Abstract: A proposed development of the Internet in which everyday objects have network connectivity, allowing them to send and receive data.(or) The concept of internetworking of physical devices, vehicles, buildings and other items embedded with electronics, software, sensors, actuators, and network connectivity that enable these objects to collect and exchange data is defined as “Internet of things”.It is the basic necessity for developing a smart environment in which all the physical appliances communicate with each other to deliver ease of living reducing the manual work up to a great extent. This inter-connected smart environment is the future of electronic universe enabling sophistication to all the time consuming manual data transfers and instructions carried out by the mankind. The infrastructure of information society depends up on IOT, enhancing the opportunities for more direct integration between physical and cyber world. Therefore, ultimately providing improved efficiency, accuracy and economic benefits.
Keywords: Internet of things, sensors, worldwide controlling, windows application, Internet monitoring, smart sensor calibration.
Title: Smart Home Automation Using IOT (Internet OF Things)
Author: Mr. Jawwad Khizar Patel, Mr. Mohammed Abdul Moyeed, Mr. Syed Ahmed Zayaanuddin, Mr. Mohammed, Mrs E. Shilpa
ISSN 2349-7815
International Journal of Recent Research in Electrical and Electronics Engineering (IJRREEE)
Paper Publications
GSM Based Home Appliances Monitoring System for Handicapped Peoplepaperpublications3
Abstract: The aim of the project is to use Bluetooth communication for controlling the home appliances and monitoring the main door of home using smartphone. Now-a-days it is a kind of requirement to have a modern technology for security of our homes and also be able to monitor the various activities around without interrupting the current work one is doing. Fine grained access rights are built into the system which also leverages external social networking sites for making access control and invitation interface easier for the end users. So the following system is designed using which a person will be able to control (switch on/off) any of the appliances connected in home. The proposed system consists of a control console interfaced with different sensors using bluetooth. Suspected activities are conveyed to remote user through SMS (Short Message Service) or Call using GSM (Global System for Mobile communication) technology. Upon reply, the remote user can control his premises again through GSM-Bluetooth combination.
Development of Personal Weather Report for Home SecurityIOSRJVSP
With the fast growing technology, it is a great need to get to know about our surrounding weather parameters (temperature, humidity, atmospheric pressure, gas and light intensity) for better development of living community. A complete weather report can easily access the rarest and the farthest information at one’s own fingertips. It is based on IoT (Internet of Things), which is an emerging field in which all the devices are connected to a channel and collect the data to gather a complete information through a personnel devices. It is generally used to view the weather parameters with the help of unique API key for a particular user. Wi-Fi module, temperature, pressure, humidity, gas, and light intensity sensors are interfaced with the Arduino. The user is prompted to provide the API key of channel. ESP8266-01 reads the key and sends it to the Arduino. If the key is matched, then the data transmission can be carried out between the channel and the microcontroller. The module is connected to the Wi-Fi through some AT Commands.
The document discusses the Internet of Things (IoT) and its application to home automation. Specifically, it proposes a home automation system using IoT that monitors sensors in a model home for temperature, gas leaks, light levels, and motion. The sensor data is sent over WiFi to an Intel Galileo board connected to the internet. Users can then monitor and control appliances remotely through a web interface. The system automatically controls appliances like lights and fans based on sensor readings to optimize energy usage and safety.
Communication Methods to build Smart Home Monitoring System: A Surveydbpublications
This document summarizes different communication methods for building smart home monitoring systems. It reviews existing systems that use technologies like Bluetooth, GSM, Wi-Fi, DTMF, and voice commands. It also compares these technologies and their advantages and disadvantages. Specifically, it provides summaries of systems that use Bluetooth and GSM, mobile apps with IoT, Wi-Fi based internet monitoring, DTMF control via mobile phones, and compares popular technologies like Java, Bluetooth, phone lines, Zigbee, home gateways, and Wi-Fi. It concludes that internet modules provide the main advantage of remote control from anywhere while calling systems using DTMF allow control via mobile phone buttons.
Performance Evaluation of Smart Home System using Internet of Things IJECEIAES
Nowadays, many researches have been conducted on smart home. Smart home control system (SHCS) can be integrated into an existing home appliances to reduce the need for human intervention, increase security and energy efficiency. We have proposed a smart home system using internet of things and four types of sensors, including PIR, temperature, ultrasonic, and smoke gas sensor for automatic environmental control and intrustion detection. In this paper, the performance of the previously developed prototype of smart home system will be evaluated. First, experiments on various sensors will be conducted. Next, the communicaton channel using wireless and Ethernet modules will be discussed. Moreover, the overall SHCS will be evaluated in terms of hardware and software performance. Additionaly, solar charger enhances the availability of our prototype system. Results showed the effectiveness of our proposed smart home system in the prototype and real life experiments.
This document describes a system that allows remote control of home appliances over the internet. The system is divided into three modules: input, computation, and output. In the input module, a user interface is provided for a remote user to control appliances. In the computation module, the microcontroller processes input signals and controls the appliances. In the output module, devices like lights, fans, and a display can be controlled remotely. The system uses an IP address to connect appliances to the internet and allow remote control from any location through a web application. This provides benefits like reduced electricity waste and labor by allowing appliances to be controlled without being physically present.
ANDROID APPLICATION DEVELOPMENT FOR ENVIRONMENT MONITORING USING SMART PHONESijmnct
Mobile devices (in particular smart phones and tablets) can be used to monitor quality of life parameters.
Today mobile devices use embedded sensors such as accelerometers, compasses, GPSs, microphones, and
cameras without considering, for example, the air quality or the pollutants of the environment. This paper
presents the possibility to use the smart phones capabilities to gather data from other phones or sensors.
The environment condition’s parameters such as temperature and humidity should be monitored. This point
can be obtained by using distributed devices in different environments that containing high-resolution
sensors and a wireless transmission apparatus for transferring data to smart phones. The Bluetooth was
chosen as a transmission tool since it is embedded in all smart phones
DESIGN CHALLENGES IN WIRELESS FIRE SECURITY SENSOR NODES ijesajournal
A design of simple hardware circuit with different kind of fire sensors enables every user to use this wireless fire security system. The challenges in designing the nodes with various types of fire sensors are
discussed and the methods to overcome design problems are also analyzed. The circuit is interfaced with
the different types of sensor to sense different fire sources such as gas leakage, smoke, and heat. The cost,
circuit components, design requirements, power requirements of sensor node are minimized. The methods
to improve the quality of system to detect fire are analyzed. The system is fully controlled by the PIC
microcontroller. All the sensors and detectors are interconnected to PIC microcontroller by using various
types of interface circuits. The PIC microcontroller will continuously monitor all the sensors and if it senses
any security problem then the microcontroller will send the information to the PC central monitoring station wirelessly for a short distance of 300m indoor/1500m outdoor using zigbee technology. The gas
sensor, light sensor, smoke detector sensor, IR sensor, temperature & humidity sensor, fire sensor are interfaced with microcontroller to detect abnormal fire conditions in the environment in all possible ways.
