IndexIntroductionLiterature SurveyProposed SystemSolar Panel RotationInform UserChanging Power SourceConclusionThe Internet of Things (IoT) defines everyday physical objects connected to the Internet and capable of identifying other devices to exchange data with each other. This technology is useful for improving the performance, monitoring and maintenance of various systems. One of the most important fields of application is the use of solar energy. The proposed system will continuously supervise the monitoring and maintenance of solar panels. The rotation of the panel will take place based on the real-time position, the intensity of solar radiation and the climatic conditions. In case the system is not able to exploit the amount of energy required by all the household appliances working at a given time, the remaining energy will be acquired from other modes of electricity. The project focuses on providing users with system data analysis along with an intuitive interface. Prompt notifications will be provided to the user regarding dust accumulation in order to restore system efficiency and minimize its effects on energy production. Say no to plagiarism. Get a tailor-made essay on "Why Violent Video Games Shouldn't Be Banned"? Get Original Essay Introduction A solar panel is basically a collection of photovoltaic cells, which can be used to generate electricity through the photovoltaic effect. These cells are arranged in a grid pattern on the surface of the solar panels. Energy production from solar photovoltaic systems is variable in nature due to changes in solar radiation, temperature and other factors. Therefore remote monitoring is essential. First, sunlight hits a solar panel and the panels convert the energy into direct current, which flows through an inverter. The inverter converts electricity from DC to AC, which you can then use to power your home or industries. If the system produces more energy during peak hours than customers use, the excess energy is stored in grids for later use. It's simple and clean, and it's becoming more efficient and convenient. Remote monitoring will help eliminate the risks associated with traditional cabling systems and make the process of measuring and monitoring data much simpler and cheaper, while IoT-based systems take a huge step towards monitoring systems via a intelligent decision making from the web. The current architecture of remote monitoring systems and its implementation flexibility make it particularly suitable for industrial purposes. In general, remote monitoring systems need to retrieve, analyze, transmit, manage and feedback remote information, using the most advanced scientific and technological field of communication technology and other areas. Some of the applications of solar energy: Homes: Residential appliances can easily use electricity generated through solar energy. Commercial use: The panels are used to provide electricity to different offices or other parts of the building reliably. Swimming pools: You can add a solar blanket in your pool that will keep the water warm with energy generated by sunlight. Solar lights: These lights store the sun's natural energy during the day and then convert this energy into electricity to light up at night. Solar Cars: It is an electric vehicle that is charged by solar energy or sunlight. fi technology is also used for monitoring and controlremote control of photovoltaic systems for domestic applications. Wi-Fi (IEEE 802.11g) is chosen because it operates at 2.4 GHz and offers a high data rate of approximately 54 Mbps compared to ZigBee (250 Kbps), but this solution is only convenient for the architecture of microgrid network. The proposed system focuses on supervising the monitoring and performance of solar panels. The web portal aims to introduce a proposed method that helps the user acquire information regarding the conditions and status of the efficiency and performance of the solar panel. The application also suggests rotating the solar panel according to the intensity of solar radiation to produce high amount of energy with the help of real-time data. The dust sensors present are used to warn the user of excessive dust accumulation so that removing it restores its previous efficiency. By analyzing the power of the solar panel and the power required to run different home appliances, the system will automatically switch from solar energy to other electricity modes. Literature Survey The implementation of a remotely accessible collection of solar energy programs to determine the electrical characteristics and maximum power point (MPP) tracking of a Photovoltaic (PV) module. Two remote communication technologies were used for this purpose: LabVIEW Web Services and LabVIEW Remote Panels. One of the requirements for the integration of photovoltaic power generation systems into traditional generation systems will be the monitoring of photovoltaic generation systems and also the adoption of photovoltaic power generation systems. to the current power system is another significant topic. In this study, a system was introduced to develop a photovoltaic power generation system in the laboratory with Labview using its useful and effective tools. The photovoltaic system connected to the kWp grid was used as a photovoltaic power generation system and NI USB-6221 data acquisition (DAQ) for monitoring the photovoltaic system the developed electrical measurement board and circuits were used. Parameters and variations of current, voltage and power parameters generated in the photovoltaic system acquired by the system and these parameters were monitored in real time thanks to the Labview DAQ card. The output voltage, output current and power generated by the PV system were also monitored with the developed Labview software. One of the systems is developed on an online monitoring and control system for distributed renewable energy sources (RES) based on Android platform. This method uses the Bluetooth interface of the Android tablet/mobile phone as a communication link to exchange data with the digital hardware of the power conditioning unit (PCU). The low-cost Android tablet can replace the graphical LCD displays and Internet modem of the RES power conditioning unit (PCU) with improved graphical display and touch screen interface. A professional O&M service package guarantees that the photovoltaic system maintains high levels of technical and consequently economic quality. performance over its lifetime. Nowadays, it is well recognized by all stakeholders that high quality O&M services mitigate potential risks, improve levelized cost of electricity (LCOE) and power purchase agreement (PPA) prices, and have a positive impact on return on investment (ROI). in which the absorption of light elevates an electron to a higher energy state, and secondly, the movement of this higher energy electron from the solar cell into a.