering the fourth industrial revolution, it is important to prepare the engineering students to have new skills, that is 21st skills. In Indonesia, the government has a program to overcome the new industrial revolution named Making Indonesia 4.0. One of the priority programs is to upgrade human capital. The implementation of IoT-based Project Learning (IoTbPL) is to support this program. In the 2019/2020 academic year, the instructor has decided the topic is “Smart Baby Incubator” as a case-study of IoT in healthcare. This topic allowed the students to an integrated device that consists of several sensors; actuators; and microcontroller unit, gateway, and server/cloud-based system. Through IoTbPL, the students can gain several skills, such as learning and innovation (4C’s), digital literacy, career and life skills that are proved in the project implementation and results. For example, the students free to determine the smart baby incubator device and the platform of the software. The majority of the students choose ESP8266 as a microcontroller unit that is connected to Android-based applications. Another team proposed to combine two types of microcontroller units: ESP8266 and Arduino Uno. The other one developed a webbased system instead of an Android-based application. In the next academic year, the IoTbPL implementation will focus on reducing the number of team members and proving several project topics. Index Terms—biomedical engineering education, human capital, IoT-based project, making Indonesia 4.0

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Project Code: RIOT023
Abstract: The Internet of Things (IoT) is a fast and upcoming sector, with applications that can be used in various fields. The users of IoT devices are increasing, as are the number of new products. Though users are preferring the usage of IoT devices due to its features, they are completely unaware of the security risks lying underneath. Therefore, it is essential that smart devices are more secure in terms of transmission of data and user privacy. This paper focuses on creating an Intrusion Detection System for IoT devices and networks, capable of detecting an attack, with a focus on three main attack vectors: DoS attack carried out using WiFi Deauther program, DDoS attack performed by SYN flooding on ESP8266 and botnet creation using Mirai malware.

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Project Code: RIOT024
Abstract: As it is known many people like to keep pets as they feel the atmosphere of the house becomes enlightened. They maybe terrestrial like dogs, cats, cows, etc. or birds like parrots, love birds, etc. or maybe aquatic animals like fishes. Also, study has proved that having a fish in the house can help the viewer to relax, reduce stress and it also maintains a good atmosphere at home. Taking care of dogs, cats, etc. is somewhat simpler than that of fishes. But fishes require extra care when it comes to checking the clarity of water, the amount of food that is fed to them, time intervals at which the food is being fed as well as any slight changes in the temperature. The project aims to automate the system and to ensure that human efforts are minimized. By using the already existing smartphone based application called Blynk, the user can control the fish feeder when he is out of town.

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Project Code: RIOT025
Abstract: The issue happened in transmission line is without question risky for the territory. In HV and EHV transmission line there are less issue event however in region the deficiency event is more when contrasted with external transmission line. In our model we structure a model which is to be distinguish the shortcoming in transmission line by looking at the node MCU is connected to an transformer, if power is flowed through this than a subsequent signal will go to GOOGLE Firebase database, it is depend on the number of transformer and its corresponding node MCU , if all signal will go to GOOGLE database means power line is on ok condition but if some data signal gone through on database and some data does not go so whose data signal is not working so it will assume that node MCU is not working and every node MCU has a unique area code id .The data with respect to issue event specifically stage is send to page through IOT gadget which is NODE MCU(Esp8266) and furthermore appeared in show.. Here microcontroller NODE is utilized in this IC writing computer programs is done which think about the voltage signal furthermore, send yield to IOT module and show. The power supply is given to supply 3.3-volt dc capacity to all segment this stock is separate from the stock which is utilized to check the issue event.

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Project Code: RIOT026
Abstract: Today’s Internet has changed the lives of many people it changed how people live. The Internet serves for many important things. The Internet Of Things (IOT) connects all the objects to the internet. Moreover, it controls those objects remotely, those objects through the internet. A system is necessary to constantly monitor the patient’s vital signs. The paper describes monitoring of heart pulse sensor data on the cloud using nodemcu.In, which the data is directly transmitted, to the cloud.

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Project Code: RIOT027
Abstract: As the world is progressing towards a digital era, technology is being used very judiciously to bring about advancements and also to improve the human lifestyle. Avoiding the implementation of these technological advancements in current lifestyle is like rowing a boat without a paddle. The basic focus is on having the smart sensors to join forces without human participation in order to deliver a new class of applications. The implementation of a smart bin plays an inevitable role in this process. This project aims at the implementation of a smart dustbin using an esp8266 module that has two main pins the trigger pin and the echo pin which are connected to the sensor. It helps to keep the surroundings clean and also help in reducing human labor. The lid / cover of the smart bin open when it detects an object on top of it. This is because of the ultrasonic sensor which is placed both on the top as well as the bottom of the lid. Once the trash has exceeded the set threshold value, the information is sent to another node which is raspberry-pi and this node prints the respective house number onto the monitor with the help of socket programming. For instance, if the timings for collecting the waste in a society is 8 in the morning and 6 in the evening, the person collecting the waste needs to monitor and approach only those houses whose number is being displayed on the screen.

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Project Code: RIOT028
Abstract: —Solar energy is gaining strong momentum as the future clean and renewable source among other sources of energy. Solar power generation has attracted much attention but there are not enough specialists for condition monitoring of the solar panel. As solar panels are exposed to outside conditions there are chances of reduction in efficiency due to dust, partial shading, cracks, delamination etc. This paper provides the analysis at normal and some faulty condition using equipment like PV analyser, Solar Power Meter and thermal camera to compare the results. The PV graphs, efficiency, fill factor and power are obtained at normal, partial shading and dust accumulated conditions using PV analyser. The thermal images and PV analyser results are compared under no-load, on load, partial shading and dust accumulation conditions. The obtained data is periodically uploaded to the cloud using NodeMcu, the uploaded data can be further used for monitoring the installed plant.

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Project Code: RIOT029
Abstract: The goal of the Internet of Things is to enable the connection of objects to the Internet, making it possible new paradigms and applications for humans and machines. Typical architecture of IoT systems relies on cloud services: simple sensors and actuators entrust to cloud intelligence for data analysis and action planning. The significant number of devices, the throughput requirements of data flows and latencydemanding applications impose today new paradigms as decentralized computing based on gateways. In this paper, we present a general gateway architecture and evaluate its performance in managing routine tasks of IoT applications. The architecture enables decentralized intelligence and distributed computing, and it introduces a low computational burden. These aspects, with the flexibility of the proposed architecture, make it a promising solution in typical IoT applications.

