Jarvis is an IoT system that includes a main unit, an outdoor unit and an optional server. The main unit is a smart thermostat can communicate with the server and the external unit, it can download weather forecasts from wunderground.com site and is controllable via Blynk for Android and iOS. The outdoor unit will have supplied a temperature sensor, a humidity and a solenoid valve to control irrigation of the garden.

The main objective is to provide a comfortable and convenient user interface by sensing and controlling the plant environment. Using Node MCU along with several sensors like soil moisture, Temperature and Humidity sensor were used to actuate water pump and UV light source. Which interact with an android app using Ubidots as a cloud platform. The project successfully completed under the supervision of Experts Hub team, Pune.

IoT Smart Garden – an intelligent gardening system that monitors soil, light, and humidity in real-time, automates watering, and helps users grow plants efficiently and sustainably.

Smart irrigation system for automated plant watering. Using sensors (soil moisture, temperature), it adjusts schedules based on real-time data. Users can control and monitor via a web interface. Includes IoT devices (ESP32), weather data integration, watering logs, and notifications. Ideal for smart home and garden automation.

An IoT project using ESP8266 microcontroller to monitor and control a garden. Track soil moisture, water tank level, and environmental conditions. Remotely control your garden via the Blynk app

Smart Garden IoT system using ESP32, Firebase Realtime Database, and a React Native mobile app for live plant monitoring and automated irrigation.

No description available

Blynk Cloud based Automated Gardening System

An IoT gateway using an ESP8266 to collect sensor data (DHT22, soil moisture) and receive remote data via ESP-NOW. It logs information to ThingSpeak, provides real-time monitoring on Blynk, and automates relays for climate control. A complete sensor-to-cloud solution.

CS Technion IOT project Group 4 - Smart garden system

IoT Smart Garden Watering System with Soil Moisture Sensor (Raspberry Pi) This project uses a Raspberry Pi to read data from a soil moisture sensor and control a water pump to water the garden when needed. Hardware: Raspberry Pi Soil Moisture Sensor Relay Water Pump

A smart IoT garden automation system that senses soil moisture and controls water pump using Arduino and Blynk platform.

This project demonstrates a Smart Urban Garden IoT system using an ESP32 microcontroller with data visualization through Node-RED, InfluxDB, and Grafana.

BK Smart Garden: IoT system for automated plant care using ESP32 & HiveMQ. Features environmental monitoring, auto/manual watering, and data sync via Web Dashboard.

🌱 Smart Plant Monitoring System using ESP8266 & Blynk IoT. Monitors soil moisture, temperature, humidity, and motion, while controlling a water pump automatically or via mobile app. A complete IoT-based smart garden solution with DHT11, PIR sensor, relay, and LCD for real-time monitoring.

SynWavEco is an integrated IoT e-commerce ecosystem built with PHP Laravel. We bridge hardware (STM32, ESP32) and software through synergy, synchronicity, and synthesis. From smart gardens to automated drying systems, we go "Beyond Connectivity" to elevate smart-life experiences with integrity and economic efficiency.

This project is an IoT-based smart home system that enables remote control of different devices at home and garden such as garden watering and blinds control through a web application. It integrates an ESP8266 controller with socket.io communication, a Node.js backend, and a React frontend, along with water consumption tracking features.

Automation rules the world nowadays. It is a technique of using computers or mobile phones in monitoring and controlling the simple parameters of day-to-day life. The standard of our life will be nourished by the practice of using automa-tion for simple things. IOT provides solutions for various problems and it allows things to be sensed or controlled remotely in network infrastructure. It is possible to control many operations of the field remotely from anywhere, anytime by IOT, in which an individual can control his electronic devices using a smart phone. So, we are going to work on Automatic Plant Watering and Monitoring System using NodeMCU where we will use some sensors like Soil moisture sensor and DHT humidity sensor. It will be real time monitoring system prototype which will help people to monitor the parameters like temperature, humidity and soil moisture etc. and ensures maintenance of the garden by switching on water supply through pump from anywhere, anytime using mobile phone. It offers a futuristic way of life and plays a vital role and serves as a good companion for plants.

Code of smart garbage segregating robot

ESP32-based smart garden system to automate plant irrigation using soil moisture sensors.

Firmware of Smart-Garden-IOT-System

This was developed to improve the garden maintenance problems in Sri Lanka. The system detects soil moisture level of the garden and automatically turn on and off the water pump and notify the user.

No description available

No description available

No description available

Maintaining optimum soil moisture content using a soil moisture sensor and watering system at a garden and a monitoring system using Blynk app on our smart phone.

No description available

UIT Project1

UIT Project 2

Sistema di Irrigazione Intelligente basato su Arduino UNO R4 WiFi, sviluppato dalla classe 3C Informatica dell'IISS "Augusto Righi" di Taranto. Il sistema monitora l’umidità del suolo di quattro piante e attiva automaticamente pompe d’acqua solo quando necessario, con possibilità di controllo manuale e remoto tramite Arduino IoT Cloud.