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pm:prj2023:avaduva:weatherstation [2023/05/28 23:11] sorana_elena.ion [Bibliografie/Resurse] |
pm:prj2023:avaduva:weatherstation [2023/05/28 23:22] (current) sorana_elena.ion [Concluzii] |
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| On the web application side, Django is used to develop a user interface for accessing and visualizing the stored sensor data. Django is a high-level Python web framework that follows the Model-View-Controller (MVC) architectural pattern. It provides a robust set of tools and features for rapid web application development. | On the web application side, Django is used to develop a user interface for accessing and visualizing the stored sensor data. Django is a high-level Python web framework that follows the Model-View-Controller (MVC) architectural pattern. It provides a robust set of tools and features for rapid web application development. | ||
| - | In the Django code, models are defined to represent the structure of the MySQL database table where the sensor data is stored. Views are implemented to handle user requests and retrieve data from the database. Templates are used to render the HTML pages and present the data to the user in a visually appealing way. | + | In the Django code, models are defined to represent the structure of the MySQL database table where the sensor data is stored. Views are implemented to handle user requests and retrieve data from the database. |
| The integration between the firmware code, MySQL, and Django allows for real-time data collection from the sensor device and seamless storage and presentation of the data through a web application. | The integration between the firmware code, MySQL, and Django allows for real-time data collection from the sensor device and seamless storage and presentation of the data through a web application. | ||
| - | By combining the firmware code with Django and MySQL, you can create a comprehensive system that collects, stores, and presents sensor data, providing valuable insights and facilitating further analysis. | ||
| - | ===== Rezultate Obţinute ===== | ||
| - | == Results Achieved == | + | By combining the firmware code with Django and MySQL, I could create a comprehensive system that collects, stores, and presents sensor data, providing valuable insights and facilitating further analysis. |
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| + | ===== Results Achieved ===== | ||
| 1. Sensor Data Acquisition: | 1. Sensor Data Acquisition: | ||
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| {{ :pm:prj2023:avaduva:poza3.jpeg?600 |}}{{ :pm:prj2023:avaduva:poza1.jpeg?600 |}}{{ :pm:prj2023:avaduva:poza2.jpeg?600 |}}{{ :pm:prj2023:avaduva:poza6.jpeg?600 |}}{{ :pm:prj2023:avaduva:poza5.jpeg?600 |}}{{ :pm:prj2023:avaduva:picture0.png?600 |}}{{ :pm:prj2023:avaduva:poza4.jpeg?600 |}} | {{ :pm:prj2023:avaduva:poza3.jpeg?600 |}}{{ :pm:prj2023:avaduva:poza1.jpeg?600 |}}{{ :pm:prj2023:avaduva:poza2.jpeg?600 |}}{{ :pm:prj2023:avaduva:poza6.jpeg?600 |}}{{ :pm:prj2023:avaduva:poza5.jpeg?600 |}}{{ :pm:prj2023:avaduva:picture0.png?600 |}}{{ :pm:prj2023:avaduva:poza4.jpeg?600 |}} | ||
| - | ===== Concluzii ===== | + | ===== Conclusion ===== |
| In conclusion, the weather station project successfully utilized the NodeMCU ESP8266 microcontroller along with various components such as the BME280 sensor, LCD display, and Wi-Fi module to create a functional and efficient weather monitoring system. | In conclusion, the weather station project successfully utilized the NodeMCU ESP8266 microcontroller along with various components such as the BME280 sensor, LCD display, and Wi-Fi module to create a functional and efficient weather monitoring system. | ||
