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.
The design of a smart home controller based on ADALINETELKOMNIKA JOURNAL
This paper proposes a prototype of an improved smart home controller that implements a neural network-based algorithm for enabling the controller to make decisions and act based on the current condition. Unlike previous approaches, this design also utilizes the use of IoT (internet of thing) technology and neural network based-algorithm for developing the controller. Since a smart home is equipped with various sensors, actuators, smart appliances, and mobile terminals, all of these devices need to be connected to the Internet to be able to communicate and provide services for its occupants. The construction of the proposed controller is carried out through several procedures, i.e. the implementation of the ADALINE (adaptive liniear) as the neural network method, the design of the smart home controller prototype, and the validation process using mean average percentage error (MAPE) calculation. This prototype integrates functionalities of several household appliances into one application controlled by a smartphone. ADALINE is applied as an algorithm to predict output when the controller is in automatic mode. Although the obtained accuracy value is still not satisfactory, the value is bound to change when testing on more data. The work published in this paper may encourage the implementation of smart technology in more households in Indonesia.
UBIQUITOUS SMART HOME SYSTEM USING ANDROID APPLICATIONIJCNCJournal
This paper presents a flexible standalone, low cost smart home system, which is based on the Android app communicating with the micro-web server providing more than the switching functionalities. The Arduino Ethernet is used to eliminate the use of a personal computer (PC) keeping the cost of the overall system to a inimum while voice activation is incorporated for switching functionalities. Devices such as light switches, power plugs, temperature sensors, humidity sensors, current sensors, intrusion detection sensors, smoke/gas sensors and sirens have been integrated in the system to demonstrate the feasibility and effectiveness of the proposed smart home system. The smart home app is tested and it is able successfully perform the smart home operations such as switching functionalities, automatic environmental control and intrusion detection, in the later case where an email is generated and the siren goes on.
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.
The design of a smart home controller based on ADALINETELKOMNIKA JOURNAL
This paper proposes a prototype of an improved smart home controller that implements a neural network-based algorithm for enabling the controller to make decisions and act based on the current condition. Unlike previous approaches, this design also utilizes the use of IoT (internet of thing) technology and neural network based-algorithm for developing the controller. Since a smart home is equipped with various sensors, actuators, smart appliances, and mobile terminals, all of these devices need to be connected to the Internet to be able to communicate and provide services for its occupants. The construction of the proposed controller is carried out through several procedures, i.e. the implementation of the ADALINE (adaptive liniear) as the neural network method, the design of the smart home controller prototype, and the validation process using mean average percentage error (MAPE) calculation. This prototype integrates functionalities of several household appliances into one application controlled by a smartphone. ADALINE is applied as an algorithm to predict output when the controller is in automatic mode. Although the obtained accuracy value is still not satisfactory, the value is bound to change when testing on more data. The work published in this paper may encourage the implementation of smart technology in more households in Indonesia.
UBIQUITOUS SMART HOME SYSTEM USING ANDROID APPLICATIONIJCNCJournal
This paper presents a flexible standalone, low cost smart home system, which is based on the Android app communicating with the micro-web server providing more than the switching functionalities. The Arduino Ethernet is used to eliminate the use of a personal computer (PC) keeping the cost of the overall system to a inimum while voice activation is incorporated for switching functionalities. Devices such as light switches, power plugs, temperature sensors, humidity sensors, current sensors, intrusion detection sensors, smoke/gas sensors and sirens have been integrated in the system to demonstrate the feasibility and effectiveness of the proposed smart home system. The smart home app is tested and it is able successfully perform the smart home operations such as switching functionalities, automatic environmental control and intrusion detection, in the later case where an email is generated and the siren goes on.
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.
