DEMO TUGAS UTS MATA KULIAH IOT. PROJECTS KELAS 02 " SMART WEATHER STATION"

Thofik Hidayat

8 Nov 202403:19

Summary

TLDRThis presentation introduces the Smart Weather Station project, developed by the Information Technology program at Universitas Muhammadiyah Tapanuli Selatan. The device measures temperature, humidity, altitude, and air pressure, with data accessible via a website and mobile app. The station aims to support public use and research by analyzing weather data to determine suitable crops for cultivation. Key components include the SPV 8266 microcontroller, BMP 280 sensor for altitude and pressure, DHT 11 for temperature and humidity, and a 16*2 display. The project uses IoT for data storage and monitoring, offering practical benefits for daily life and research.

Takeaways

😀 The presentation introduces the Smart Weather Station project developed by the team from the Information Technology Department at Universitas Muhammadiyah Tapanuli Selatan.
😀 The project involves a smart device that measures environmental factors such as temperature, humidity, altitude, and air pressure.
😀 Data collected by the Smart Weather Station can be monitored via both a website and a mobile application.
😀 The main goal of the project is to help the public in utilizing weather data for various applications, including agriculture.
😀 The Smart Weather Station aims to aid in selecting suitable crops based on environmental data analysis.
😀 Key components of the Smart Weather Station include the ESP8266 microcontroller, BMP280 sensor, DHT11 sensor, and a 16x2 LCD display.
😀 The ESP8266 microcontroller is responsible for processing and transmitting the environmental data collected by the sensors.
😀 The DHT11 sensor measures temperature and humidity, while the BMP280 sensor tracks altitude and air pressure.
😀 The processed data is displayed in real-time on the 16x2 LCD screen and can also be accessed through a server (Link IoT).
😀 The project emphasizes accessibility and the use of technology for practical, everyday applications, particularly in the fields of research and farming.

Q & A

What is the main purpose of the Smart Weather Station?
-The Smart Weather Station is designed to measure temperature, humidity, altitude, and air pressure, with the data being monitored through a website or mobile application.
What are the key components of the Smart Weather Station?
-The key components include the ESP8266 microcontroller, BMP280 sensor for altitude and air pressure, DHT11 sensor for temperature and humidity, and a 16x2 display.
How does the Smart Weather Station transmit data?
-Data from the sensors is sent to the ESP8266 microcontroller, which processes the information and then sends it to the 16x2 display. The data is also uploaded to a server using the Link IoT platform for storage and monitoring.
What is the purpose of the DHT11 sensor in the project?
-The DHT11 sensor is used to measure temperature and humidity in the environment.
What does the BMP280 sensor measure?
-The BMP280 sensor measures altitude and air pressure.
What role does the ESP8266 microcontroller play in the Smart Weather Station?
-The ESP8266 microcontroller processes data from the sensors and transmits it to the display and server for further monitoring and analysis.
How is the collected data used in the Smart Weather Station project?
-The collected data is used to help classify and determine the types of plants suitable for planting based on environmental conditions like temperature, humidity, and pressure.
What is the goal of the Smart Weather Station project?
-The goal is to develop a smart weather station that can aid the public in weather monitoring and provide valuable data for research and daily use in various fields.
How is the data from the Smart Weather Station monitored?
-The data is monitored through a website and mobile application that provides real-time updates on temperature, humidity, altitude, and air pressure.
What is the significance of using Link IoT in this project?
-Link IoT is used as the server to store data and enable monitoring of the weather station's readings, allowing for remote access and analysis of the data.