Smart Cabin using ESP and IoT by IRJET Journal

International Research Journal of Engineering and Technology (IRJET)

e-ISSN: 2395-0056

Volume: 09 Issue: 05 | May 2022

p-ISSN: 2395-0072

www.irjet.net

Smart Cabin using ESP and IoT Tanvi Vijay1, Saurabh Singh2, Vishvendra Singh3, Sameer Gautam4, Shobha A. S.5 1,2,3,4Students,

Department of Electronics and Communication Engineering, Dayananda Sagar College of Engineering, Bengaluru, Karnataka, India 5Assistant Professor, Department of Electronics and Communication Engineering, Dayananda Sagar College of Engineering, Bengaluru, Karnataka, India ---------------------------------------------------------------------***--------------------------------------------------------------------2. RELATED WORK Abstract - Home automation is an automation technology that makes work in all areas around the house easier. As we enter a new age of technology, home automation is becoming increasingly important as people move from traditional switching systems to centralized, remote controlled switching systems. Today, when the whole world is suffering from COVID and companies have adopted the concept of working from home, an automated “smart cabin” is one of the most pressing needs of the time, as it allows an employee working from home to be self-sufficient and focus on his/her work without any disturbance. Ultimately, this increases employee efficiency and productivity as they can contribute fully to their work and take the time to stay relaxed, refreshed and focused. In this project we resent the overall design and implementation of an IoT based home automation system “Smart Cabin Using ESP and IOT” capable of controlling various components within a cabin over WiFi via an app from any corner of the cabin.

This article by Satyendra K. Vishwakarma, Prashant Upadhyaya, Babita Kumari, Arun Kumar Mishra introduce a step-by-step guide of a smart home automation controller. It uses IoT to turn home appliances into smart devices with the help of design control [1]. This paper by Ravi Kishore Kodali, Vishal Jain, Suvadeep Bose, Lakshmi Boppana focuses on a system providing home automation functions based on IOT for easy operation including a camera module and home security [2]. This article by TuiYi Yang, Chu-Sing Yang, Tien-Wen Sung proposes home energy consumption optimization based on PLC (Power Line Communication) for easily accessible home energy consumption [3]. This paper by Mandira Das, Pritam Das, Sandip Das, Esha Biswas describes a system that develops a model to reduce the computational effort in existing smart home solutions that use different encryption technologies such as AES, ECHD, Hybrid, etc. [4]. This article by Suraj, Ish Kool, Dharmendra Kumar, and Shovan Barma introduces a vision-based artificial intelligence system to detect the on/off status of common household appliances [5]. This article by N. Vikram, K.S. Harris, MS. Nihaal, Raksha Umesh, Shetty Aashik Ashok Kumar illustrate a method to deploy a low-cost home automation system (HASand#41; with Wireless Fidelity (WiFi) [6]. This article by Paul Jasmin Rani, Jason Bhakta Kumar, B. Praveen Kumaar, U. Praveen Kumaar, Santhosh Kumar focuses on building a fully functional speech-based home automation system using the Internet of Things, artificial intelligence and natural language processing (NLP).

Key Words: Arduino; ESP32; ESP8266; IoT; Home Automation; Wi-Fi; Blynk;

1. INTRODUCTION Due to the advancement of wireless technology, various types of connections have been introduced such as GSM, WIFI and Bluetooth. These technological developments, allowing the use of wireless control environments such as Bluetooth and WiFi, have allowed different devices to connect to each other. This project presents a low cost ESP based home automation system with WiFi that gives the user the ability to control any electronic or electrical component of the room with an app on their smartphone. The components are connected to different sensors that have different applications and all these sensors are connected to the user's smartphone via WiFi. The user uses an application on their smartphone to control these components by communicating with the installed sensors. Arduino IDE is used to program the microcontrollers and an Android app (Blynk) is used to control the microcontrollers.

Impact Factor value: 7.529

3. MOTIVATION AND PROBLEM STATEMENT The concept of automation has not yet penetrated in homes especially in India. If automation was to be used in homes then everyday life would be much easier. Simple example of use of automation at home can be seen in the transfer of water from the under-ground water tank to the overhead water tank, by sensing the level of water in both the tanks. In today's competitive corporate world, the efficiency of an employee is dependent on time for the slightest of seconds. A significant amount of time is wasted on unwanted activities while working in a home

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