GSM Based Home Appliances Monitoring System for Handicapped Peoplepaperpublications3
Abstract: The aim of the project is to use Bluetooth communication for controlling the home appliances and monitoring the main door of home using smartphone. Now-a-days it is a kind of requirement to have a modern technology for security of our homes and also be able to monitor the various activities around without interrupting the current work one is doing. Fine grained access rights are built into the system which also leverages external social networking sites for making access control and invitation interface easier for the end users. So the following system is designed using which a person will be able to control (switch on/off) any of the appliances connected in home. The proposed system consists of a control console interfaced with different sensors using bluetooth. Suspected activities are conveyed to remote user through SMS (Short Message Service) or Call using GSM (Global System for Mobile communication) technology. Upon reply, the remote user can control his premises again through GSM-Bluetooth combination.
Development of Personal Weather Report for Home SecurityIOSRJVSP
With the fast growing technology, it is a great need to get to know about our surrounding weather parameters (temperature, humidity, atmospheric pressure, gas and light intensity) for better development of living community. A complete weather report can easily access the rarest and the farthest information at one’s own fingertips. It is based on IoT (Internet of Things), which is an emerging field in which all the devices are connected to a channel and collect the data to gather a complete information through a personnel devices. It is generally used to view the weather parameters with the help of unique API key for a particular user. Wi-Fi module, temperature, pressure, humidity, gas, and light intensity sensors are interfaced with the Arduino. The user is prompted to provide the API key of channel. ESP8266-01 reads the key and sends it to the Arduino. If the key is matched, then the data transmission can be carried out between the channel and the microcontroller. The module is connected to the Wi-Fi through some AT Commands.
The document discusses the Internet of Things (IoT) and its application to home automation. Specifically, it proposes a home automation system using IoT that monitors sensors in a model home for temperature, gas leaks, light levels, and motion. The sensor data is sent over WiFi to an Intel Galileo board connected to the internet. Users can then monitor and control appliances remotely through a web interface. The system automatically controls appliances like lights and fans based on sensor readings to optimize energy usage and safety.
Communication Methods to build Smart Home Monitoring System: A Surveydbpublications
This document summarizes different communication methods for building smart home monitoring systems. It reviews existing systems that use technologies like Bluetooth, GSM, Wi-Fi, DTMF, and voice commands. It also compares these technologies and their advantages and disadvantages. Specifically, it provides summaries of systems that use Bluetooth and GSM, mobile apps with IoT, Wi-Fi based internet monitoring, DTMF control via mobile phones, and compares popular technologies like Java, Bluetooth, phone lines, Zigbee, home gateways, and Wi-Fi. It concludes that internet modules provide the main advantage of remote control from anywhere while calling systems using DTMF allow control via mobile phone buttons.
Performance Evaluation of Smart Home System using Internet of Things IJECEIAES
Nowadays, many researches have been conducted on smart home. Smart home control system (SHCS) can be integrated into an existing home appliances to reduce the need for human intervention, increase security and energy efficiency. We have proposed a smart home system using internet of things and four types of sensors, including PIR, temperature, ultrasonic, and smoke gas sensor for automatic environmental control and intrustion detection. In this paper, the performance of the previously developed prototype of smart home system will be evaluated. First, experiments on various sensors will be conducted. Next, the communicaton channel using wireless and Ethernet modules will be discussed. Moreover, the overall SHCS will be evaluated in terms of hardware and software performance. Additionaly, solar charger enhances the availability of our prototype system. Results showed the effectiveness of our proposed smart home system in the prototype and real life experiments.
This document describes a system that allows remote control of home appliances over the internet. The system is divided into three modules: input, computation, and output. In the input module, a user interface is provided for a remote user to control appliances. In the computation module, the microcontroller processes input signals and controls the appliances. In the output module, devices like lights, fans, and a display can be controlled remotely. The system uses an IP address to connect appliances to the internet and allow remote control from any location through a web application. This provides benefits like reduced electricity waste and labor by allowing appliances to be controlled without being physically present.
ANDROID APPLICATION DEVELOPMENT FOR ENVIRONMENT MONITORING USING SMART PHONESijmnct
Mobile devices (in particular smart phones and tablets) can be used to monitor quality of life parameters.
Today mobile devices use embedded sensors such as accelerometers, compasses, GPSs, microphones, and
cameras without considering, for example, the air quality or the pollutants of the environment. This paper
presents the possibility to use the smart phones capabilities to gather data from other phones or sensors.
The environment condition’s parameters such as temperature and humidity should be monitored. This point
can be obtained by using distributed devices in different environments that containing high-resolution
sensors and a wireless transmission apparatus for transferring data to smart phones. The Bluetooth was
chosen as a transmission tool since it is embedded in all smart phones
DESIGN CHALLENGES IN WIRELESS FIRE SECURITY SENSOR NODES ijesajournal
A design of simple hardware circuit with different kind of fire sensors enables every user to use this wireless fire security system. The challenges in designing the nodes with various types of fire sensors are
discussed and the methods to overcome design problems are also analyzed. The circuit is interfaced with
the different types of sensor to sense different fire sources such as gas leakage, smoke, and heat. The cost,
circuit components, design requirements, power requirements of sensor node are minimized. The methods
to improve the quality of system to detect fire are analyzed. The system is fully controlled by the PIC
microcontroller. All the sensors and detectors are interconnected to PIC microcontroller by using various
types of interface circuits. The PIC microcontroller will continuously monitor all the sensors and if it senses
any security problem then the microcontroller will send the information to the PC central monitoring station wirelessly for a short distance of 300m indoor/1500m outdoor using zigbee technology. The gas
sensor, light sensor, smoke detector sensor, IR sensor, temperature & humidity sensor, fire sensor are interfaced with microcontroller to detect abnormal fire conditions in the environment in all possible ways.
This document presents an overview of home automation using the Internet of Things (IoT). It discusses how IoT allows for a smart home with network-interconnected devices that can automatically control lighting, climate, security and other functions. The document outlines how IoT provides unique identifiers and data transfer capabilities for billions of connected objects by 2020. It proposes a home control and monitoring system using an Android smartphone and microcontroller that could save energy, improve security and convenience. Finally, the document discusses advantages like ease of use and expansion, as well as concerns around energy use and security for an IoT-enabled smart home system.
Low cost energy-efficient smart monitoring system using open-source microcont...zaidinvisible
This document summarizes a smart home monitoring system that uses multiple microcontrollers connected in a master-slave configuration to provide low-cost and energy-efficient monitoring. The system uses sensors to detect motion and events, then triggers responses from components like buzzers, lights, cameras, and GSM. It allows authorized users to activate and deactivate the system using an authentication code. The system aims to achieve scalability, flexibility, low-cost, and energy efficiency compared to other existing home monitoring and automation systems.
GSM Based climate Monitoring System for AgricultureLokesh K N
Design of GSM based weather monitoring system useful for agriculture consists of different sensors such as temperature, humidity and soil moisture. Sensors are used to measure moisture content of soil, temperature level and humidity level. The Arduino Uno receives the data from the various sensor and transmit it to the GSM module. The GSM module send the information to formers via Short Message Service (SMS).
The implementation of this system in agriculture for future will not only save the time, money and water but also increase the productivity of crops and improves the growth of the plants.
