IOT Project on Humidity AND Temperature Monitoring

Posted By freeproject on December 19, 2018

Observing agricultural condition for temperature, humidity and soil dampness alongside different variables is imperative for a solid and affluent reason, which enhances the efficiency of agriculturists by utilizing innovation-driven cultivating. Dealing with these things physically requires a lot of labor and time and furthermore it is an expensive issue. The point of an IOT temperature and humidity monitoring is to eliminate the stress of having to manually calculate the temperature and humidity of an established framework. This is accomplished by putting certain sensors in place, to gather the field's temperature and humidity data, and send this to the web, which can additionally be examined utilizing any PC or Smartphone anywhere in the world for real-time decision making.

The framework of IOT temperature and humidity monitoring is structured so that the framework can work throughout the clock and give exact information of temperature and moistness on an ongoing premise. The IOT temperature and humidity monitoring system can be incorporated into various types of facility gadgets; for example, water siphons can be operated remotely utilizing a smartphone from anyplace utilizing web connectivity. Utilizing these framework ranchers can turn on and off their siphon from their home or any place in the world by using their cell phone as a long distance remote control.

The architecture of the IOT :
The IOT architecture consists of four major things:
  1. DHT11: this is the temperature and humidity sensor that is responsible for data collection from the immediate environment. This sensor can measure temperature and humidity from the range 00-550 and 20%-90% respectively.
  2. The minicomputer motherboard: this is the major element of the IOT temperature and humidity monitoring instrument, it is what connects the IOT to the internet, either by wired or wireless connections. A typical example of this mini computer is Raspberry Pi.
  3. Operating system: This contains all software used in the running of the IOT instrument, depending on the minicomputer used in the circuit construction of the IOT.
  4. Programming language: This is the coding or binary language that is used to translate commands to the IOT instrument panel, it is usually a simple language that can provide quick ways to communicate information (for example python).
How the IOT system works

In any given framework, the DHT11 sensor detects the temperature and moistness of the environment and convert the correct data into an advanced signal output. The output got from the DHT11 sensor is bolstered to the minicomputer board. Which utilizes the programming language to change over data of the temperature and humidity sensor into numerical qualities for temperature and humidity. This information is put away in a record over the timeframe, which is then put on the web utilizing the internet connection of the IOT.

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