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Project Code: RIOT030
Abstract: This project deals with efforts to upgrade the working of existing IV(Intravenous).This is possible by connecting every IV bottle to the Internet using IOT(Internet of Things) technology. So every bottle and basically every patient can be monitored remotely via a website. In this project a Capacitive sensor is used to sense that whether there is fluid available in the bottle or not, if sensors detects air in the bottle, then this data will be send to NodeMCU which will have an actuator connected and actuator on the command of NodeMCU will stop the flow in the tube. This NodeMCU board has WI-FI Capability which will be used to send this data online, to a web server and from that web server data can be accessed by nurses and doctors. This significance of this project is to develop an IV with capabilities so that flow of an IV can automatically stop and a notification will be send to the nurses and doctors such that it will reduce the work of nurses and doctors and also help to reduce the causalities related to IV.

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Project Code: RIOT031
Abstract: This paper describes a Laboratory Automation System using IoT devices. The main hardware modules consist of: ESP8266 micro-controller by Espressif and energy meter HLW8012 by HLW Technology. The communication between the IoT devices uses IEEE 802.11g WiFi network, TCP/IP stack and MQTT protocol. The minimal configuration of the LAS includes one control device called Gateway and one manageable device called Host. The devices can be controlled remotely by user-friendly, simplified webbased interface. The project is published as open source software and hardware.

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Project Code: RIOT032
Abstract: Over the past few years, remote monitoring based services are developing in different domains such as traffic monitoring, healthcare, emergency management and environment protection. These applications presuppose the system ability to manage a lot of data coming from different systems. In this paper, the design of a module for remote and real-time monitoring of environmental parameters is indicated. The conceived architecture is based on the microservice paradigm and adopts the 2G data communication network.

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Project Code: RIOT033
Abstract: — A new smart voltage and current monitoring system (SVCMS) technique is proposed. It monitors a single phase electrical system using an Arduino platform as a microcontroller to read the voltage and current from sensors and then wirelessly send the measured data to monitor the results using a new Android application. The integrated SVCMS design uses an Arduino Uno as the microcontroller to measure the results from voltage and current sensors and then send this data, after calculation, to the Android smartphone device of an end user using Wi-Fi module. The Arduino Uno controller and ESP8266 W-Fi module are a cheap microcontroller and wireless device, respectively. The new Android smartphone application that monitors the voltage and current measurements uses the open source MIT App Inventor 2 software. It allows for monitoring some elementary fundamental voltage power quality properties. The system also calculates frequency and power factor of line using zero crossing detectors and from calculation of voltage and current respectively.

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Project Code: RIOT035
Abstract: Traffic congestion and accidents are mainly due to pathetic condition of road. The most common form of distress on such roads are potholes, which can compromise safety, and result in vehicle damage. Repairing the roads on regular bases will ensure the drivers safety and helps reduction in vehicle damage. There are many methods existing for pothole detection which use sophisticated equipment and algorithms. Due to the huge data computation such processes are slow and power consuming. In this paper, we propose an efficient depthbased pothole detection technique without any high computation and processing. In the proposed method we use the depth calculated by ultrasonic sensor as a base for detecting the pothole and there after its location is sent to mail. The results indicate that this method can be used in identification of potholes and maintaining the roads in proper condition.

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Project Code: RIOT036
Abstract: cardiovascular disease is the leading cause of death in India with more than 80% contribution from rural areas. A deep down study reveals some alarming reasons like financial degradation, high population growth, unavailability of a specialist doctor, unawareness on health status, and poor infrastructure of the hospital. Medical practitioner generally predicts cardiovascular disease from the certain screening parameters like heart sound, Electrocardiography, Heartbeat rate, blood pressure, etc. In this work, a complete patient data acquisition system, that collects different health parameters using specified sensors (ECG, HBR, Heart Sound), has been proposed acknowledging cost-efficiency, portability, reliability, and simplicity of the device. Solar powered acquisition system represents on board data storing, simple User Interface, realtime signal visualization, and IoT based remote monitoring using ThingSpeak and ESP8266.

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Project Code: RIOT037
Abstract: IoT is an emerging technology in today’s world. Things are widely used for collecting and storing the data from sensors to the cloud. Weather parameters can be easily accessed remotely using IoT applications. This is an IoT based system to collect the real-time weather parameters and store the data to the cloud platform. The collected data is displayed through the webpage. The stored data is of great advantage where weather forecasting is required. The weather parameter includes temperature, humidity, dew point, light intensity, air pressure, precipitation, and smoke percentage. The NodeMCU is used as an MQTT client to transfer the sensed data to the Thingspeak cloud platform.

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Project Code: RIOT038
Abstract: Air pollution, contamination, and Leakage of Liquefied Petroleum Gas (LPG) produce perilous and dangerous effects on human starts and other living. Subsequently, the author built up a framework to monitor by cloud and associated with it, the LPG gas leakage, and send an alarm to clients of it. Temperature and Moistness sensor and MQ-6 gas sensors are utilized for detecting the degree of gas concentration awareness of a closed volume and to monitor the outcomes of ecological changes an IoT platform has been presented. This paper describes the structure of a usable model dependent on the Internet of Things (IoT) ideas for continuous monitoring of different environmental conditions utilizing certain normally accessible and lower-priced sensors and associated with the cloud. The things utilized in this paper were (HDT11, MQ6, ESP8266, ATMega328p, Internet, and RemoteXY cloud server). The different ecological conditions, for example, temperature, dampness, and Liquefied Petroleum Gas (LPG) are ceaselessly monitored for air pollution, prepared, and controlled by using an ATmega328p microcontroller with the assistance of a few sensors. Strong control alongside cloud-based manual control has been applied to a control system utilizing the RemoteXY cloud server. Caught data are communicated through the internet with an ESP8266 Wi-Fi module. The anticipated framework conveys sensor data to an API referred to as RemoteXY over an HTTP protocol.