The future iteration will include data collection at base station and incorporation of additional remote station directly controls irrigation systems. Wireless transmission of the output data to the user with the help of using ZigBee or Bluetooth. In this way the agriculture monitoring system helps the formers in the form of improving their yields.
This document describes a smart home system that uses IoT technology to allow users to control home appliances like lights, fans, and air conditioners from an Android mobile application over WiFi. The system includes an Arduino microcontroller connected to relays that can turn appliances on and off based on commands sent from the mobile app to a WiFi module. This creates a convenient way for users to remotely control and automate appliances in their home without needing to be physically present.
This document outlines a project for home automation using IoT. It discusses how home automation can simplify tasks, make them more affordable and easy to control. It also defines internet of things as connecting devices to transfer data over a network without human interaction. The proposed system would use WiFi modules in each room to automate lighting, heating/cooling, appliances and security from a mobile phone. Key components are the ESP8266 WiFi module, transistors, relays, and other basic electrical components. Quality assurance techniques like failure testing and statistical control will be applied.
This document describes a system for monitoring weather conditions in a greenhouse using IoT technology. Sensors measure temperature and humidity and send the data via an Arduino Uno microcontroller to a web server. Users can then access the sensor data through the internet from anywhere in real-time. The system automatically controls devices like sprinklers or coolers if the sensor readings exceed set thresholds, and sends alerts to users. The technology allows for low-cost and flexible monitoring and control of greenhouse conditions without needing a dedicated server.
In the last few years the advancement technologies were improved in many ways using internet of things. It gives efficient and accurate results. Now we proposed a novel technique, which is used to operate any electrical component or components in home, office or any other place and control all these components like electrical bulbs, fans, refrigerators, etc. Through privacy based and customized way using electronic mail (e-mail). The experimental results conducted on Home Automation using Raspberry Pi.
Home automation using IoT literature review pptTanujkumar101
This ppt has covered through 5 research paper (1 base paper + 4 research paper) .there each paper have its marit and demerits . first paper based on raspberry Pi , second one is on Arduino, third one is on esp8266 and forth one on PLC and conclusion have comparison part .
Home automation is a growing industry that allows users to control and monitor their home systems remotely using internet-connected devices. It provides convenience, control, and a sense of coolness to users. Common early applications included HVAC, lighting, audio/video, and intercom systems. Hardware interfaces like Arduino, Raspberry Pi, and ESP8266 modules connect sensors and devices to cloud services for remote access via apps and websites. The technology is moving towards more energy efficient green building features, advanced security including biometrics, and capabilities for monitoring vacant homes. It allows for flexible, programmable, and affordable automation of various systems and peripherals to make homes smarter and more efficient.
Internet of things (iot) based weatherVivek Bhakta
This document proposes an Internet of Things (IoT) based weather monitoring system. The system uses sensors to monitor environmental conditions like temperature, humidity, light intensity, and CO levels at a particular place. The sensor data is sent to a web page where it is plotted as graphical statistics. The data from the implemented system can then be accessed from anywhere in the world over the internet. The system provides an advanced and efficient IoT solution to connect sensors and devices to monitor weather conditions remotely.
Home automation allows for centralized control of devices in the home such as lighting, appliances, HVAC, security systems, etc. This improves convenience, energy efficiency, and safety. Wireless technologies like Bluetooth and smartphones have increased the popularity and affordability of home automation. A home automation system connects devices through a home network and may allow remote access via the internet. Common protocols for home automation include Z-Wave, ZigBee, Wi-Fi, Insteon, X10, and KNX. The DTMF wireless control system presented allows appliances to be controlled remotely using a mobile phone through technologies like Bluetooth or internet connectivity.
IRJET- Home Automation using IoT: ReviewIRJET Journal
This document summarizes research on using Internet of Things (IoT) technology for home automation and security. It discusses how IoT allows devices in the home to be controlled remotely through a smartphone app and can automate tasks. The document also reviews different approaches others have taken to implement smart home security systems using sensors and microcontrollers connected to the Internet. It describes the typical architecture of an IoT system including sensor, network, and application layers. Finally, it summarizes several research papers on developing smart home and kitchen monitoring systems using technologies like Arduino, Raspberry Pi, and sensors for functions like detecting fires, gas leaks, and intruders.
This document proposes a weather station using Internet of Things (IoT) that allows users to access real-time weather data anywhere. The weather station will collect data like temperature, humidity, and pressure from sensors using a NodeMCU microcontroller with a built-in WiFi module. The data will be sent to a local server and made available for users to view on their devices. The project aims to provide a way for users to monitor weather conditions and plan activities by getting timely alerts and forecasts. It will follow a Rapid Application Development methodology and include entity relationship and data flow diagrams in the design.
1. The document describes a smart and secure home system using IoT that allows users to control home appliances like AC and washing machines remotely through an internet connection from anywhere in the world.
2. The system uses an Arduino Mega board connected to sensors and a GSM modem to monitor temperature and motion in the home. If thresholds are exceeded, the system sends SMS alerts to users. It can also control appliances through relays.
3. The system includes a fire emergency system that uses a temperature sensor to detect fires and alert users through SMS, as well as a security system using a PIR motion sensor to detect intruders and notify users. This allows remote monitoring and control of the home while providing
Intelvision provides smart solutions for automation and digital transformation of cottage villages, including a building management system to monitor engineering systems and infrastructure, integrated security and access control, energy efficiency systems, and a mobile application for residents to manage utilities and services. They have over 100 successful projects integrating various hardware and software solutions to optimize operations, reduce costs, and improve resident experience for developers, property managers, and homeowners.
How IoT & Smart Home Automation Will Change the Way We LiveTriState Technology
Visit our blog and understand the change, IoT is bringing to make our homes smarter. Let's check the advantages and applications that you can use to make your home smarter.
Smart Security and Home Automation System using Internet of thingsIRJET Journal
This document presents a smart home security and automation system using Internet of Things technologies. It proposes a system that uses Bluetooth for in-home control via an Android app, and GSM for mobile control using an Arduino development board. The system aims to provide an intelligent home design that is simple, efficient and cost-effective. It analyzes existing home automation techniques and identifies pros and cons in terms of technology, efficiency and cost. The proposed system integrates centralized automation and security modules connected through a master control interface.
This document introduces an IoT-based smart home system developed by a group of students. The system uses a Raspberry Pi as the central controller connected to various sensors and appliances via relays. It allows remote monitoring and control of lights, fans and security through a web interface or mobile app. The system architecture consists of physical devices, communication protocols, and an application layer for user control. The document discusses the components, circuit diagrams and provides an overview of the proposed smart home system and its applications.
This document summarizes an Ethernet-based home appliance control system that allows remote monitoring and control of devices. The system uses a PIC microcontroller interfaced with an Ethernet controller chip to provide network connectivity. HTML web pages are stored on the microcontroller to provide a user interface. Sensors, actuators and appliances can be connected to the microcontroller's I/O pins for monitoring and control. The system allows appliances to be operated remotely over the internet through a web browser.
