Smart Gardening System Using Iot

Smart Gardening System Using Iot – Monitor your plant’s light and water levels and get notifications when needed. There is no code. Just drag and drop logic. Read about the project

Monitor your plant’s light and water levels and get notifications when needed. There is no code. Just drag and drop logic.

Smart Gardening System Using Iot

Smart Gardening System Using Iot

In today’s busy world, we forget to feed and water the plants that make our home clean and peaceful. Imagine if your plants could tell you when they are happy and when they need proper care. That would be amazing, right! It will be very useful if we receive information on our mobile phone about the health and value of the plant. With this in mind, we came up with the idea of ​​building a beautiful garden with an IoT plant monitoring system. It always monitors the soil moisture and the amount of sunlight it grows. After processing and verifying the data using the concepts developed by Integromat, messages about plant health are sent. It will make our life easier and more convenient, and it will help us take better care of our crops. So, let’s get started!

Let’s Learn How To Build A Smart Garden With 7 Tips

All the components required for this project are listed below and are available in the market at reasonable prices.

The Bolt IoT platform allows you to reliably control your devices and collect data from IoT devices, no matter where you are. Apply machine learning algorithms to detect errors and predict sensor behavior for more actionable information with just a few clicks. For more information, visit

What Integromat does is seamlessly connect your applications/services so you can focus on new tasks instead of repeating the same tasks over and over again. Back to basics.

Integromat works by connecting your favorite apps/services through parallel platforms to create content that transfers and interprets your data instantly. All you have to do is set up the interface to analyze the new information from the application / service, change the following modules to achieve the desired result, and Integromat will do the work for you.

Diy Smart Irrigation System Using Iot

Twilio is a cloud computing platform based in San Francisco, California. Twilio allows developers to make and receive calls and applications and send and receive messages using its API. For more information, visit

4. Now connect the probe of the ground sensor to its amplifier circuit using female / female jumpers and connect the Vcc, GND and DO (digital output) pins of the amplifier circuit to the 3.3V, GND and DO pins of the unit Bolt together. 0 female connection. Remember to connect these 3 only, not the analog output of the amplifier circuit.

After assembling the hardware, register and connect the Bolt circuit to the Bolt Cloud. Learn more about registering Bolts and connecting them to the cloud.

Smart Gardening System Using Iot

2. After setting up your account, use the “Create New Plan” button in the upper right corner of the dashboard to create a new plan. If you need any help, please click this link.

Iot Irrigation Monitoring & Controller System

4. Now, use this function to set up a sound system as shown in the picture. If you need any help, please click this link.

5. After the process, we now need to enter the credentials of the service we are using. That is, the Bolt device ID and BoltIoT service API key and SSID, authentication code, and Twilio service deployment number. You can find both at and respectively. Please see the image below for help.

Enter the required order and pin number. The SMS required by the BoltIoT service and the Twilio service is a receiver number to be sent.

6. Use the variable adjustment tool to find the current time and set the upper and lower limits. Enter the variable name and variable value as needed. Example:

Iot Plant Watering System Using Esp8266 & Blynk

7. Connect fault management to all BoltIoT devices to prevent Integromat from stopping the device if any fault occurs. In the controller, use whatever code was assigned to the Bolt when the error occurred. About ex. 12345 (ours) is shown below.

8. Place a time barrier and negative filter on the input leg of the router, and add a water filter and light source to each output leg of the router as shown below.

9. For Twilio services, use the SSID, authentication key, and deployment number provided in the Twilio dashboard. If you do not have a Twilio account, please create one from this link.

Smart Gardening System Using Iot

11. Finally change the shape as you want and save. In our example, this feature expires every 30 minutes.

Smart Iot Plant Monitoring System With Live Dashboard

The working principle is very simple, the soil sensor measures the content of the soil and the LDR measures the amount of light falling on the plant. When a read request comes in, the Bolt module reads both and passes them to Integromat’s logic.

For the soil sensor, if the water level is low (which is set by the user), the result of the sensor is low, otherwise it is high. This digital data is read from pin 0 of the Bolt. In case of LDR, analog data is read from pin A0 of Bolt.

Note – The input range of Bolt’s A0 pin is 0-1V. Therefore, we use 3.3V instead of 5V to operate this device.

In Integromat’s concept, when things are happening, the BoltIoT service sends digital and analog reading requests to Bolt to get water and power data. Next, three basic conversion tools are needed to find the current time and set the running time of the video. The router sends different messages to the user based on the received information. To determine which messages to send, each branch connects Twilio to a router with filters set to specific properties.

Smart Devices For Managing Your Garden

To handle any error, all BoltIoT services have an integrated error handler. The administrator gives BoltIoT the user ID in case of errors so that we can analyze them later in the router installation phase.

First, the system will check if it is evening and run a different route. If it is a date, an error is checked (if there is no error, Integromat stops there).

The system checks for errors by comparing the user ID of each BoltIoT with the user ID set by the error handler. If the system detects an error, it will mark the product as successful and try again next time.

Smart Gardening System Using Iot

If the system finds that everything is complete, a message is sent to the user to inform him about the health of the plant. A beautiful garden can adapt to the environment and have automatic irrigation and lighting systems. Read about the project

Smart System For Automated Irrigation Using Internet Of Things Devices In: Horttechnology Volume 31 Issue 6 (2021)

A beautiful garden can adapt to the environment and have automatic irrigation and lighting systems.

Smart gardens monitor temperature, humidity, light levels and soil moisture. It has an automatic system that provides plants with water when the soil is dry and turns on the lights when it is dark. This keeps the soil nice and stable for the plants and provides regular watering for those who tend to forget. Also, plants can continue to photosynthesize even in the absence of sunlight.

We will use Arduino and Raspberry Pi to receive data from sensors and control various actuators. Ambient temperature, humidity and light as well as soil moisture content will be recorded. These measurements will be displayed on the LCD screen, allowing users to understand the environment and the plants and monitor them.

When the soil water exceeds 500 (for our soil water sensor, which is very hot, it heats the soil), a red light will come on as a warning, indicating that the plant’s body needs water. The water pump will also start to run, just pumping water down. This is very useful for the workers because they don’t need to water the plant all the time, but the machine will water the plant based on the amount of water in the soil.

Pdf] Application Of Iot In Plant Watering System

As for automatic lighting, when the LDR value is higher than 300, the yellow LED will light up, like the sun, allowing the plant to continue photosynthesis.

Temperature, humidity, temperature level and soil moisture will also be published in DynamoDB. From the server (Raspberry Pi), the data will be displayed on the web page of the bottle, which shows the actual data from the sensor. This will allow users to check the plant environment anytime and anywhere (see the latest 15 posts from the chart).


Smart Gardening System Using Iot

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