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Project Code: RIOT039
Abstract: A connected electric vehicle ecosystem can provide us with many benefits such as Better Range prediction, Over the air updates, Collision detection, Vehicle tracking and Traffic law enforcement. At the same time connecting every vehicle to the internet can turn out to be very costly, as each node may require its own internet connection which will be a repetitive cost depending upon the particular ISP providing the service. Using a mesh network of a single gateway and multiple nodes, can bring down the price of implementing such a system.

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Project Code: RIOT040
Abstract: Smart agriculture is a farming system which uses IoT technology. This emerging system increases the quantity and quality of agricultural products. IoT devices provide information about nature of farming fields and then take action depending on the farmer input. In this paper, an IoT based advanced solution for monitoring the soil conditions and atmosphere for efficient crop growth is presented. The developed system is capable of monitoring temperature, humidity, soil moisture level using NodeMCU and several sensors connected to it. Also, a notification in the form of SMS will be sent to farmer’s phone using Wi-Fi about environmental condition of the field.

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Project Code: RIOT041
Abstract: In this article, the optimized hardware with reduced cost an IoT based using a voice-commanded smart two-way automated system has been proposed and implemented. The ESP8266 NodeMCU micro-controller board is used as a central unit of this system. The system when used as smart Home Automation, initiated with a voice command over a smartphone given by the user using Google Assistant with a co-interfaced IFTTT (If This Then That) and the Blynk app platform which made this feature possible. The multichannel relay module for loads is interfaced with the central unit. The central unit processes the data as per the user input. When used for Agricultural monitoring the environmental parameters including soil moisture, air temperature and humidity (DHT11) has been analyzed and displayed on the OLED screen. Water flow was controlled using the water motor as per soil moisture threshold value. Hypertext transfer protocol based ESP8266 Wi-Fi based NodeMCU is routed to the Wi-Fi network and communicated with cloud storage(Thingspeak) and IoT platform Blynk. The data from the sensors of the specified environmental parameters have been collected, monitored and then sent to the storage cloud and Blynk through Wi-Fi. The paper focuses on achieving automation of two different fields with a single hardware system.

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Project Code: RIOT042
Abstract: The term “Air Pollution” generally refers to the outdoor air pollution, mainly caused by combustion of fossil fuels by industrial plants, smog, and emissions from cars and trucks. But the air indoors can also be polluted. Indoor air pollution refers to the contamination of indoor air. It may cause harmful health issues. The main sources of indoor air pollution are pesticides, chimneys which contain pollutants such as particulate matter, biomass smoke, fireplaces, moulds, and environmental tobacco smoke. The pollutants are nitrogen dioxide(NO2), Ammonia, sulphur dioxide(SO2), radon, carbon monoxide(CO), carbon dioxide (CO2) and benzene. In this Internet of Things(IoT) project, wireless air pollution monitoring system is built, which sends alerts to the user by using the Internet, when the concentration of pollutants measured goes beyond safer level. This system can be preferred over the existing systems because the alerts sent by the system can be received by the user on mobile phone from any distance irrespective of whether it is connected to the Internet. The microcontroller used is the NodeMCU Dev board v1.0 which consist of ESP8266, Wi-Fi enabled chip. The sensor used is MQ135, air quality sensor, which along with microcontroller can be used to monitor the pollution indoors.

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Project Code: RIOT043
Abstract: Since it’s advent in the 1970’s, renewable energy has been seen as an important step in the future towards a greener and more sustainable earth. As of 2017, 19.3% of the world’s electricity consumption was generated by renewable means. This along with recent advancements in technology has made harvesting renewable energy sources like solar energy cheaper and more accessible to the public. 2% or about 460kWh of the world’s consumable energy is from solar power and this number is said to rise as the years pass. Solar energy is a fast-growing, multi-billion dollar industry that continues to be cost-effective and a step towards sustainable energy. However, compared to fossil fuels, solar energy is less efficient. Nowadays, automation is being used to improve the way we harvest these energy sources. Automation can be provided by the use of Internet of Things (IoT). Using IoT, we can monitor various aspects or parameters regarding the performance of a solar panel so as to understand and improve the efficiency o f s olar p anels. T his p aper describes a solar monitoring system consisting of a microcontroller and various sensors that collect information such as voltage, current, temperature levels and angle of tilt of a solar panel and provides this information to the client using Amazon Web Services (AWS) in order for them to take necessary action

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Project Code: RIOT044
Abstract: The main purpose of the Smart Pill Box System project is helping patients with bipolar disorder or other illnesses to create their motivation to take medicine. Moreover, caregivers can take care of the patients more conveniently. Patients can use the application to setup the notification time for medication. Then the application will send the preset value to the pillbox system. The application will give an alert when it is time to take the medicine. In addition, when patients pick up the medicine from the pillbox system, they will receive points which will represent by the growing tree. Nevertheless, if the patient does not pick up the medicine within limited time, a notification will be sent to the caregiver to take further actions.

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Project Code: RIOT045
Abstract: The Internet of Things is an organization of many computing devices and machines used to transmit data through a system without human interference. IoT is used in our project to transmit various sensor values to the cloud through NodeMCU. The sensor value is sent to the cloud. Sensor values are monitored and manipulated using Thingspeak. The system can be viewed and controlled using the blynk app. DC motor tap is used to pump water to the plant when moisture in the soil decreases than its threshold value. The system is implemented on field and acquired desired results. The motor pump was successfully automated using IoT.

