Arduino-based smart irrigation using water flow sensor, soil moisture sensor, temperature sensor and ESP8266 WiFi module

Strawberry fruit is one commodity that has the potential to be commercially developed, because strawberries have high economic value. However, strawberries in Indonesia at this time only lead to the level of quantity of production by holding land expansion, not yet leading to the level of quality and handling of strawberries after harvest. Greenhouse is a building made of glass or plastic which can be used as a place for cultivation of plants. Greenhouses are designed so that the cultivated plants obtain optimal conditions in the growth process. The system inside the greenhouse can be controlled automatically to reduce the room temperature so that plants can grow optimally. Automatic greenhouse control and monitoring for strawberry fruit is designed with a building ratio of 1: 25cm from its original size and can accommodate strawberry fruit plants in 2 small polybags used as research samples. This control and monitoring system starts from the input process which is derived from the DHT11 temperature sensor and the YL69 soil moisture sensor. Temperature sensors can read greenhouse conditions by getting a 5V DC voltage from Arduino Uno, as well as the YL69 sensor. The results obtained are the temperature sensor can read the temperature and conditions in the greenhouse then displayed on the 16x2 character LCD screen and the YL69 soil moisture sensor can read the water content below 70% which will then turn on the water pump automatically and provide notification through the telegram application with the help of Wi-Fi module ESP8266.

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Crop Cultivation in a Greenhouse using IOT

International Journal for Research in Applied Science and Engineering Technology ◽

10.22214/ijraset.2021.36108 ◽

2021 ◽

Vol 9 (VI) ◽

pp. 4432-4437

Author(s):

K. Akanksha

Keyword(s):

Soil Moisture ◽

Crop Yield ◽

Mobile Phones ◽

Temperature Sensor ◽

Moisture Level ◽

Crop Cultivation ◽

Moisture Sensor ◽

Soil Moisture Sensor ◽

Turn On ◽

Light Sensor

Nowadays gardening has become a hobby for everyone. Everyone is showing interest in growing their own plants in their houses like terrace farming. So we have decided to do a project which can be useful for everyone even the farmers can be benefitted by our project. In our project we are preparing a greenhouse for cultivating different kinds of crops. Our greenhouse consists of arduino UNO, sensors like (temperature sensor, soil moisture sensor, colour sensor and light sensor), actuators. All these are used in sensing the outside environment and giving signals to arduino so that it sends the signal through GSM module and this GSM module will give us a message alert through our mobile phones like for example if the moisture is less in soil then we will get alert “your moisture has decreased water the plants” so that we can turn on our motor pumps to water. Here we are using thingspeak cloud for coding the arduino through IOT. Our project will also do its watering by itself when the moisture level decreases, this is done by soil moisture sensor. It is very reasonable and complete greenhouse can be constructed under Rs.10,000 which can save lots of money for the farmers. The crop yield will also be very good and this will be useful in increasing the economy of farming.

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Tetra-parameter Fish Feeding Machine

International Journal of Circuits, Systems and Signal Processing ◽

10.46300/9106.2020.14.118 ◽

2020 ◽

Vol 14 ◽

Keyword(s):

Water Temperature ◽

Water Flow ◽

Temperature Sensor ◽

Text Message ◽

Flow Sensor ◽

Fish Feeding ◽

Sensor Temperature ◽

Commercial Feeds ◽

And Behavior

This study developed an automated machine that automatically controls the feeding routine of fish by checking four parameters that will serve as a prerequisite before dispensing the required amount of commercial feeds. The parameters to be checked are time, precipitation, the water temperature of the pond, and behavior of the fishes. The machine is also capable of notifying the owner or caretaker via text message if fishes have been fed successfully or not and if the level of the feeds is low. The machine utilizes sensors, namely a raindrop sensor, temperature sensor, and water flow sensor in which data are gathered through the aid of a microcontroller. After undergoing several trials, it was revealed that the fish feeding machine was able to implement the capabilities of the manual process of feeding done by a fish farmer. It also dispensed the required weight of feeds on time after satisfying the parameters. The machine was also reliable in terms of sending notifications to the owner through text message since results convey that they were received within 10 seconds if the signal is fine.

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Automatic irrigation system using soil moisture sensor and temperature sensor with microcontroller AT89S52

2017 International Conference on Signal Processing and Communication (ICSPC) ◽

10.1109/cspc.2017.8305835 ◽

2017 ◽

Cited By ~ 3

Author(s):

I. Srilikhitha ◽

M. Manoj Saikumar ◽

Nannu Rajan ◽

M. L. Neha ◽

M. Ganesan

Keyword(s):

Soil Moisture ◽

Temperature Sensor ◽

Irrigation System ◽

Moisture Sensor ◽

Soil Moisture Sensor

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IoT and AWS based Precision Agriculture in Ayurvedic Betel Leaf Cultivation

International Journal for Research in Engineering Application & Management ◽

10.35291/2454-9150.2020.0346 ◽

2020 ◽

pp. 553-557

Keyword(s):

Soil Moisture ◽

Precision Agriculture ◽

Temperature Sensor ◽

Wireless Sensor ◽

Water Pump ◽

Accelerometer Sensor ◽

Moisture Sensor ◽

Betel Leaf ◽

Soil Moisture Sensor ◽

To Receive

The main aim of this paper is to keep an eye on the growing betel leaf inside the greenhouse using Internet of Things (IoT). Maintaining the growth of the betel leaf helps in the quality and quantity of the production throughout the year. Since betel leaf can be grown all over many years one can maintain the data of the surrounding temperature, soil moisture, its climbing stems are also observed and these data are recorded and stored in the Amazon Web Server (AWS). For this we use Wireless Sensor Networks (WSN) such as temperature sensor, soil moisture sensor, accelerometer sensor, relay, water pump. These sensors help in detecting any changes inside the greenhouse and those data are stored in AWS and can be retrieved whenever necessary. GSM Module allows mobile phone to receive message through GPRS.

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PROTOTIPE APLIKASI PENYIRAMAN TANAMAN MENGGUNAKAN SENSOR KELEMBABAN TANAH BERBASIS MICRO CONTOLLER ATMEGA 328

Journal CERITA ◽

10.33050/cerita.v5i1.235 ◽

2019 ◽

Vol 5 (1) ◽

pp. 97-106

Author(s):

Rudi Budi Agung ◽

Muhammad Nur ◽

Didi Sukayadi

Keyword(s):

Soil Moisture ◽

Growth And Development ◽

Large Scale ◽

Simple Method ◽

Moisture Sensor ◽

Sensor Development ◽

Soil Moisture Sensor ◽

Application Systems ◽

Harvesting Systems ◽

Working Principle

The Indonesian country which is famous for its tropical climate has now experienced a shift in two seasons (dry season and rainy season). This has an impact on cropping and harvesting systems among farmers. In large scale this is very influential considering that farmers in Indonesia are stilldependent on rainfall which results in soil moisture. Some types of plants that are very dependent on soil moisture will greatly require rainfall or water for growth and development. Through this research, researchers tried to make a prototype application for watering plants using ATMEGA328 microcontroller based soil moisture sensor. Development of application systems using the prototype method as a simple method which is the first step and can be developed again for large scale. The working principle of this prototype is simply that when soil moisture reaches a certainthreshold (above 56%) then the system will work by activating the watering system, if it is below 56% the system does not work or in other words soil moisture is considered sufficient for certain plant needs.

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