EAI Endorsed Transactions on Internet of Things Smart Panel System using Internet of Things (original) (raw)
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Smart Panel System using Internet of Things
EAI Endorsed Transactions on Internet of Things
Technological developments that require humans to constantly innovate, utilize electricity in the community, assist the public about the dangers that exist. Electrical energy becomes very dangerous if the user process is not equipped with a good protection system. Conventional overload protection devices, such as MCB, can cut off electricity only from load points and cannot cut selective loads. Today's internet technology can be used not only for communication between individuals but also for communication between objects. By using the internet, devices can send data to each other and send requests to other devices. The Internet-based Smart Panel Is designed to protect components, and monitor the remote use of electrical energy and control equipments via a smartphone. This tool uses NODEMCU and ESP12 for wireless communication. The PZEM004T sensor module is used as a current load reader.
Smart Electrical Devices Control with Intrusion Detection Alert
International journal of interactive mobile technologies, 2022
The consumption profile of electrical energy always increases every year due to the highly consumptive and inappropriate lifestyles of modern society. A bad lifestyle such as forgetting to turn off the unused electronic devices when they are leaving home is one of the factors influenced the increasing consumption of electrical energy. This is off course contributing in wasting energy. In the paper, an IoT-based electronic device control system has been successfully constructed. Monitoring and control tasks could be performed remotely and in real time mode using an interface application installed on a smartphone. The system built is equipped with a device operational condition monitoring featured by placing light, temperature, thermal and current sensors, respectively. Through the utilization of the implemented system, users can monitor and control electronic devices easily and can figure out the condition of the device remotely in a real time mode. The control test on the system was successful with an average response time of approximately 3.32 seconds and the accuracy of sensor readings above 89%. With the implementation of this system, users can easily monitor and control electronic devices anywhere and anytime so that the opportunities for efficient and effective use of electrical energy could be further optimized.
IoT Based Overloaded Power Monitoring and Controlling System
International Journal of Scientific Research in Science, Engineering and Technology, 2022
One of the buzzwords in the Information Technology is Internet of Things (IoT). The future is Internet of Things, which will transform the real world objects into intelligent virtual objects. The IoT aims to unify everything in our world under a common infrastructure, giving us not only control of things around us, but also keeping us informed of the state of the things. The proposed system enhances electrical safety by fast disconnection of the power supply in case of fault events like leakage current, electrical arc, overcurrent or overvoltage and has been designed with the goal to be integrated in smart environments like smart homes or smart cities for protecting the electrical equipment. The system also enables real-time monitoring and notification events through an advanced communication interface using a data concentrator architecture. This paper provides an extended description of the proposed system’s design and implementation, as well as the experimental validation results.
Monitoring and Control System of Parallel Loads Electricity Consumption Based on IOT
JEECS (Journal of Electrical Engineering and Computer Sciences), 2023
This paper discusses the design of a power consumption monitoring using telegrams and LCDs. Monitoring of electrical energy consumption is carried out for overconsumption does not occur as well as safeguarding the electronic devices used. The relay will automatically disconnect the power source in every room when the power is overloaded and this condition is reported via the internet network with the Telegram application. To monitor power usage, it is necessary to measure it. Measurement in this study used a digital multi-meter and the PZEM-004T sensor. Measurements were made on ten electrical loads including Lights, fans, laptop chargers, cell phone chargers, soldering iron, grinders, iron hand drills, drill bits, and circular grinding wheels. The test to compare PZEM-004T and multimeter has been done, resulting in voltage error values of 0.048-1.347% and current error values of 0-35.484%. From the error value obtained in this test, it can be concluded that the PZEM004T is suitable for measuring current and voltage. Automatic control in the relay works when rooms 1, 2, 3, or 4 experience power readings that exceed the desired capacity. It will automatically cut off the voltage from the source so that excess power does not occur, the goal is to protect an electric circuit.
Design and Development of an IoT Smart Meter with Load Control for Home Energy Management Systems
Sensors
Electricity consumption is rising due to population growth, climate change, urbanization, and the increasing use of electronic devices. The trend of the Internet of Things has contributed to the creation of devices that promote the thrift and efficient use of electrical energy. Currently, most projects relating to this issue focus solely on monitoring energy consumption without providing relevant parameters or switching on/off electronic devices. Therefore, this paper presents in detail the design, construction, and validation of a smart meter with load control aimed at being part of a home energy management system. With its own electronic design, the proposal differs from others in many aspects. For example, it was developed using a simple IoT architecture with in-built WiFi technology to enable direct connection to the internet, while at the same time being big enough to be part of standardized electrical enclosures. Unlike other smart meters with load control, this one not only p...