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Project Code: RIOT046
Abstract: — The growing population brings with it a problem of scarce natural resources. As a consequence, man-made resources such as electricity are not able to cope up and face the uphill task of catering to the rapidly increasing demand. Over the last decades various measures have been taken to improve the equipment and system design to improve efficiency of production, transmission and reduce power consumption. With the ushering of the digital era, microcontrollers and the internet through the Internet of Things (IoT) are the next level of tools in tackling the power crunch. By providing real-time information on the various parameters of the system and equipment, it allows for more radical and precise techniques for improving power system utilization thereby easing the demand on natural resources. Focusing on the endpoint domestic consumers, the Smart Power Socket aims at not only providing ease of control of household devices in a simple plug-and-play configuration, but also provides useful consumption/utilization data which familys can use for reducing electricity costs. With further digitization and implementation of IoT systems in the power domain, these systems can then be bolted onto the overall system, giving the power producers more in-depth insight into consumption patterns and aid in the design of better production systems and distribution systems

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Project Code: RIOT047
Abstract: Fish is one of the pets that need intensive care compared to others pet like cat, rabbit and hamster since they live in the water. Usually, fish had been abandoned with lack of care such as unclean water in the aquarium or fish breeding ponds. An IoT-based smart aquarium monitoring system is one of the solutions to cater the problems. This research presents a developed prototype of an IoT-based Smart Aquarium Monitoring System to keep a fresh water in the aquarium for fish life habitats. The system functions to monitor the fresh water for healthier fish life habitat. This system operates as fish feedings system and controlled by a smartphone in its operation. Arduino MEGA and NodeMCU controllers are used in the designed system. Wi-Fi communication on the NodeMCU is used between the smartphone and the controller to control the operation. Analog pH sensor is used to detect the pH value of water and display the value through the Liquid Crystal Display (LCD). The coding is created by using Arduino Software IDE while the BLYNK software used to create software applications for the Android operating system. The system is designed to monitor the pH value that is suitable with the type of fish life and control the fish feeding using smartphone in android application. This research is significant towards IR4.0 system development in supporting fish pets and larger project for fish breeding in the pond can be sampled with this project that contributes to economy impacts for the country

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Project Code: IOT35
Abstract: The Internet of Things [IoT] is the network of physical devices, vehicles, home appliances, and other items embedded with electronics, software, sensors, actuators and connectivity which enables these things to connect and exchange data. The number of IoT devices has increased 31% year-over-year to 8.4 billion in 2017 and it is estimated that there will be 30 billion devices by 2020. Water pollution is a major environmental problem in India. The largest source of water pollution in India is untreated sewage. Other sources of pollution include agricultural runoff and unregulated small scale industry that results in polluting, most of the rivers, lakes and surface water in India. In this paper, An IoT Based Smart Water Quality Monitoring System using Cloud and Deep Learning is proposed to monitor the quality of the water in water-bodies. In conventional systems, the monitoring process involves the manual collection of sample water from various regions, followed by laboratory testing and analysis. This process is ineffective, as this process is arduous and time-consuming and it does not provide real-time results. The quality of water should be monitored continuously, to ensure the safe supply of water from any water bodies and water resources. Hence, the design and development of a low-cost system for real-time monitoring of water quality using the Internet of Things [IoT] is essential. Monitoring water quality in water bodies using Internet of Things [IoT] helps in combating environmental issues and improving the health and living standards of all living things. The proposed system monitors the quality of water relentlessly with the help of IoT devices, such as, NodeMCU. The in-built Wi-Fi module is attached in NodeMCU which enables internet connectivity transfers the measured data from sensors to the Cloud. The prototype is designed in such a way that it can monitor the number of pollutants in the water. Multiple sensors are used to measure various parameters to assess the quality of water from water bodies. The results are stored in the Cloud, deep learning techniques are used to predict whether the water suitable or not.

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Project Code: IOT34
Abstract: In the contemporary era, Now a days there is a surge in the crimes contra to the women. Women are obverse with molestation, sexual torment and acid assaults in the nonce civilization. There is no Impeccable system that ensures protection for the women. In this paper, a persuasive protection and alert framework for women has been evolved. The refined system assures a safeguard for women in the aspects of tracking, recording and self-defense. The smart women protection system is unified with Internet of things and open source technology to contribute favored ensue. The Raspberry Pi 3 and ESP8266 Wi-Fi device employed with modules aforementioned as fingerprint, GSM, GPS, camera, body sensors and Nerve simulator enhances to accomplishngly safeguard the women. The GSM, GPS, camera, fingerprint module and body sensors ensures the tracking and locating the women. The nerve simulator employs the job of self defense. In the case of troublesome situation, women in the equipped device ensures the fingerprint and then the GPS and GSM equipped with a microphone and speaker, camera and body sensors will be triggered and the location alerts will be directed to the corresponding persons and stats will be updated in the server also with the aid of nerve simulator an array of shocks can be remitted to the attacker. The developed framework insure that it immensely accomplishes its task in protecting a women in all the circumstances.

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Project Code: IOT33
Abstract: In the present-day world we are residing in a highly industrialized and tech-driven environment. No single day goes without interacting with the mechanized surrounding. It goes without saying that it does have an adverse effect on the environment we live in. There is a concerning need to monitor the quality of air present in the working environment. This paper focuses on a device capable of monitoring the index of air quality in the industrial environment along with fire safety measures for the employees. This is achieved by using a wifienabled ESP8266 NodeMCU microcontroller which is interfaced with air quality monitoring sensor MQ135, DHT11 [humidity and temperature] sensor for environmental parameters and flame sensor [IR based] for fire safety. OLED [I2C] as a display module. The proposed device works with the Blynk application [an IoT platform] with Thingspeak cloud storage.

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Project Code: IOT32
Abstract: A cost-effective portable glucose monitoring system with remote data access based on a novel e-oscilloscope was developed using a glucose biofuel cell and a capacitor circuit interfaced to an ESP8266 microcontroller programmed to convert the charge/discharge rates of the capacitor functioning as a transducer. The capacitor charge/discharge rates were converted into glucose concentration readings that is monitored remotely. The glucose monitoring system comprise a glucose biofuel cell, a charge pump circuit, a capacitor and an ESP microcontroller. The anode was fabricated by modifying a gold microwire with nanoporous colloidal platinum [Au-co-Pt] and the cathode was constructed using a mesh dense network of multiwalled carbon nanotubes modified with bilirubin oxidase, respectively. The glucose monitoring system showed sensitivity of 1.18 Hz/mM·cm 2 with a correlation coefficient of 0.9939 with increasing glucose concentration from 1 mM to 25 mM. In addition, the glucose monitoring system exhibited optimal operation at a pH of 7.4 and 37 °C, which is ideal for physiological glucose monitoring.