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
Abstract: Android based E-home is an application of embedded system which integrates Android operating system, Arduino controller and GSM for the implementation of Smart Home. Any Android device can act as a transmitting device. The user can control any appliance through an user friendly mobile application built in Android platform. A unique code for controlling each appliance installed with the system is assigned in the program and it is transmitted from the Android phone to the CPU installed in receiver, through the application, as Text messages. The GSM receiver in the CPU receives the text messages from the transmitting device and transfers it to the controller. The Controller decodes the message based on the decoding algorithm stated in the program and based on the command from the user; the controller sends signals to the switching circuitry. The Switching circuitry is the device which is in direct contact with the home appliances through wires and it controls the devices connected to it. Thus, by controlling the Switching circuitry, it is possible to control the various devices. Backward communication is also enabled when an event occurs in the mechanical switch. In this case, the GSM shield acts as a transmitter and sends a message to the user. Thus, ‘Android based E-Home’ provides a cost efficient, long range solution for the implementation of a smart home using less complex circuits and also provides an user friendly environment through the android app. There is no need for an extra hardware as the Android smart phone itself acts as a transmitter which in turn contributes to the cost efficiency, ease of access and efficient operation of the system.
AN AMELIORATED METHODOLOGY FOR THE DESIGN AND IMPLEMENTATION OF HOME AUTOMATI...AM Publications,India
n this era of digitization and automation, the life of human being is getting simpler because almost everything is automatic where the old manual systems is replaced with the automated system. There is anincrease in demand for the internet and most of the businesses are automated today. At the same time, people are also fully dependent on the internet for day-to-day activites. In this paper, we are proposing an automated tool which controls the operations of Home appliances such as light, cooler, water tank, motion sensor, T.V., smoke detector through the use of mobile phone. This system uses the hardware devices such as arduino, ethernet shield, relay board, PIR sensor, MQ2 sensor; temperature sensor.Internet of things (IOT) provides a platform that allows devices to connectand control remotely across a network infra structured. In this paper, we have proposed an automated system (HAS) using andruino that employee the integration of cloud networking, wireless communication to provide the user with remote control of various home appliances. The system will automatically change the status of the home appliance on the basis of sensors data.This system is designed to be a low cost and expandable to other appliance.
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.
Nowadays there is a brief usage and dependability of pulsating features of the smart devices. So there is a need of connecting these devices through internet to explore their functionality. In the world of Smart homes there exists different systems but failed to provide many functionalities like controlling the devices remotely, overhead in communication, and energy efficiency. This paper delivers the solution to the constraint of the existing systems. The monitoring and controlling of smart organized homes environmental and safety parameters a Wi-Fi based WSN system is designed. A lightweight MQTT protocol is used for interactions between devices and user. The user can flawlessly control and monitor the devices via Android Application using a Graphical User Interface (GUI) remotely.
Nowadays there is a brief usage and dependability of pulsating features of the smart devices. So there is a need of connecting these devices through internet to explore their functionality. In the world of Smart homes there exists different systems but failed to provide many functionalities like controlling the devices remotely, overhead in communication, and energy efficiency. This paper delivers the solution to the constraint of the existing systems. The monitoring and controlling of smart organized homes environmental and safety parameters a Wi-Fi based WSN system is designed. A lightweight MQTT protocol is used for interactions between devices and user. The user can flawlessly control and monitor the devices via Android Application using a Graphical User Interface (GUI) remotely
Communication Methods to build Smart Home Monitoring System: A Surveydbpublications
The inability to access and control the appliances from remote locations is one of the major reasons for energy loss. An android application or any input method is used by the users to give instructions to home automation systems. This system can make use of a host of communication methods such as Wi-Fi, GSM, Bluetooth and ZigBee etc.. Different controlling devices and configurations can be found in existing systems. Such systems have been found already in many places for a wide variety of applications. This paper presents a survey of such systems.
