it serves as a roadmap for all stakeholders, ensuring alignment and setting clear expectations. FINAL_PHASE 2.pptx
PramodParagouda
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Nov 02, 2025
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A major project description should be a clear, concise, and complete high-level overview that outlines the purpose, objectives, scope, methodology, timeline, key deliverables, and expected outcomes. Within approximately 300 words, it serves as a roadmap for all stakeholders, ensuring alignment and s...
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Siddaganga Institute of Technology Dept of Electrical and Electronics Engineering Presentation on : HOME AUTOMATION SYSTEM USING ARDUINO NANO Under the guidance of : PROF. B A SRIDHARA ( Department of Electrical and Electronics Engineering) Group members: Dayananda A N (1SI23EE400) Pramod Paragouda (1SI23EE409) Sunil Kumar (1SI23EE419) Vishal Biradar (1SI23EE421)
CONTENT : INTRODUCTION PROBLEM STATEMENT OBJECTIVE LITERATURE REVIEW BLOCK DIAGRAM & CIRCUIT DIAGRAM RESULTS & CONCLUSION FUTURE WORKS REFERENCE
INTRODUCTION : Home automation refers to controlling and automating household appliances and devices, providing enhanced convenience. This project helps the user to control all the electronic devices using his/her smartphone. With the help of this system we can control your home appliances from our mobile phone. You can turn on/off your home appliances within the range of Bluetooth. Among the numerous options available, the Arduino Nano stands out as a compact, affordable, and versatile microcontroller, making it an excellent choice for DIY home automation projects.
PROBLEM STATEMENT : Traditional home appliance control is manual, making it inconvenient and inefficient for users. Energy wastage occurs due to appliances being left on unnecessarily. Existing home automation solutions are expensive and complex, making them inaccessible to many users. There is a need for a low-cost, user-friendly, and efficient home automation system that allows remote control, enhances security, and optimizes energy consumption .
OBJECTIVE : To construct a wireless home automation system controlled by a smartphone specifically an android device. To design and implement cost effective home automation system yet an efficient one. To design a user friendly and a safe system to control home appliances especially aimed to aid the elders and handicapped.
LITERTAURE REVIEW 1) Smart Home Automation Using IoT (2023) - A. Sharma, P. Verma IoT-based home automation utilizes Wi-Fi, Bluetooth, Zigbee, and Z-Wave for seamless device communication. Cloud integration allows real-time monitoring, data analysis, and automation of home appliances. Enhances security through encrypted data transmission and automated alerts 2) Bluetooth Based Home Automation Using Arduino (2023) - N. K. Gupta, A. Kumar, R. Sharma Bluetooth-based system allows smartphone-controlled automation of home devices. Provides an accessible and cost-effective solution for remote appliance management. Provides an accessible and cost-effective solution for remote appliance management .
3) Smart Home Automation Using IoT (2023) - Ahmad Hamad Gohar, Karrar S. Faraj : Discusses wireless communication and cloud-based monitoring. IoT-based home automation utilizes Wi-Fi, Bluetooth, Zigbee, and Z-Wave for seamless device communication. Cloud integration allows real-time monitoring, data analysis, and automation of home appliances. Enhances security through encrypted data transmission and automated alerts . 4) Energy Efficiency in Smart Homes (2021) - M. Singh, L. Desai Automated lighting and temperature control reduce unnecessary energy consumption. AI-based learning adapts home settings based on user preferences and habits Smart energy meters provide detailed insights into household energy usage
BLOCK DIAGRAM
CIRCUIT DAIGRAM
RESULT AND CONCLUSION : 1) Successful Device Control The system effectively controls home appliances (lights, fans, etc.) using Arduino Nano. Commands from a smartphone (via Bluetooth/Wi-Fi) are accurately received and executed. 2) Response Time and Accuracy The system shows minimal latency in executing commands (response time ~1-2 seconds). Reliable operation with a high success rate (~95-98%) in device control. 3) User-Friendly Interface Easy-to-use mobile app interface enhances user experience. Simple configuration with minimal technical knowledge required. 4) Cost-Effectiveness System is affordable compared to commercial smart home solutions Utilizes readily available components, reducing overall cost ..
RESULT :
CONCLUSION : Home Automation System Using Arduino Nano The conclusion of a project involving home automation using Arduino Nano typically centers on the successful implementation of a smart system that allows users to control various devices in their homes (like lights, fans, or security systems) through automation. The system is low-cost , simple , and efficient for controlling home appliances. Uses Bluetooth or Wi-Fi for remote operation, making home automation convenient. Works quickly and accurately, but has limitations like short Bluetooth range and handling multiple devices. Provides a strong base for smart homes and can be expanded with advanced features
FUTURE WORKS Machine Learning Integration: Implement AI to predict and optimize energy usage patterns based on user behavior. Advanced Security Features: Incorporate facial recognition, biometric authentication, or motion detection for enhanced home security. Multi-Platform Support: Develop a dedicated mobile application compatible with Android, IOS, and web browsers for seamless control. Battery Backup : Implement a backup power system to keep the automation running during power cuts. Scheduled Automation : Allow users to set timers for lights, fans, or other appliances.
REFERENCES : A. Sharma, P. Verma, "Smart Home Automation Using IoT," IEEE, 2023 : This paper explores how IoT-based automation improves efficiency and security in smart homes by integrating various wireless communication technologies. N. K. Gupta, A. Kumar, R. Sharma, "Bluetooth Based Home Automation Using Arduino," Elsevier, 2023 : The study presents a cost-effective approach to home automation using Bluetooth, allowing users to control appliances through mobile applications. S. Patel, R. Iyer, "Arduino-Based Home Automation," Springer, 2022 : This work focuses on the implementation of Arduino-based automation systems, discussing hardware design, software interface, and real-time control. R. Johnson, T. Lee, "IoT in Home Automation: Challenges and Solutions," ACM Transactions, 2020 : The paper examines the major challenges in IoT-based home automation, including data security, network reliability, and system scalability . M. Singh, L. Desai, "Energy Efficiency in Smart Homes," IEEE, 2021 : This research highlights how smart homes can optimize energy consumption through AI-based learning, automated lighting, and smart metering
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