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Project Code: IOT31
Abstract: In this paper, an approach to the development of medical wearables is proposed. The system integrates sensing modules, Wi-Fi microcontroller and Web browser based user interface. As an example, ECG-PPG monitor is presented. The signals are acquired by AD8232 ECG amplifier module and MAX30102 PPG and SpO2 system on chip. The ESP8266 microcontroller is used as a host, while HTML5 protocol with JavaScript, Canvas and Web Socket performs user interfacing, data post-processing and visualization. The idea and testing confirm satisfactory results, both in terms of performance and cost.

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Project Code: IOT30
Abstract: In todays world, the major question in every girls mind is about her security and safety. A few years back, a woman has to go for the convivial system [social media] to protest and warn about sexual harassment faced their self. A report shows that 51% have to experience sexual harassment unwillingly. The percentage turned to 66%, 38% and 35% for the public places, workplace and at their home respectively. At first, the cases handling by the police are a major issue but there have some botherations like not knowing the victims exact location, not knowing surely the crime occurred at all, and then lack evidence, police stops investigation. This paper is focused on a new IoT based evidence-collecting device to ensure womens safety and security. This system consists of a Raspberry pi, buzzer, and camera; flex sensor, GSM, and GPS modules in a combined way. Women can use this compact device with their undergarments easily and comfortably.

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Project Code: IOT29
Abstract: As modernization brings employment as well as the population in Cities. Due to an increase in population, many cities in the world are facing water crises as their groundwater levels are decreased. To overcome this problem, a smart solution is proposed with the water meter using IoT. Here, a meter is designed which calculates the number of liters consumed by the family or a person and consider some threshold value if their consumption exceeds the value will control or stop the supply for that day. This data can be obtained by the consumer from the Android app or the cloud server.

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Project Code: IOT28
Abstract: Groundwater is one of the major sources of drinking water in most of the countries. Dumping of waste in landfill leads to the contamination of the underground water, which is termed as Leachate, which contains harmful organic and inorganic matters which makes the underground water unusable for consumption. This project proposes an IoT based water quality monitoring system and alerts the concerned authorities if the consumed groundwater is polluted. The proposed system uses various sensors, Node MCU and is integrated with cloud infrastructure for database storage and for real-time dashboard maintenance of the measured parameters.

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Project Code: IOT26
Abstract: The transformer is playing a vital role in the electrical power grid. As it deals with high voltage and current which can greatly affect the functioning and physical condition of the device, continuous monitoring has become an integrated part of its operation. This paper presents a review on IoT (Internet of things) based electrical parameters monitoring and controlling technology to avoid its successive catastrophic failures. Here, different sensors and server models are used for communication, mostly used is GSM-GPRS. In case of some abnormality, this advanced monitoring system will deliver a message to a dedicated device for further course of action. The work done in recent few years in the field of parameter monitoring using the internet is discussed here.

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Project Code: IOT25
Abstract: Microgrids are local electric and load networks which can be used by chip-level materials to form part of a broader power infrastructure or an individual power grid. Micro-grid will help the business transition from non-renewable to reliable and renewable energy. Their implementation in current chip-level systems will be updated. Currently, 25-50% of the electricity generated in power plants is wasted in transmission and distribution. The replacement of chip-level hardware technology of small DC micro grids drives operational performance, efficiency and network stability in order to offset the exhaustion of the global power system. This paper is intended to create an automated IoT device which constantly monitors and regulates failure clearance under failure conditions, i.e. current flow and voltage flow through different branches of the DC Micro grid. In the event of several errors, the customer should be informed today.

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Project Code: IOT24
Abstract: Nowadays, the standing expansion in air quality, temperature, and mugginess end up being a disturbing issue, particularly in the mining business. The aim of this research is to show a mine air quality contamination checking framework that is equipped for measures different sorts of poisons, and its level that proposed through ongoing utilizing the Internet of Things (IoT). This framework will be furnished with an organization of sensors like the gas sensor, temperature, and humidity sensor and the information from these sensors will be communicated utilizing Arduino as a microcontroller, if there is any indication of an inside threat a notice ready will be shipped off both the digger and the security official by a signal and the remote organization. In this research, the proposed Arduino framework upgrades mine environmental security by rapidly foreseeing mine air quality.

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Project Code: IOT23
Abstract: The following paper gives a Sharp view of technological innovation in underperforming agricultural branches such as sericulture, and it explains the system and techniques to be employed to increase the quality and productivity in the sericulture. In this brief communication, the paper will present how the complicated process such as monitoring the environmental parameters such as humidity, temperature and rain also with the health of the silkworm. Simultaneously improving quality of silk by controlling environmental parameters and proper aggregation of cocoons are done. All these operations are achieved by using Arduino aided internet of things [IoT], image processing technique and smart sensors. The system also helps the farmer with real-time data with a simple cloud interface implemented by Rest API. The overall goal of the innovation is to provide an effective technological solution to the field of sericulture at the same time being cost-effective and easy to maintain.

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Project Code: IOT22
Abstract: One of the most efficient means of drug administration in any healthcare setup is intravenously. Intravenous mode facilitates fastest delivery of medication and ensures fluid replacement all through the body. Existing intravenous drip set up for drug administering is manually controlled and is not accurate. Also, the inability of doctors to enter radioactive scan chambers to monitor the IV drip setup is an age-old problem associated with the existing system. The need for a device made to answer all these issues is identified, which can also solve another major problem i.e., patient anxiety. A systematic clinical immersion and survey was undertaken and observations made during this exercise led to the proposal of an alternate efficient drip rate controlling and monitoring device based on IoT. The proposed novel device intends to resolve the major issues such as air embolism and blood backflow. Apart from this, it can also provide efficient drug administration at precise intervals in neonates and pediatric subjects.

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Project Code: IOT21
Abstract: Security play a significant part in this day and age and it is fundamental that acceptable wellbeing frameworks are to be actualized in spots of schooling and work. Gas spillage is the significant issue in private premises, mechanical area, homes and so forth. To stay away from this mishap because of spillage, a gas recognition unit will be introduced. The principle target of this examination work is to recognize gas spillage and control it consequently after the location of Liquefied Petroleum Gas [LPG] spillage. Utilize this work changes the current security model introduced in enterprises and this framework in homes and workplaces. The valve is naturally shut utilizing a solenoid valve and the gas spillage is forestalled. Simultaneously, the fumes fan is turned on naturally. Liquid Crystal Display [LCD] will show that there is LPG spillage and an alarm message will be shipped off the client by means of an application in their cell phone utilizing IoT. For discovery of LPG spillage, the gas sensor has been utilized which is exceptionally touchy to gas like butane and propane. The benefit of this computerized location and alarming framework over the manual strategy is that it offers snappy reaction time and exact identification of a crisis and thusly driving quicker dispersion of the basic circumstance. In addition, a fixed load cell helps to determine the weight of the LPG and once it reaches a low level, booking of LPG can be done using the application.