This document summarizes an Ethernet-based home appliance control system that allows remote monitoring and control of devices. The system uses a PIC microcontroller interfaced with an Ethernet controller chip to provide network connectivity. HTML web pages are stored on the microcontroller to provide a user interface. Sensors, actuators and appliances can be connected to the microcontroller's I/O pins for monitoring and control. The system allows appliances to be operated remotely over the internet through a web browser.
This document presents an overview of home automation using the Internet of Things (IoT). It discusses how IoT allows for a smart home with network-interconnected devices that can automatically control lighting, climate, security and other functions. The document outlines how IoT provides unique identifiers and data transfer capabilities for billions of connected objects by 2020. It proposes a home control and monitoring system using an Android smartphone and microcontroller that could save energy, improve security and convenience. Finally, the document discusses advantages like ease of use and expansion, as well as concerns around energy use and security for an IoT-enabled smart home system.
Low cost energy-efficient smart monitoring system using open-source microcont...zaidinvisible
This document summarizes a smart home monitoring system that uses multiple microcontrollers connected in a master-slave configuration to provide low-cost and energy-efficient monitoring. The system uses sensors to detect motion and events, then triggers responses from components like buzzers, lights, cameras, and GSM. It allows authorized users to activate and deactivate the system using an authentication code. The system aims to achieve scalability, flexibility, low-cost, and energy efficiency compared to other existing home monitoring and automation systems.
GSM Based climate Monitoring System for AgricultureLokesh K N
Design of GSM based weather monitoring system useful for agriculture consists of different sensors such as temperature, humidity and soil moisture. Sensors are used to measure moisture content of soil, temperature level and humidity level. The Arduino Uno receives the data from the various sensor and transmit it to the GSM module. The GSM module send the information to formers via Short Message Service (SMS).
The implementation of this system in agriculture for future will not only save the time, money and water but also increase the productivity of crops and improves the growth of the plants.
The future iteration will include data collection at base station and incorporation of additional remote station directly controls irrigation systems. Wireless transmission of the output data to the user with the help of using ZigBee or Bluetooth. In this way the agriculture monitoring system helps the formers in the form of improving their yields.
This document describes a smart home system that uses IoT technology to allow users to control home appliances like lights, fans, and air conditioners from an Android mobile application over WiFi. The system includes an Arduino microcontroller connected to relays that can turn appliances on and off based on commands sent from the mobile app to a WiFi module. This creates a convenient way for users to remotely control and automate appliances in their home without needing to be physically present.
This document outlines a project for home automation using IoT. It discusses how home automation can simplify tasks, make them more affordable and easy to control. It also defines internet of things as connecting devices to transfer data over a network without human interaction. The proposed system would use WiFi modules in each room to automate lighting, heating/cooling, appliances and security from a mobile phone. Key components are the ESP8266 WiFi module, transistors, relays, and other basic electrical components. Quality assurance techniques like failure testing and statistical control will be applied.
This document describes a system for monitoring weather conditions in a greenhouse using IoT technology. Sensors measure temperature and humidity and send the data via an Arduino Uno microcontroller to a web server. Users can then access the sensor data through the internet from anywhere in real-time. The system automatically controls devices like sprinklers or coolers if the sensor readings exceed set thresholds, and sends alerts to users. The technology allows for low-cost and flexible monitoring and control of greenhouse conditions without needing a dedicated server.
In the last few years the advancement technologies were improved in many ways using internet of things. It gives efficient and accurate results. Now we proposed a novel technique, which is used to operate any electrical component or components in home, office or any other place and control all these components like electrical bulbs, fans, refrigerators, etc. Through privacy based and customized way using electronic mail (e-mail). The experimental results conducted on Home Automation using Raspberry Pi.
Home automation using IoT literature review pptTanujkumar101
This ppt has covered through 5 research paper (1 base paper + 4 research paper) .there each paper have its marit and demerits . first paper based on raspberry Pi , second one is on Arduino, third one is on esp8266 and forth one on PLC and conclusion have comparison part .
Home automation is a growing industry that allows users to control and monitor their home systems remotely using internet-connected devices. It provides convenience, control, and a sense of coolness to users. Common early applications included HVAC, lighting, audio/video, and intercom systems. Hardware interfaces like Arduino, Raspberry Pi, and ESP8266 modules connect sensors and devices to cloud services for remote access via apps and websites. The technology is moving towards more energy efficient green building features, advanced security including biometrics, and capabilities for monitoring vacant homes. It allows for flexible, programmable, and affordable automation of various systems and peripherals to make homes smarter and more efficient.
Internet of things (iot) based weatherVivek Bhakta
This document proposes an Internet of Things (IoT) based weather monitoring system. The system uses sensors to monitor environmental conditions like temperature, humidity, light intensity, and CO levels at a particular place. The sensor data is sent to a web page where it is plotted as graphical statistics. The data from the implemented system can then be accessed from anywhere in the world over the internet. The system provides an advanced and efficient IoT solution to connect sensors and devices to monitor weather conditions remotely.
Home automation allows for centralized control of devices in the home such as lighting, appliances, HVAC, security systems, etc. This improves convenience, energy efficiency, and safety. Wireless technologies like Bluetooth and smartphones have increased the popularity and affordability of home automation. A home automation system connects devices through a home network and may allow remote access via the internet. Common protocols for home automation include Z-Wave, ZigBee, Wi-Fi, Insteon, X10, and KNX. The DTMF wireless control system presented allows appliances to be controlled remotely using a mobile phone through technologies like Bluetooth or internet connectivity.
IRJET- Home Automation using IoT: ReviewIRJET Journal
This document summarizes research on using Internet of Things (IoT) technology for home automation and security. It discusses how IoT allows devices in the home to be controlled remotely through a smartphone app and can automate tasks. The document also reviews different approaches others have taken to implement smart home security systems using sensors and microcontrollers connected to the Internet. It describes the typical architecture of an IoT system including sensor, network, and application layers. Finally, it summarizes several research papers on developing smart home and kitchen monitoring systems using technologies like Arduino, Raspberry Pi, and sensors for functions like detecting fires, gas leaks, and intruders.
This document proposes a weather station using Internet of Things (IoT) that allows users to access real-time weather data anywhere. The weather station will collect data like temperature, humidity, and pressure from sensors using a NodeMCU microcontroller with a built-in WiFi module. The data will be sent to a local server and made available for users to view on their devices. The project aims to provide a way for users to monitor weather conditions and plan activities by getting timely alerts and forecasts. It will follow a Rapid Application Development methodology and include entity relationship and data flow diagrams in the design.
1. The document describes a smart and secure home system using IoT that allows users to control home appliances like AC and washing machines remotely through an internet connection from anywhere in the world.
2. The system uses an Arduino Mega board connected to sensors and a GSM modem to monitor temperature and motion in the home. If thresholds are exceeded, the system sends SMS alerts to users. It can also control appliances through relays.
3. The system includes a fire emergency system that uses a temperature sensor to detect fires and alert users through SMS, as well as a security system using a PIR motion sensor to detect intruders and notify users. This allows remote monitoring and control of the home while providing
Intelvision provides smart solutions for automation and digital transformation of cottage villages, including a building management system to monitor engineering systems and infrastructure, integrated security and access control, energy efficiency systems, and a mobile application for residents to manage utilities and services. They have over 100 successful projects integrating various hardware and software solutions to optimize operations, reduce costs, and improve resident experience for developers, property managers, and homeowners.