Communication Methods to build Smart Home Monitoring System: A Surveydbpublications
The inability to access and control the appliances from remote locations is one of the major reasons for energy loss. An android application or any input method is used by the users to give instructions to home automation systems. This system can make use of a host of communication methods such as Wi-Fi, GSM, Bluetooth and ZigBee etc.. Different controlling devices and configurations can be found in existing systems. Such systems have been found already in many places for a wide variety of applications. This paper presents a survey of such systems. Keywords: I
IOT Based Smart Home Appliances Control From Any Where By Using Mcu.pptxpavan572849
iot based smart home appliances.This project focuses on developing a cost-effective Wireless Home Automation System (WHAS) using IoT and Android OS, leveraging.
Wi-Fi technology.
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
Abstract: Android based E-home is an application of embedded system which integrates Android operating system, Arduino controller and GSM for the implementation of Smart Home. Any Android device can act as a transmitting device. The user can control any appliance through an user friendly mobile application built in Android platform. A unique code for controlling each appliance installed with the system is assigned in the program and it is transmitted from the Android phone to the CPU installed in receiver, through the application, as Text messages. The GSM receiver in the CPU receives the text messages from the transmitting device and transfers it to the controller. The Controller decodes the message based on the decoding algorithm stated in the program and based on the command from the user; the controller sends signals to the switching circuitry. The Switching circuitry is the device which is in direct contact with the home appliances through wires and it controls the devices connected to it. Thus, by controlling the Switching circuitry, it is possible to control the various devices. Backward communication is also enabled when an event occurs in the mechanical switch. In this case, the GSM shield acts as a transmitter and sends a message to the user. Thus, ‘Android based E-Home’ provides a cost efficient, long range solution for the implementation of a smart home using less complex circuits and also provides an user friendly environment through the android app. There is no need for an extra hardware as the Android smart phone itself acts as a transmitter which in turn contributes to the cost efficiency, ease of access and efficient operation of the system.
AN AMELIORATED METHODOLOGY FOR THE DESIGN AND IMPLEMENTATION OF HOME AUTOMATI...AM Publications,India
n this era of digitization and automation, the life of human being is getting simpler because almost everything is automatic where the old manual systems is replaced with the automated system. There is anincrease in demand for the internet and most of the businesses are automated today. At the same time, people are also fully dependent on the internet for day-to-day activites. In this paper, we are proposing an automated tool which controls the operations of Home appliances such as light, cooler, water tank, motion sensor, T.V., smoke detector through the use of mobile phone. This system uses the hardware devices such as arduino, ethernet shield, relay board, PIR sensor, MQ2 sensor; temperature sensor.Internet of things (IOT) provides a platform that allows devices to connectand control remotely across a network infra structured. In this paper, we have proposed an automated system (HAS) using andruino that employee the integration of cloud networking, wireless communication to provide the user with remote control of various home appliances. The system will automatically change the status of the home appliance on the basis of sensors data.This system is designed to be a low cost and expandable to other appliance.
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.
Nowadays there is a brief usage and dependability of pulsating features of the smart devices. So there is a need of connecting these devices through internet to explore their functionality. In the world of Smart homes there exists different systems but failed to provide many functionalities like controlling the devices remotely, overhead in communication, and energy efficiency. This paper delivers the solution to the constraint of the existing systems. The monitoring and controlling of smart organized homes environmental and safety parameters a Wi-Fi based WSN system is designed. A lightweight MQTT protocol is used for interactions between devices and user. The user can flawlessly control and monitor the devices via Android Application using a Graphical User Interface (GUI) remotely.
Nowadays there is a brief usage and dependability of pulsating features of the smart devices. So there is a need of connecting these devices through internet to explore their functionality. In the world of Smart homes there exists different systems but failed to provide many functionalities like controlling the devices remotely, overhead in communication, and energy efficiency. This paper delivers the solution to the constraint of the existing systems. The monitoring and controlling of smart organized homes environmental and safety parameters a Wi-Fi based WSN system is designed. A lightweight MQTT protocol is used for interactions between devices and user. The user can flawlessly control and monitor the devices via Android Application using a Graphical User Interface (GUI) remotely
Communication Methods to build Smart Home Monitoring System: A Surveydbpublications
The inability to access and control the appliances from remote locations is one of the major reasons for energy loss. An android application or any input method is used by the users to give instructions to home automation systems. This system can make use of a host of communication methods such as Wi-Fi, GSM, Bluetooth and ZigBee etc.. Different controlling devices and configurations can be found in existing systems. Such systems have been found already in many places for a wide variety of applications. This paper presents a survey of such systems.
