Abstract
Technology is a never-ending process. This paper presents a low-cost flexible and reliable home automation system with additional security using ESP32 Development Board, with IP connectivity through local Wi-Fi for accessing and controlling devices by authorized user remotely using Android Smartphone application. The proposed
system is server independent and uses Internet of things to control human desired appliances starting from industrial machine to consumer goods. To demonstrate the effectiveness and feasibility of this system, in this paper we present a home automation system using Node MCU microcontroller ESP32 as a connectivity module. It has built in Wi-Fi chip which is connect itself with internet via users Wi-Fi router with internet connectivity. It has some I/O pins to control input/output devices such as, push switches, relay module etc. There is a Bluetooth module to communicate locally. This
Bluetooth module communicate with ESP32 using its serial port. There are 4 channels relay module connected with ESP32 as an output control device, it mainly ON/OFF the load circuit. We used Google Firebase database to store our current status of loads. This
project helps the user to control various appliances such as light, fan, TV etc. We have tested our system through conducted experiment on various environmental conditions
Table of Content
Certificate
Declaration
Acknowledgement
Abstract
List of Figures
Chapter 1: Introduction
1.1 Introduction
1.2 Motivation
1.3 History
1.4 Problem Definition
1.5 Objectives of this Project
1.6 Organization of the Project Report
Chapter 2: Hardware and Software Description
2.1 Introduction
2.2 Block Diagram
2.3 Required Device and Software
2.4 Description of the Software
2.4.1 EasyEDA - Online PCB design & circuit simulator
2.4.2 Arduino IDE Version 1.8.12
2.5 Description of the Devices
2.5.1 ESP32 Development Board
2.5.2 Bluetooth Module (HC-05)
2.5.3 Transformer (220V/6V, 600mA)
2.5.4 Full Wave Rectifier
2.5.5 Electrolytic Capacitor
2.5.6 DC-DC Buck Converter
2.5.7 Relay Module 4 Channel
2.5.8 Push Button Switch
2.5.9 Indication LED
2.5.10 Vero Board
2.5.11 Female Pin Header
2.5.12 Power Cord
2.5.13 Connecting Wires
Chapter 3: Software Design
3.1 Installing Software
3.2 Android App and Circuit Designing
3.2.1 Android App Design
3.2.2 Apps Screens after Creation
3.2 Circuit Diagram
Chapter 4: Hardware Result
4.1 Hardware Implementation
4.2 Result of the Project
4.3 Operation of the Project
4.3.1 Powering and interfacing the device
4.3.2 Control using internet as an IoT device
4.3.3 Control using Bluetooth as local device
4.3.4 Control using Manual push switch as local device
Chapter 5: Conclusion
5.1 Introduction
5.2 Limitations of This Project
5.3 Future Work
5.4 Conclusion
References
Appendix
MAHMUD, K., Islam, S , Dhar, S & Rahman, M (2021). Design of an IoT Based Smart Switch to Control Home Appliance. Afribary. Retrieved from https://tracking.afribary.com/works/design-of-an-iot-based-smart-switch-to-control-home-appliance-1
MAHMUD, KHONDKAR, et. al. "Design of an IoT Based Smart Switch to Control Home Appliance" Afribary. Afribary, 17 Nov. 2021, https://tracking.afribary.com/works/design-of-an-iot-based-smart-switch-to-control-home-appliance-1. Accessed 27 Nov. 2024.
MAHMUD, KHONDKAR, Sheikh Islam , Sonjit Dhar and Md. Rahman . "Design of an IoT Based Smart Switch to Control Home Appliance". Afribary, Afribary, 17 Nov. 2021. Web. 27 Nov. 2024. < https://tracking.afribary.com/works/design-of-an-iot-based-smart-switch-to-control-home-appliance-1 >.
MAHMUD, KHONDKAR, Sheikh Islam , Sonjit Dhar and Md. Rahman . "Design of an IoT Based Smart Switch to Control Home Appliance" Afribary (2021). Accessed November 27, 2024. https://tracking.afribary.com/works/design-of-an-iot-based-smart-switch-to-control-home-appliance-1