How IoT & Smart Home Automation Will Change the Way We LiveTriState Technology
Visit our blog and understand the change, IoT is bringing to make our homes smarter. Let's check the advantages and applications that you can use to make your home smarter.
Smart Security and Home Automation System using Internet of thingsIRJET Journal
This document presents a smart home security and automation system using Internet of Things technologies. It proposes a system that uses Bluetooth for in-home control via an Android app, and GSM for mobile control using an Arduino development board. The system aims to provide an intelligent home design that is simple, efficient and cost-effective. It analyzes existing home automation techniques and identifies pros and cons in terms of technology, efficiency and cost. The proposed system integrates centralized automation and security modules connected through a master control interface.
This document introduces an IoT-based smart home system developed by a group of students. The system uses a Raspberry Pi as the central controller connected to various sensors and appliances via relays. It allows remote monitoring and control of lights, fans and security through a web interface or mobile app. The system architecture consists of physical devices, communication protocols, and an application layer for user control. The document discusses the components, circuit diagrams and provides an overview of the proposed smart home system and its applications.
This document summarizes an Ethernet-based home appliance control system that allows remote monitoring and control of devices. The system uses a PIC microcontroller interfaced with an Ethernet controller chip to provide network connectivity. HTML web pages are stored on the microcontroller to provide a user interface. Sensors, actuators and appliances can be connected to the microcontroller's I/O pins for monitoring and control. The system allows appliances to be operated remotely over the internet through a web browser.
This document summarizes an Ethernet-based home appliance control system that allows remote monitoring and control of devices. The system uses a PIC microcontroller interfaced with an Ethernet controller chip to provide network connectivity. HTML web pages are stored on the microcontroller to provide a user interface. Sensors, actuators and appliances can be connected to the microcontroller's I/O pins for monitoring and control. The system allows appliances to be operated remotely over the internet through a web browser.
This document summarizes an academic paper that presents an intelligent home monitoring system created using LabVIEW software. The system can monitor temperature, humidity, lighting, fire/burglar alarms, gas density and includes infrared sensors for security in a house. It connects to the internet to allow remote monitoring and control of house equipment from anywhere. The system controls internal/external lighting, fire/burglar alarms, temperature and can power switch rooms. It uses LabVIEW as the main controller and interfaces with sensors, alarms and equipment via data acquisition hardware.
Smart home control system (SHCS) can be integrated into an existing home appliances to reduce the need for human intervention, increase security and energy efficiency. However, it is still an open problem due to difficulties such as network distance, signal interference, not user friendly, increased cost and power consumption. This paper reviews various topics on smart home technologies including control system, smart home network, smart home appliance and sensor technologies for smart home. In this research, the proposed prototype of home automation allows users to remotely switch on or off any household appliances based on Internet of Things (IoT) with the enhancement of solar charger. This prototype uses four types of sensors i.e. PIR sensor, temperature sensor, ultrasonic sensor and smoke gas sensor for automatic environmental control and intrusion detection. The hardware, software, and test field design will be discussed in this paper.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
This document describes an Internet of Things (IoT) based home automation system that allows control of home appliances using a smartphone over Wi-Fi. The system uses an Arduino board connected to appliances like lights and fans using relays. A Wi-Fi module enables communication between the Arduino and a smartphone app over the internet. Users can control appliances remotely using the app even when away from home. The system provides a low-cost and secure way to automate home devices without needing wired connections.
Electrical Appliances Control using Wi-Fi and LaptopIRJET Journal
This document summarizes a research paper on controlling electrical appliances using Wi-Fi and a laptop. The system allows a supervisor to control devices remotely using a laptop and Wi-Fi connection. The system includes an ARM7 microcontroller connected to electrical devices. A software application installed on the laptop allows the user to send commands over Wi-Fi to control the devices. This provides flexibility to control appliances from anywhere without needing to be near the traditional switchboard. The system is intended to save time, manpower, and energy compared to conventional control methods.
This document summarizes a research paper that proposes a smart home automation and security system design based on Internet of Things (IoT) applications. The key points are:
1. The proposed system uses enabling technologies like cloud computing (PubNub), Android applications, WiFi modules (ESP8266), and Raspberry Pi to allow remote monitoring and control of home devices like lighting, appliances, and security sensors.
2. Node devices connected to sensors and actuators communicate wirelessly with a Raspberry Pi base station using WiFi. The base station acts as a central controller accessible through web and mobile interfaces.
3. The system was tested by connecting various sensors to measure environmental data like temperature, humidity,
Communication Methods to build Smart Home Monitoring System: A Surveydbpublications
This document summarizes several existing smart home monitoring systems that use different communication methods. It describes systems that use Bluetooth and GSM, systems connected through the internet of things using an Arduino board and mobile phone, and systems that monitor temperature, motion, and lights using sensors connected to a server through Wi-Fi. The document also provides a table that compares the advantages and disadvantages of popular home automation technologies like systems based on Java, Bluetooth, telephone lines, Zigbee, home gateways, and Wi-Fi.
Design and implementation of a smart home system with two levels of security ...nooriasukmaningtyas
Besides the development of technology in recent years, there has been an
effective tendency to construct smart cities and homes. Whereas the smart
home control system components can be incorporated with the existing home
appliances to eliminate the need for human intervention, save electricity,
protect homes from accidents as well as the theft, and provide home residents
with comfort. This work comprises the utilising of the internet of things (IoT)
technology to build the proposed design for the smart home. The proposed
design includes many subsystems as well as several types of sensors, such as
the passive infrared (PIR) sensor, the gas sensor, the soil moisture sensor, the
water level sensor, the temperature sensor, the light dependent resistance
(LDR), and the flame sensor. Each sensor will be connected to the Arduino
Nano for the data processing purpose, after which the Arduino Nano will be
connected to the NodeMCU module via the digital pins to implement the IoT
subsystem. The proposed system also includes a smart garage gate based on
Bluetooth HC-05 module with a specially programmed android app.
Energy Management with Disaster Intimation and Control using IoTIJEACS
In the area of digitization and automation, the life of
human being is getting simpler as almost everything is
automated. Nowadays humans have made internet an integral
part of their everyday life without which they are helpless.
Internet of things (IoT) gives a platform which allows different
devices to inter-connect, sense and control the things remotely
across a network infrastructure without any limitation to the
coverage area. In our proposed work, we stress on Wireless-
Home-Automation-System (WHAS) using IoT, it is a system uses
computers or smart phone to control basic home functions and
features automatically through internet from anywhere around
the world, an automated home is sometimes called a smart home.
The proposed system is able to monitor the entire things
connected to the internet and also to be maintaining the status of
individual devices for further action. We have built the home
automation with several devices and sensors, here sensor help to
monitor the device status and intimate the authorized person to
take particular action.