IRJET- DESIGN AND IMPLEMENTATION OF SMART ENERGY METER USING IOT
IRJET, 2020
Energy meter reading is a tedious and an expensive affair. The meter reader has to go and take the reading manually to issue the bill, which will later be entered in the software to automate the billing and payment system. This paper proposes a new technology for energy meter reading by IOT technology and web server along with the existing meters. An IOT modem will be integrated with electronic energy meter to read the parameter such as voltage, current, frequency and uploaded on server or website. Energy meter deliver the reading details and it is uploaded on the website instantly. This communication system is further useful for electricity regional/sub-regional office, who can monitor the power consumption, and they can identify the problems such as overload and power theft. Moreover, this problem is identified by using same website which is used for monitoring. In this project each customer is differentiated using address or ID, this ID are used for identification by the consumer and as well as by office to monitor the reading and payment details. An additional feature is provided to the user for controlling the power supply during in terms of emergency case.
IOT Based Smart Power Metering
In India, plug load devices in building sectors are consuming close to 40 percent of the total electricity consumption. Though the share of plug load in building energy is increasing, very few studies exist on the plug level energy usage and consumption. In order to address the growing energy use of miscellaneous and electronic load (e.g. water heater), some measures need to be taken. Hence identifying needs, this project focuses on designing the devices that have built-in capability to measure and report the energy use or receive control input over the network. This study will help in creating energy awareness devices. Current sensor measures the current flowing through device then controller performs necessary calculations on the data and puts that data on the internet. By measuring current and voltage, we can analyze energy consumption, make the world smarter place and make better decisions using Internet of Things.
In this system, the energy meter reading is calculated and uploaded to server through IOT using controller. Thereby, customer and officer can open the website and read the data to know the cost of electric bill. The power to home can be controlled through the website by EB officer like ON/OFF based on payment of electric bill. Current sensor is used to read the current drawn by the load from the power supply. Voltage sensor is used to identify the voltage drop and apply voltage to the load from power supply. Relay is used to control the power ON and OFF to the home. Using the voltage and current sensor the power consumption is identified by the ARDUINO microcontroller and these data are uploaded to the server or website through IOT modem. Fig 1: Block Diagram Fig 2: Project Hardware
Internet of Things-based home automation, energy management and smart security system
IAES International Journal of Robotics and Automation (IJRA), 2021
Objects can easily be remotely sensed, monitored and controlled when home is automated using the Internet of Things (IoT); this will give room for direct integration of the real world into computerized systems. Energy consumption is defined as the degree of the amount of power expended by a given load in an electric circuit. Nowadays, inefficient techniques used in monitoring and control of power consuming devices has contributed immensely in the high rate of power consumption in our homes, institutions, business places, and marketplaces. The design and implementation of an IoT-based home automation, energy management and smart security system has been proposed in this paper. The components used in the development of the system unit include an ESP8266 Wi-Fi component and the universal Arduino imbedded controller. The proposed scheme is aimed at assisting and supporting an efficient usage of power, and by doing so, power consumption as well as the risk of fire outbreaks will be greatly reduced to the barest minimal. The capability of remotely monitoring and controlling both electrical and electronic appliances via a web application is the main feature of the proposed scheme. The scheme provides better efficiency and accuracy as well as economic benefits.
IOT Based Smart Energy Meter for Domestic Use
Internet of Things (IoT) has opened a myriad of applications in many areas, including medical and healthcare networks, smart home control, and environmental surveillance. IoT is supposed to bring about a large amount of progress within the ubiquitous computing sector. IoT-based energy management programs may allow a big contribution to energy conservation. Therefore, this paper focuses on the planning and implementation of an online of Things based household electricity energy monitoring and electric bulb remote for the reduction of electrical wastage using ESP 32-bit microcontroller. The ESP 32 microcontroller was used as the brain of the whole system which processes the energy consumption .The ESP32 microcontroller also handles the web connectivity via its inbuilt WIFI module so as to transmit the real-time energy consumption, and electric bulb remote control over the internet. A UBIDOS app was designed to serve as user interface for monitoring the household electricity energy con...