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Project Code: IOT20
Abstract: Nowadays IOT is used for monitoring the system data online. Data can be accessed by different users from any place to control different parameters of the machine using sensors. This paper focuses on online control of speed and temperature for given single phase induction motor. The Simulation of inverter for controlling the speed is carried out using PSIM. Data acquisition system collects information from the sensors and is stored in cloud. Further this data can control and monitor the power consumed by individual load.

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Project Code: IOT19
Abstract: In the current decade, we are facing a parking problem with the advancement in technology. The population in urban cities is dense due to which lots of vehicles are running on the road leads to the parking problem, traffic problem. The world is facing the new challenge of Vehicle parking. It is observed that one million vehicles consume oil on daily basis. In this paper, an automatic real-time system for automated Vehicle parking is proposed. This system has been implemented with the help of the internet of things [IOTs]. IOT generally exchanges information or data between the two physical devices. Arduino Uno is a microcontroller used in the proposed system. The main use of Arduino in the proposed system is to provide a platform to communicate digital devices and interactive objects that can sense and control physical devices. The proposed system has been implemented with the help of Arduino Uno board for vehicle parking and Node MCU to connect parking area with web or internet. The proposed system incorporated an infrared sensor in each slot for getting information about the vacancy position of the parking slot. The user book-parking slot well in advance, all the necessary information is available on the server. Every user has an exclusive username and password. In case any misuse happened then the system will alert the responsible person.

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Project Code: IOT18
Abstract: In recent years, baby care has become more important and challenging for working mothers. Even at home, working mothers will not have enough time to monitor their babies continuously. They give the responsibility of their baby to either a baby caretaker or they send the baby to their grandparents house. In the proposed work, a smart cradle with an automated baby monitoring system was developed. In the baby monitoring system, the necessary parameters of the infant like temperature, heartbeat rate, gas molecules, capture the motion and position of the baby were measured and monitored. The S.ODI board is used for interfacing the sensors and actuators. The baby monitoring system is attached to the cradle so that an incubator kind of environment will be created for the baby. The baby monitoring system monitors the baby 24×7. The measured parameters regarding the babys health like temperature, heartbeat rate, dampness on the baby bed will be displayed in the mobile application. If the recorded readings show any abnormalities, the necessary actions like controlling temperature, switching on or off the fan, setting up cradles movement, playing music for the baby will be taken. If the readings seem abnormal, the caretaker along with the parents will get an alert message. The motion and posture status of the infant can be monitored using motion Eye OS. The baby monitoring system prototype helps the parents in time management and makes it easier for the caretakers as well. This baby monitoring system is proven to have less harm for the baby with the most accuracy. This monitoring system is a highly efficient IoT based system for realtime monitoring with the best security measures.

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Project Code: IOT17
Abstract: The vast majority of the poultry barns in India are physically checked and administered. Temperature, air quality, dampness, illumination, oxygenating the barn and food intake by the chicken are the significant elements that should have been checked and controlled. These variables are straightforwardly identified with the poultry creation. Presently, the death pace of chicken is more at poultry farms. This project is planned to farm healthy layer chickens and lessen death pace of chicken and to ameliorate the coherence of the poultry products by observing and keeping up the temperature, dampness, air quality and food feeder viably utilizing Wireless Sensor Networks [WSN] technology & Internet of Things [IoT]. A model was made utilizing IoT and WSN advancements and the mentioned boundaries were tried against limit esteems. This framework additionally sends programmed ready notice to the client through SMS. A Web interface is additionally made to screen and show these boundaries.

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Project Code: IOT16
Abstract: With the development of the Internet of things [IoT], many tasks are automated. The system aims to make the daily tasks of humans in the kitchen easier. This system provides IoT-based Smart Pantry level monitoring using the Internet of things. The containers are fitted with sensors. These are used to gather data about the stock level of items in the container. This data is collected and stored in the cloud. The data is continuously updated. The information includes the changes of weight in regular intervals of time. This system enables a user to view the level of items in a container from any place. The system alerts the user if the containers level goes below minimum weight. It also sends the message to the shopkeeper to place the order of a particular item.

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Project Code: IOT15
Abstract: The need for the soil in agriculture is crucial and its role is prominent. But the process of urbanization takes away the land in larger areas. So continuous cropping on the rest of the land makes the soil to lose its fertility as all the nutrients are consumed. In quest of an alternative solution, we have gone through the Hydroponics. In this paper, we integrate IoT into our solution and also reduce power consumption by utilizing Solar Energy. Hydroponics is a special type of farming where the growth of plants takes place in a soil-free medium, provided with a blend of water along with nutrients. As an alternative for soil, we are here using Rockwool as support for plants to withstand. We provide the water with nutrients required by the plant, the plants do not have to call for root system on the lookout for water, nutrients, oxygen. In this process, the plant is permitted to spend its energy on its production. Hydroponics allows us to make farms in certain locations where conditions of soil are too poor to support farming, space is limited. The IoT system continuously monitors the farm and also displays the data with regards to the plant growth by which we can get the values of pH,water level, temperature, and humidity in the hydroponic reservoir. The role of pH sensor is main as we are using nutrient-enriched water. The initiation of IoT in Hydroponics assists farmers, by keeping an eye on the plant growth by delivering information regarding the aspects of the water, humidity, temperature. The respective statistics are achieved through cloud-connected sensors.