Internet of Things IoT is a system of interrelated computing devices where all the things, including every physical object, can be connected making those objects intelligent, programmable and capable of interacting with humans. As more and more data are generated each day, IoT and its potential to transform how we communicate with machines and each other can change the world. The user operates the smart home devices year in year out, have produced mass operation data, but these data have not been utilized well in the past. This project focuses on the development of home automation system based on internet of things which allows the user to automate all the devices and appliances of home and merge them to provide seamless control over every side of their home. The data can be used to predict the user's behavior custom with the development of a machine learning algorithm, and then the prediction results can be employed to enhance the intelligence of a smart home system. The designed system not only gives the sensor data but also process it according to the requirement, for example switching on the light when it gets dark and it allows the user to control the household devices from anywhere. The cloud is used to send the sensor data through Wi Fi module and then a decision tree is implemented which decides the output of the electronic devices also, it is used to achieve the power control and local data exchanging which provide the user interface, store all the information corresponding to the specific house, and query the function information of an individual home appliance. Prof. Madhu B R | Vaishnavi K R | Dushyanth N Gowda | Tushar Jain | Sohan Chopdekar ""IoT Based Home Automation System over Cloud"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-4 , June 2019, URL: https://www.ijtsrd.com/papers/ijtsrd24005.pdf
Paper URL: https://www.ijtsrd.com/engineering/computer-engineering/24005/iot-based-home-automation-system-over-cloud/prof-madhu-b-r
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
Transfer Switch for Solar, Grid and Utility PowerIRJET Journal
This document describes a smart switch system that can control the flow of electricity from solar panels, batteries, or the grid to power various home appliances. It uses an ESP8266 Wi-Fi module connected to a relay board to allow remote control of appliances via a smartphone app. When signals are sent from the app, the Wi-Fi module activates the relay board to switch appliances on or off. This provides a smart home solution for remotely monitoring and controlling lights, AC, fans and other devices using a wireless network. The system was tested successfully and could enable more convenient and efficient energy management in homes with solar power.
Development of a Wireless Sensors Network for Greenhouse Monitoring and Controlijeei-iaes
Wireless sensor networks (WSN) could be used to monitor and control many parameters of environment such as temperature, humidity, and radiation leakage. In greenhouse the weather and soil should be independent of the natural agents. To achieve this condition a wireless sensor nodes could be deployed and communicate with a central base station to measure and transmit the sensed required environment factors. In this paper a WSN was implemented by deployed wireless sensor nodes in a greenhouse with temperature, humidity, moisture light, and CO2 sensors. The proposed model was built and tested, and the result shows an excellent improvement in the sensed parameters. To control the environmental factors, the used microcontroller programmed to control the parameters according to preset values, or manually through a user interface panel.
A Short Review on the Perspective of Home Automation TechnologyIRJET Journal
This document provides a short review of home automation technology perspectives. It discusses how technologies like IoT, Bluetooth, GSM, and Arduino allow for remote control and monitoring of home appliances and devices through smartphones. The review covers literature on using voice recognition, GSM networks, and brain-computer interfaces for home automation. It also discusses using cloud computing to collect home appliance data and control devices remotely. The conclusion is that the review presents different technologies that can help ensure home automation security.
Smart metering and control of transmission systemDurgarao Gundu
The document discusses smart metering and control of transmission systems in a smart grid. It describes characteristics of a smart grid like self-healing, including consumers, and accommodating different generation sources. It compares smart grids to existing systems and lists components of smart metering infrastructure like integrated communications and smart meters. Challenges of adopting smart grids include costs, complex structure, security, and privacy issues. Cyber security strategies for smart grids focus on availability, integrity, and confidentiality of data through encryption, authentication, and digital signatures.
Environmental Monitoring using Wireless Sensor Networks (WSN) based on IOT.IRJET Journal
This document describes a wireless sensor network system for environmental monitoring using Internet of Things (IoT) technology. Key points:
- Sensor nodes collect data from sensors and send it wirelessly to a Raspberry Pi base station using a Zigbee protocol. The base station sends the data to a cloud server.
- The system monitors parameters like temperature, humidity, CO2, and vibration. Real-time sensor data is fetched by a web server and displayed to users via the Internet.
- The Raspberry Pi acts as the base station, connecting to multiple sensor nodes. It contains a database and web server to store and display the sensor data remotely.
- Common sensor nodes used include MQ2 and
IOT in Electrical & Electronics EngineeringLokesh K N
The evaluation of the IOT in the electrical power industry transformed the way things performed in usual manner. IOT increased the use of wireless technology to connect power industry assets and infrastructure in order to lower the power consumption and cost. The implementation of IoT in power system must rely on the line monitoring and real-time control in all aspects of the grid operating parameters, and the basic characteristics are grid information, communication, and automation.
This document describes an Internet of Things (IoT) based temperature and humidity monitoring and control system. The system uses a DHT11 sensor to monitor temperature and humidity levels, which are sent to a NodeMCU microcontroller over WiFi. The NodeMCU then transmits the sensor data to the ThingSpeak IoT platform where it is stored and visualized on online charts. Based on predefined temperature and humidity thresholds, the system can automatically control actuators like fans and air conditioners using relays to regulate the environment as needed. The system provides remote monitoring of environmental conditions from anywhere via the internet and has applications in agriculture, industrial processes, and building management.
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Smart Home Automation Using IOT (Internet OF Things)
1. ISSN 2349-7815
International Journal of Recent Research in Electrical and Electronics Engineering (IJRREEE)
Vol. 4, Issue 2, pp: (22-32), Month: April - June 2017, Available at: www.paperpublications.org
Page | 22
Paper Publications
Smart Home Automation Using IOT
(Internet OF Things)
1
Mr. Jawwad Khizar Patel, 2
Mr. Mohammed Abdul Moyeed,
3
Mr. Syed Ahmed Zayaanuddin, 4
Mr. Mohammed, 5
Mrs. E. Shilpa
1
Serial Innovator, Patentee, Entrepreneur, Student VIII- Semester, Electronics and Communication Engineering,
Lords Institute of Engineering & Technology, Hyderabad
2, 3, 4
Student VIII- Semester, Electronics and Communication Engineering, Lords Institute of Engineering & Technology,
and published national research paper
5
Associate Professor, Department of Electronics and Communication Engineering, Lords Institute of Engineering &
Technology, Hyderabad
Abstract: A proposed development of the Internet in which everyday objects have network connectivity, allowing
them to send and receive data.(or) The concept of internetworking of physical devices, vehicles, buildings and
other items embedded with electronics, software, sensors, actuators, and network connectivity that enable these
objects to collect and exchange data is defined as “Internet of things”.It is the basic necessity for developing a
smart environment in which all the physical appliances communicate with each other to deliver ease of living
reducing the manual work up to a great extent. This inter-connected smart environment is the future of electronic
universe enabling sophistication to all the time consuming manual data transfers and instructions carried out by
the mankind. The infrastructure of information society depends up on IOT, enhancing the opportunities for more
direct integration between physical and cyber world. Therefore, ultimately providing improved efficiency,
accuracy and economic benefits.
Keywords: Internet of things, sensors, worldwide controlling, windows application, Internet monitoring, smart sensor
calibration.
