MINI Project 1B PPT (20000000000000000000).pptx
vinayakpanchal346
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Mar 02, 2025
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About This Presentation
How to develop IOT sensor monitoring system
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Mini Project 1B Progress Seminar -I Academic Year 2023-2024
2 TITLE : Web Enabled Vest Monitoring System Group Number : 11 Group Members : Arnav Nadkarni (40), Vishwajeet Panaskar ( 42 ), Vinayak Panchal (43) , Tejas Patil ( 46 ) Guide : Mr. Abhishek Chaudhari
3 Introduction Labor industry often face various challenges including hazardous working conditions, exposure to dust and chemicals, risk of accidents , etc. The physical demands, coupled with prolonged work hours and isolation in remote locations, contribute to potential health concerns which have become common phenomenon in these industries. To address all these issues, we have come up with a solution i.e. Web Enabled Vest Monitorin g system
4 Literature Review (IOT) is a system of interrelated computing devices, machines or objects with unique identifiers and the ability to communicate the data over a network or Internet without requiring human intervention. Internet of Things offers many applications today that help in making life easier. Making IoT product is the act of connecting any physical object to the Internet or local network to collect and share data and performing some physical act according to available data. Peparing the prototype is first step in building an Internet of Things(IoT) product. An IoT prototype consists of user interface, hardware devices including sensors, actuators and processors, backend software and connectivity. The system developed in this project includes temperature and humidity. The collected data is transmitted in real time to a cloud-based platform for storage and analysis, enabling remote access from anywhere in the world. The system's hardware and software are detailed, providing a guide for replicating and customizing the system.
5 NodeMCU Specifications: Clock speed: 80 MHz Operating voltage: 3.3 V Input voltage: 4.5 – 10 V Wi-fi built in: 802.11 b/g/n Temperature range: -40 C – 125 C DHT 11 Specifications: Operating Voltage: 3.5V to 5.5V Operating current: 0.3mA (measuring) 60uA (standby) Output: Serial data Temperature Range: 0°C to 50°C Humidity Range: 20% to 90% Resolution: Temperature and Humidity both are 16-bit Accuracy: ±1°C and ±1%
6 Block Diagram
7 List Of Hardware/Software HARDWARE : NodeMCU , Temperature Sensor (DHT 11), Connecting wires, Breadboard, Power Supply SOFTWARE : VSCode , Arduino IDE, MySQL
8 Bill of Material Component Cost (Estimate) NodeMCU 235 Rs Temperature Sensor (DHT 11) 50 Rs Breadboard 30 Rs Connecting wires 10 Rs
9 Proposed Work Sensor sensing system:- Sensors such as Temperature sensors, humidity sensors are connected to ESP8266 micro-controller. Live tracking:- Fetching information from sensors and updating databases made using MySql and using PHP and Apache Netbeans for creating local server Backend:- Websocket server and define its address, followed by starting the server and testing it using a websocket client extension. We also write additional code for the server and conduct tests from a mobile phone to ensure seamless communication. Frontend:- With the foundation in place, we switch gears and build a custom websocket client using JavaScript. Additionally, we design a home page for our project, complete with a toggle button and temperature data handling.
10 Plan of Implementation Week /Month Planning Jan 2024 Research about project and learn web development Feb 2024 Hardware research and web development Mar 2024 Connecting the hardware with software and troubleshooting Apr 2024 Final Submission and presentation of the project
11 REFERENCE Development of a Web Based Monitoring System for a Distributed and Modern Production Michael Stangl , M.Sc.a , Julia Pielmeier , M.Sc.a , Christoph Berger, M.Sc.a Dr. -Ing. Stefan Braunreuthera , Prof. Dr. -Ing. Gunther Reinhartb IOT Based Real Time Weather Monitoring System Using NODEMCU Rupali Pal, Firdos Shaikh, Janhvi Shirodkar, Shrinidhi Gindi Development of Real-Time Energy Monitoring System and Data Log Using NodeMCU ESP 8266 and MYSQL Database Ezmin Abdullah*, Nurain Izzati Shuhaimi , Roslina Mohamad Wireless High Speed Network Research Group ( WHiSNet ), Universiti Teknologi MARA, Selangor, Malaysia Nur Amirah Kamaluddin , Nabil M Hidayat , Norhafizah Burham School of Electrical Engineering, Universiti Teknologi MARA, Selangor, Malaysia
12 A review of use of Nodemcu ESP8266 in IoT products 1Yogendra Singh Parihar 1Scientist D and District Informatics Officer 1National Informatics Centre, Mahoba (U.P.), India. Web Based Network Monitoring System S.A.E.L. Perera, W.R.A. Fonseka, I. Samaradiwakara , N.D.M. Withanage , H.K.U. Wijekantha Sri Lanka Institute of Information Technology H. Aamer , R. Mumtaz, H. Anwar, and S. Poslad , “A Very Low Cost, Open, Wireless, Internet of Things (IoT) Air Quality Monitoring Platform,” in 2018 15th International Conference on Smart Cities: Improving Quality of Life Using ICT & IoT (HONET-ICT), Islamabad, 2018, pp. 102–106.
13 THANK YOU !
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