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Project Code: IOT14
Abstract: The Indian healthcare scenario has been gradually changing in terms of the use of advance healthcare and healthware systems. In accordance with the recent surrounding conditions and increasing health issues rate, accelerate the use of healthware and healthcare system. The growth of healthcare systems in India is obstructed due by lack of medical professionals, hospitals, poor accessibility to medicines, and unavailability of quality healthcare in distant and rural areas. The Internet of Things (IoT) can play a vital role in improving the poor healthcare system in India by providing a proficient, integrated, well connected, patient-centered system. The IoT technology has emerges with various IOT based healthware, medical monitoring system, and smart homes for elderly patients suffering from chronic disease which serves as an efficient solution to qualitative, effective and accessible healthcare system. The present study provides a review of the available healthware and healthcare system in India and their efficacy for healthcare space.

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Project Code: IOT13
Abstract: In the healthcare sector, the Internet of Things (IoT) has sharpened the world by providing improved patient care, such as remote monitoring, tele monitoring and widening the scope of telemedicine. IoT plays a key role in the medical industry by providing better medical facilities for patients as well as for physicians and hospitals. The proposed system consists of five basic components, namely patient data collection, generation of patient primary reports, hospital patient care, pharmacist patient care and diagnostics. The objective of the proposed system is to provide excellent patient support even in remote areas, which could be smart enough to analyze the data collected by wearable IoT sensors and would be able to provide a recommendation for a check-up. The proposed system will also create an interface between the patient, the physician, the pharmacist and the diagnostician and will also improve decision-making skills and ease the traditional flow of the normal healthcare system

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Project Code: IOT12
Abstract: The implementation of traditional air quality monitoring systems has been done with the help of air quality measuring sensors, Zigbee module, a suitable 16 bit microcontroller, GSM module, and GPS module. It also helps to monitor from any remote location by using GSM module. On the other hand, the traditional system poses some drawbacks like increased power consumption by the ZigBee module, less processing capacity of 16 bit microcontroller and increased implementation cost for incorporating GSM and GPS module. Later, an IoT based monitoring system has been developed to measure the air quality but monitoring and gathering the data from multiple nodes and displaying it in single database becomes more complicated. The node failures may also happen if the particular node losses the internet connection and results in consuming more latency time. The proposed model can be used to efficiently monitor the air quality by using LoRa LPWAN (Low-Power WAN) gateways. The major advantages of the proposed method are low power consumption, easy gathering of data from multiple nodes, high processing speed, reduced cost and low latency time. After getting all the parameter values to display the 20X4 LCD Display locally and upload any one IoT Cloud platform. Here, this research work has proposed the Ubidots IoT Platform, which is very interactive and innovative to each and every parameter visible in GUI analytics

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Project Code: IOT11
Abstract: Communication between normal people and people with vocal and hearing troubles is a difficult task. The sign language used by these people is not understandable by the common people, so it creates a communication barrier. People who are paralyzed also require assistance regularly. For such people we have proposed Implementation of IOT based Smart assistance gloves for disabled people. The gloves we designed is very simple yet effective when compared to the existing system. With the help of flex sensors, the finger gesture is detected and the corresponding instructions are displayed in the android app with audio output. The proposed system is implemented by Arduino uno and Raspberry pi, where the communication between these two modules is done by wireless serial port module due to its secured data transmission. An alert message will be sent through the GSM module during emergency situation

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Project Code: IOT10
Abstract: In recent days, people are easily affected by chronic diseases like heart attack, respiratory problems, mind stroke etc. Henceforth, it is very essential for common people to undergo health check-ups to avoid any unanticipated health conditions. Since people are busy in their work, they tend to have all the services at the tip of their fingers. IoT healthcare monitoring system is one such smart and efficient technologies, which makes the human life more simple and easy. In this way, the smart healthcare monitoring technologies utilizes several sensors that can monitor the patients daily health-related activities, collect the data from the sensors, store the data and further transmit the data to doctors, care takers or nurses through internet. In this paper, different smart healthcare monitoring technologies are reviewed. This paper presents how different approaches are developed to monitor the basic health activities or vital signs in the patients.

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Project Code: IOT09
Abstract: The progress in IoT health care is considered to be a massive contribution to the elderly people. The elderly people and people who are suffering from chronic diseases need to intake tablets regularly on timely basis. Care takers with their busy daily routine may forget the instructions and time about pills which are prescribed for patient. Also care takers who are dealing increased number of patients may feel hectic to sort the medicine list for corresponding patients at proper time. Earlier many researches have been carried in this area and different pill boxes have been proposed already. The intelligent medication box proposed in this work have specialized features including six sub boxes which helps to organize six different pills, provides timely remainders for the patient or caretaker in an android application like hand-held devices like smartphone. This intelligent medication box contains bio-sensor for monitoring of temperature and heartbeat. Overdosage and improper intake of medicines may lead to serious issues in health of elderly people to avoid mis usage of medicines a simple authentication process either by the care taker or the patient himself is performed. The proposed medication is much safer as it clearly intimates about time, dosage, stock of medicine and sorts out different pills in correct sub boxes during the next fill by caretaker.

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Project Code: IOT08
Abstract: With the massive rise in the population and the pollution caused by mechanization many times more. This leads to a decline in individual wellbeing, which affects the health of the whole population directly. An IOT-based air contamination observing scheme is proposed to track pollution levels and air quality through an internet-based web server. Sensors that can sensor and collect data can be deployed at different locations. Big data can be accessed from any part of the globe through the Google cloud. The equipment suggested includes four factors, the air quality management module, the resonate intensity expose the sectors, the cloud observe the track and the alert module for anomalies. The suggested technology consists of four modules. Firstly, in view of the 5 air pollutant parameters, the air standard indicator is computed. The sensor senses the sound power. The cloud-based surveillance module ensures data are obtained using the Raspberry Pi WLAN module, which achieves the purpose of periodic data analysis. Finally, in case of an unexpected situation, the Anomaly Warning module warns the user.

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Project Code: IOT07
Abstract: Automobile parking will also be a crucial trouble in fashionable engorged towns of nowadays. There definitely rectangular diploma too severe vehicles on the street and not enough parking regions. Weve an unethical to diode to the need for cheap parking manage systems. This we have got have been given an unethical to illustrate the usage of IOT based absolutely parking manage machine that permits for finances satisfactory parking lot usage victimization IOT technology. To reveal the theory, we have got were given a unethical to apply IR sensors for sensing parking slot occupancy on the aspect of a dc motor to simulate as gate opener cars. Weve an unethical to currently use a WLAN machine for net property and a chunk controller for operative the tool. Weve were given an unethical to deliver an internet net web page for on line property and IOT manage interface style. The machine detects the parking slots square degree occupied victimization IR sensors. The tool reads the amount of parking slots to be had or occupied and updates records with the cloud server to allow for checking parking slot handiness on line. This permits customers to decide for available parking regions online from everywhere and to be had problem-free parking. Therefore the tool solves the parking hassle for cities accomplice degreed receives clients a reasonably-priced IOT primarily based totally parking manage tool.