Communication Methods to build Smart Home Monitoring System: A Surveydbpublications
The inability to access and control the appliances from remote locations is one of the major reasons for energy loss. An android application or any input method is used by the users to give instructions to home automation systems. This system can make use of a host of communication methods such as Wi-Fi, GSM, Bluetooth and ZigBee etc.. Different controlling devices and configurations can be found in existing systems. Such systems have been found already in many places for a wide variety of applications. This paper presents a survey of such systems. Keywords: I
IOT Based Smart Home Appliances Control From Any Where By Using Mcu.pptxpavan572849
iot based smart home appliances.This project focuses on developing a cost-effective Wireless Home Automation System (WHAS) using IoT and Android OS, leveraging.
Wi-Fi technology.
Overview of the fundamental roles in Hydropower generation and the components involved in wider Electrical Engineering.
This paper presents the design and construction of hydroelectric dams from the hydrologist’s survey of the valley before construction, all aspects and involved disciplines, fluid dynamics, structural engineering, generation and mains frequency regulation to the very transmission of power through the network in the United Kingdom.
Author: Robbie Edward Sayers
Collaborators and co editors: Charlie Sims and Connor Healey.
(C) 2024 Robbie E. Sayers
Industrial Training at Shahjalal Fertilizer Company Limited (SFCL)MdTanvirMahtab2
This presentation is about the working procedure of Shahjalal Fertilizer Company Limited (SFCL). A Govt. owned Company of Bangladesh Chemical Industries Corporation under Ministry of Industries.
Hierarchical Digital Twin of a Naval Power SystemKerry Sado
A hierarchical digital twin of a Naval DC power system has been developed and experimentally verified. Similar to other state-of-the-art digital twins, this technology creates a digital replica of the physical system executed in real-time or faster, which can modify hardware controls. However, its advantage stems from distributing computational efforts by utilizing a hierarchical structure composed of lower-level digital twin blocks and a higher-level system digital twin. Each digital twin block is associated with a physical subsystem of the hardware and communicates with a singular system digital twin, which creates a system-level response. By extracting information from each level of the hierarchy, power system controls of the hardware were reconfigured autonomously. This hierarchical digital twin development offers several advantages over other digital twins, particularly in the field of naval power systems. The hierarchical structure allows for greater computational efficiency and scalability while the ability to autonomously reconfigure hardware controls offers increased flexibility and responsiveness. The hierarchical decomposition and models utilized were well aligned with the physical twin, as indicated by the maximum deviations between the developed digital twin hierarchy and the hardware.
Final project report on grocery store management system..pdfKamal Acharya
In today’s fast-changing business environment, it’s extremely important to be able to respond to client needs in the most effective and timely manner. If your customers wish to see your business online and have instant access to your products or services.
Online Grocery Store is an e-commerce website, which retails various grocery products. This project allows viewing various products available enables registered users to purchase desired products instantly using Paytm, UPI payment processor (Instant Pay) and also can place order by using Cash on Delivery (Pay Later) option. This project provides an easy access to Administrators and Managers to view orders placed using Pay Later and Instant Pay options.
In order to develop an e-commerce website, a number of Technologies must be studied and understood. These include multi-tiered architecture, server and client-side scripting techniques, implementation technologies, programming language (such as PHP, HTML, CSS, JavaScript) and MySQL relational databases. This is a project with the objective to develop a basic website where a consumer is provided with a shopping cart website and also to know about the technologies used to develop such a website.
This document will discuss each of the underlying technologies to create and implement an e- commerce website.