I. INTRODUCTION
Overview:
It is the residential extension of building automation and involves the control and automation of lighting, heating (such as
smart thermostats), ventilation, air conditioning and security, as well as home appliances such as washer/dryers, ovens or
refrigerators/freezers that use Wi-Fi for remote monitoring. Modern systems generally consist of switches and sensors
connected to a central hub sometimes called a "gateway" from which the system is controlled with a user interface that is
interacted either with a wall-mounted terminal, mobile phone software, tablet computer or a web interface, often but not
always via internet cloud services.
2. ISSN 2349-7815
International Journal of Recent Research in Electrical and Electronics Engineering (IJRREEE)
Vol. 4, Issue 2, pp: (22-32), Month: April - June 2017, Available at: www.paperpublications.org
Page | 23
Paper Publications
Hardware Unit
Advantages of Home Automation Systems:
In recent years, wireless systems like Wi-Fi have become more and more common in home networking. Also in home and
building automation systems, the use of wireless technologies gives several advantages that could not be achieved using a
wired network only.
1) Reduced installation costs: First and foremost, installation costs are significantly reduced since no cabling is necessary.
Wired solutions require cabling, where material as well as the professional laying of cables (e.g. into walls) is expensive.
2) System scalability and easy extension: Deploying a wireless network is especially advantageous when, due to new or
changed requirements, extension of the network is necessary. In contrast to wired installations, in which cabling extension
is tedious. This makes wireless installations a seminal investment.
3) Aesthetical benefits: Apart from covering a larger area, this attribute helps to full aesthetical requirements as well.
Examples include representative buildings with all-glass architecture and historical buildings where design or
conservatory reasons do not allow laying of cables. 4) Integration of mobile devices: With wireless networks, associating
mobile devices such as PDAs and Smartphones with the automation system becomes possible everywhere and at any
time, as a device's exact physical location is no longer crucial for a connection (as long as the device is in reach of the
network).
For all these reasons, wireless technology is not only an attractive choice in renovation and refurbishment, but also for
new installations.
3. ISSN 2349-7815
International Journal of Recent Research in Electrical and Electronics Engineering (IJRREEE)
Vol. 4, Issue 2, pp: (22-32), Month: April - June 2017, Available at: www.paperpublications.org
Page | 24
Paper Publications
The User Interface of hardware is simple and well defined to significantly enhance the level of human-machine
interaction. The connections are easy to understand through the diagrammatic representation of the system. The design is
crafted in such a manner that the necessary space is provided between different components and connection. It also
ensures the portability factor of the proposed system due to its compact craftsmanship. The apparatus is light weight as
well, which in-turn contributes to the portability factor.
II. PROPOSED SYSTEM FEATURE
The proposed system is a distributed home automation system which consists of several layers on board, sensors. Server
controls and monitors the various sensors, and can be easily configured to handle more hardware interface module
(sensors). The ARM CORTEX M3 development board is interfaced with a computer consisting of dedicated program to
drive the product which also acts as a communication fragment. Automation System can be accessed from the web
browser of any device with web access using server IP remotely from any PC or mobile handheld device connected to the
internet with appropriate web browser through server real IP (internet IP).
Wi-Fi technology is selected to be the network infrastructure that connects server and the sensors. Wi-Fi is chosen to
improve system security (by using secure Wi-Fi connection), and to increase system mobility and scalability. An online
domain space is being used with one of the leading web suppliers to provide a sophisticated ping rate and security.
III. SYSTEM DESIGN AND IMPLEMENTATION
Proposed Smart Home Automation System:
The proposed model of the home automation system is as shown in the figure above. The model consist of different
sensors like temperature, humidity, light detection, toxic gas, motion detection,accelerometer, magnetic detection and
buzzer. Initially the ARM Cortex M3 connects to the internet through Wi-Fi module (ESP8266). When the connection is
established it will start reading the parameters of sensors like p1, p2, p3 etc. The threshold levels for the required sensors
are set as t1, t2, t3 etc. The sensor data are sent to the web server and stored in the cloud. The data can be analyzed
anywhere any time. If the sensor parameters are greater than the threshold level then the respective alarm a1, a2, a3 etc.
will be raised and the required actuation is done for the controlling of the parameters. In the proposed model the
temperature, light intensity, security, gas leakage, natural calamity, motion in the house is monitored. All the above
parametric information detected is stored in cloud for analysis. If the quantities exceed the threshold level then the
respective appliances will turn on/off/regulate automatically accordingly till the readings return to their previous values.
The user can also monitor the electric appliances through the internet via web server. If the lights or any electrical
appliances are left on in hurry can be seen and turned off remotely through simply typing the IP address of the web server.
The manual control over IP helps to enhance home security to another level.
The system is efficiently power conserving with smart protocols which consistently minimize power consumption.
Proposed Home Automation System Functions:
The proposed home automation system has the capabilities to control the following components in users home and
monitor the following alarms:
• Temperature and humidity
• Motion detection
• Fire and smoke detection
• Toxic element detection
• Natural calamity detection
• Locking system/ Home security
• Light level
4. ISSN 2349-7815
International Journal of Recent Research in Electrical and Electronics Engineering (IJRREEE)
Vol. 4, Issue 2, pp: (22-32), Month: April - June 2017, Available at: www.paperpublications.org
Page | 25
Paper Publications
The proposed home automation system can control the following appliance:
• Lights on/off/dim/brighten
• Fan on/off/regulate
• On/off/regulate different appliances
• Security alarms (Burglar/Natural calamity, etc.)
Block Diagram of System:
The above figure represents the block components and their connections with respect to the key component of the system
i.e. the micro-processor (ARM Cortex M3). Various sensors along with a buzzer are shown in the bottom region right
above an LED indicator, whereas the upper region consists of relays and spring sensors to control a large number of
appliances or devices.
The system has a tendency to internally heat after a prolonged usage like any other electronic processing device.
Therefore, a dedicated cooling fan is fabricated on the board to extract the unwanted heat which can be triggered
automatically based on the threshold level as well as manually operated.
The communication module of the system is also represented above in the figure which comprises of information sharing
to various networks or the internet.
5. ISSN 2349-7815
International Journal of Recent Research in Electrical and Electronics Engineering (IJRREEE)
Vol. 4, Issue 2, pp: (22-32), Month: April - June 2017, Available at: www.paperpublications.org
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Paper Publications
Circuit Diagram of System:
The circuit diagram is a complete detailed representation of connections of core as well as miscellaneous components
required to perform data collection/representation. The red lines are used to understand the Vcc network, black lines are
based on the common grounding phenomenon and the colored lines define the data transmission connections from sensors
to the path following towards relays and spring sensors.
The rectangular black bars are the pull-down resistors which are necessary for reducing the signal strength to an optimum
level.
IV. SOFTWARE
The micro-processor is programmed in embedded C which is known for its commonality with C programming as an
extension. Its syntax is comparatively easy to understand and implement.