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Project Code: IOT06
Abstract: The development of technology today is rapidly related to the Internet of Things (IoT), keeping things connected efficiently. In this paper, the design of IoT technology is presented to monitor and diagnose the performance of a three-phase induction motor and recording critical operating parameters. The methods offered include an IoT-based platform in order to collect and process induction motor parameters. The parameters are composed of sensors such as voltage sensor, current sensor, temperature sensor, and vibration sensor. This information can be stored in a cloud platform, accessed via web pages, and displayed on a smartphone device using the MIT application. It will be notified timely manner when excess of performance limits. An induction motor can be examined carried out immediate action to avoid motor downtime so it can be saved time and cost. The advantages of monitoring induction motor by using IoT are notification for fault alert and historical data for predictive maintenance

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Project Code: IOT05
Abstract: Smart moveable road divider system help to clearing the traffic on road during peak hours of the day and whenever any ambulance stuck in traffic it will automatically recognize the ambulance and clearing the path using this device. This system works where traffic on the ingoing side is more as compared to other outgoing side or vice-versa because traffic on one side is more than the other side then only able to shift the divider otherwise divider cant be shifted. The shifting of the divider is very slowly for safety purposes. Deep learning is used to acquiring the current situation of traffic and these data will store in clouds using cloud computing and big data handling over IOT. Cloud database sends the message to embedded system over IOT protocols to shift the divider left or right.

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Project Code: IOT04
Abstract: The current trends and advancements in IoT have resulted in interactive, innovative and automated implementations of smart systems. The paper proposes a smart office automation system that creates an employee friendly atmosphere with the help of IoT, interconnected sensor networks and efficient database system. At the entrance, employees dont have to manually mark their presence in the office every day. Instead of this, it gets done as soon as they enter the office using the RTLS tags without touching or standing in the queue as it prevails in most of the offices. The AC units and appliances power up automatically according to the entrance and occupancy of the employees using various sensors and interconnected network system. The owner of the company can keep a check on the resource utilization using the smart energy management sensors. Also, the employees can check the availability of meeting room and can schedule a slot for their meeting by just a click. The paper puts forward feasible, cost effective as well as resource efficient system.

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Project Code: IOT03
Abstract: This design represents the usage of IoT in health care system.This design introduces a wireless health monitoring system that can monitor a human 24x7. This system consists of a number of the part. Controlling and data processing is done through the Arduino Uno board, all the sensors are connected to Arduino UNO. Through this system, we can measure ECG, heartbeat, BP, and spo2. Through sensors, it is possible to measure all these values. Here all the sensors are powered using a solar power system. All these analog sensors can be connected to Arduino through any of the six analog pins. These values are then used for detecting any critical situation. In the case of a critical situation, an alert can be given as a message. Also, it is possible to monitor the persons health from any location in the world through the Thingspeak cloud. Data from sensors is uploaded to Thingspeak periodically without any interruption if internet is available. Here ESP8266 wifi module is used for connecting Arduino to the internet. For achieving best monitoring, networked sensors are either in the form of wire able or embedded in our living environment. This system monitors patients pulsate, vital sign salie. if any of on top of parameter goes on the far side the brink price this sensible device inform doctors or care taker and kindle corrective actions to save lot of patients life s. Humans are facing problems of unaccepted died due various illness which is because of lack medical care to patients at right time. Primary goal to develop a resalable patient monitoring system using IOT. Patients temperature heart beat rate ECG data are monitored displayed and stored by the system and send to the doctors mobile containing applications. IOT based patient monitoring system effectively monitored patience health and status and save life on time

For IEEE Paper & Synopsis contact: 9886468236 / 7022390800

Project Code: IOT02
Abstract: The fairness of electricity services lies in the provider being able to deliver the expected quality power, and recover the returns on investment. Energy theft, metering lapses, billing errors, and cumbersome payment procedures constitute the bulk of the non-technical power losses and contribute majorly to the incapacity of the electricity vendors to run a profitable business, and serve the customers effectively. A real-time approach has been identified as the innovative need at resolving the enumerated issues within the electricity value chain. This study is leveraging on the Internet of Things (IoT) technology to propose an extended modelled system capable of providing real-time data management, residential power system control, interactive platform for the vendors and consumers. The energy billing was modelled and developed from resourceful components. A website was developed with user-friendly interface. The unique features of the system design are the possibility of customers to load their electricity credit online, and the supplier being able to lock or disconnect any defaulting customer remotely.

For IEEE Paper & Synopsis contact: 9886468236 / 7022390800

Project Code: IOT01
Abstract: Checking, assortment and removal of trash squander is considered as one of the main points of contention in the evolving modern society since its lack of maintenance will leverage negative ecological effects. A dreary technique is the traditional method used for physically controlling and gathering the waste, since it requires a critical human work and assets, which adds greater expenses. An IoT-based trash checking system utilizing Arduino or Raspberry pi board and an open IoT stage is presented in this report. The proposed framework includes an Arduino microcontroller, ultrasonic sensor, Wi-Fi module and a heap battery. Information from the ultrasonic sensor and burden cell is obtained by using the Arduino microcontroller. By utilizing an ultrasonic sensor, the profundity of the trash in the compartment is resolved and the heaviness of the waste receptacle from the heap cell is also estimated. For indicating the information, the LCD screen is utilized. The Wi-Fi module sends to the web the information portrayed previously. Thingspeak and an open IoT discussion is utilized to follow the trash framework. In this framework, the executive can adequately track and plan the waste disposal. In this research work, a model was fabricated and assessed.

For IEEE Paper & Synopsis contact: 9886468236 / 7022390800

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Final Year Projects for the Academic Year 2021-2022. For Project Synopsis Click here or Call 9886468236 / 7022390800

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