Fig: Control panel
6. ISSN 2349-7815
International Journal of Recent Research in Electrical and Electronics Engineering (IJRREEE)
Vol. 4, Issue 2, pp: (22-32), Month: April - June 2017, Available at: www.paperpublications.org
Page | 27
Paper Publications
A custom designed dedicated software (JP Control panel) has been developed in order to collect and represent information
in real time which is transmitted serially from the development board to the communication device i.e. a personal
computer in this case. The software is a windows application based on .net platform and programmed in C# language
which makes it easier to code and to successfully deliver required data as a continuously refreshing output from various
sensors simultaneously in real-time. This information is displayed on a well-defined and simple user-interface to monitor
and control the surroundings.
The project has a merit of real-time monitoring and control through the web, this means that it can be accessed from
anywhere on the globe with an internet connection. To implement this feature, a domain space is employed with a
windows shared host to upload information online through a virtual port which is merged with the internet protocol. This
web-service is called as JP web-service and its graphical user-interface is programmed in PHP. HTML is a format that
instructs a computer to display a web page online. The documents themselves are plain text files with special "tags" or
codes that a web browser uses to interpret and display information on your computer screen. HTML stands for Hyper Text
Markup Language; an HTML file is a text file containing small markup tags. The markup tags tell the Web browser how
to display the page. An HTML files must have an htm or html file extension.
V. IMPLEMENTATION (FLOW CHART) AND WORKING
7. ISSN 2349-7815
International Journal of Recent Research in Electrical and Electronics Engineering (IJRREEE)
Vol. 4, Issue 2, pp: (22-32), Month: April - June 2017, Available at: www.paperpublications.org
Page | 28
Paper Publications
VI. HYPOTHESIS
The ARM cortex when interfaced with various Wi-Fi modules, could not match the delay loop. In order to fix the issue,
the specific ESP8266 was replaced with personal computer as a module for communication. Through this method, the real
time decryption of information was possible on the assigned PC and eventually the readings could be transmitted with
some delay to the domain space through internet acting as a medium.
8. ISSN 2349-7815
International Journal of Recent Research in Electrical and Electronics Engineering (IJRREEE)
Vol. 4, Issue 2, pp: (22-32), Month: April - June 2017, Available at: www.paperpublications.org
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Paper Publications
VII. RESULT
Fig: Control desk
Fig: Hardware
The obtained reading of information is displayed on the JP control panel which is installed on the PC. The PC acting as
the power supply as well as communication module, displays the real-time information simultaneously gathered from all
input sensing devices.
VIII. CONCLUSION AND FUTURE WORK
Smart Home automation based on Internet of things has been proved to work quite satisfactorily with a set of added
sensors which not only measure temperature, humidity, toxicity, light intensity, magnetic field, earthquakes and various
other safety measures but also protect an equipped region with smart security measures to prevent burglaries and theft.
The power consumption is significantly low with advanced features like automatic charging with an external battery
The system can be further innovated with a capability of human mood detection through cameras and artificial
intelligence protocols. This will take technology to another level by interpreting human moods and controlling ambient
lightning as well as musical playlists for a seamless visual and audio experience towards the future.
9. ISSN 2349-7815
International Journal of Recent Research in Electrical and Electronics Engineering (IJRREEE)
Vol. 4, Issue 2, pp: (22-32), Month: April - June 2017, Available at: www.paperpublications.org
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IX. RELATED WORK
1. Sirsath N. S, Dhole P. S, Mohire N. P, Naik S. C & Ratnaparkhi N.S
This paper proposes a Home Automation system that employs the integration of multi-touch mobile devices, cloud
networking, wireless communication, and power-line communication to provide the user with remote control of
various lights and appliances within their home. This system uses a consolidation of a mobile phone application,
handheld wireless remote, and PC based program to provide a means of user interface to the consumer.
2. Basil Hamed
The main objective of this Paper is to design and implement a control and monitor system for smart house. Smart
house system consists of many systems that controlled by LabVIEW software as the main controlling system in this
paper. Also, the smart house system was supported by remote control system as a sub controlling system. The system
also is connected to the internet to monitor and control the house equipment’s from anywhere in the world using Lab
view.
3. Deepali Javale, Mohd. Mohsin, Shreerang Nandanwar
The prime objective of this paper is to assist handicapped/old aged people. It gives basic idea of how to control
various home appliances and provide a security using Android phone/tab. The design consists of Android phone with
home automation application, Arduino Mega ADK. User can interact with the android phone and send control signal
to the Arduino ADK which in turn will control other embedded devices/sensors.
4. Basma M. Mohammad El-Basioni, Sherine M. Abd Elkader and Mahmoud Abdelmonim Fakhreldin
This paper proposes a new design for the smart home using the wireless sensor network and the biometric
technologies. The proposed system employs the biometric in the authentication for home entrance which enhances
home security as well as easiness of home entering process. The structure of the system is described and the
incorporated communications are analyzed, also an estimation for the whole system cost is given which is something
lacking in a lot of other smart home designs offers. WB-SH is designed to be capable of incorporating in a building
automation system and it can be applied to offices, clinics, and other places. The paper ends with an imagination for
the future of the smart home when employs the biometric technology in a larger and more comprehensive form. The
paper ends with an imagination for the future of the smart home when employs the biometric technology in a larger
and more comprehensive form.
ACKNOWLEDGEMENT
We are very much thankful for various contributions of developers who thrived to build the concept of IOT(Internet of
Things). The Home automation parameters elevate to a whole new stage by the phenomenon of data accumulation and
representation. We also acknowledge the immense efforts of our guides Mrs. E. Shilpa, ECE, LIET to provide us with
necessary guidance and quality of education in our field.
REFERENCES
[1] Sirsath N. S, Dhole P. S, Mohire N. P, Naik S. C & Ratnaparkhi N.S Department of Computer Engineering, 44,
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International Journal of Recent Research in Electrical and Electronics Engineering (IJRREEE)
Vol. 4, Issue 2, pp: (22-32), Month: April - June 2017, Available at: www.paperpublications.org
Page | 31
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AUTHOR’S PROFILE:
Mr. Jawwad Khizar Patel
Pursuing B-Tech in Electronics and Communication Engineering from Lords Institute of Engineering and
Technology, Hyderabad, being an inventor himself holding 2 patents in the fields of Electronics and publish
many national and international research paper, He Got featured in over 200 media channels in about 50
countries across different streams –print, radio, TV and Web He owns his Personal Lab and a Website.
Mr. Mohammed Abdul Moyeed
Pursuing B-Tech in Electronics and Communication Engineering from Lords Institute of Engineering and
Technology, Hyderabad, and Published National Research Paper.
11. ISSN 2349-7815
International Journal of Recent Research in Electrical and Electronics Engineering (IJRREEE)
Vol. 4, Issue 2, pp: (22-32), Month: April - June 2017, Available at: www.paperpublications.org
Page | 32
Paper Publications
Mr. Syed Ahmed Zayaanuddin
Pursuing B-Tech in Electronics and Communication Engineering from Lords Institute of Engineering and
Technology, Hyderabad, and Published National Research Paper.
Mr. Mohammed
Pursuing B-Tech in Electronics and Communication Engineering from Lords Institute of Engineering and
Technology, Hyderabad, and Published National Research Paper.
Mrs. E Shilpa
Assoc professor in ECE department at Lords Institute of Engineering and Technology, Hyderabad.