Active Plant Wall for Green Indoor Climate Based On Cloud and Internet of Things
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This technique is applicable to medicinal type plants that are growing out of sunlight. It has specific temperatures and Ambient Conditions. And it should be under proper lighting and proper cooling it can be collected by using sensors and post those values over Cloud depending upon the scenario the pump light and fan will act.
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Complete Hardware Kit
Demo Video-Embedded Below
PPT (20 Slides)
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Our main aim of this method to develop the Autonomous plant watching system which may perform Sensing and Autonomous operation. Indoor climate watching by the sensors and management is prevailing in several places like residential homes. Our previous analysis has shown that a vigorous plant wall system will effectively scale back the concentrations of stuff and volatile organic compounds and stabilize the carbonic acid gas concentration in inside surroundings. During this article, we tend to propose a distant watching and system that’s specific to the plant walls. The system utilizes the web of Thingspeak technology and also public cloud platforms to change the management procedure, improve the measurability, enhance user experiences of plant walls, and contribute to an inexperienced indoor climate.
This project will monitor the indoor climate atmospheric, and mechanical environments of commercial or public buildings, according to the World Health Organization (WHO). The temperature, humidity, air quality and lighting conditions of indoor space are highly related to human health, comfort perception, well-being, and work productivity. A plant wall system involves growing diverse types of green plants on a vertically supported system that is attached to an internal or external wall or is designed as a standalone product. A plant wall system consists of vegetation, growing medium and irrigation and drainage systems. In addition to the initial aesthetic decoration, green plants make significant contributions to indoor environments via evaporation, air purification and water retention, which improves indoor climates and reduce energy use.
In the existing system, we are using the Automatic Plant watering system using Arduino it having a water pump with a monitoring system with a Moisture sensor but it does not have a plant monitoring system.
In order to overcome the drawback in the existing system here, we included plant monitoring also along with automatic watering. This technique is applicable to medicinal type plants that are growing out of sunlight. It has specific temperatures and Ambient Conditions. And it should be under proper lighting and proper cooling it can be collected by using sensors and post those values over Cloud depending upon the scenario the pump light and fan will act.
Block Diagram Explanation
- Arduino Uno acts as a Controller of the system which is interfaced with the Gas, moisture, Humidity, Ultrasonic Sensor and LDR.
- LDR used to find out the intensity of light by using the intensity value we can apply PWM to the Light
- The pump is controlled by Relay is switching through the IoT Depending upon the Moisture level in the Soil it will give alert message
- All the sensor values can be monitor and control over the IoT
- Gas Sensor
- Light and Fan
- Arduino UNO
- ESP8266 Wi-Fi Module.
- Arduino IDE
- IoT Cloud
- Embedded C Programming
The system has been tested and verified by an experimental deployment. The results indicate that a cloud and IoT-based remote monitoring and management system can be significant merit to plant walls, in terms of its reliable performance, real-time monitoring, timely feedback, and convenient remote control. This solution may greatly benefit plant wall suppliers by simultaneously improving maintenance efficiency but reducing the cost. The IoT and cloud-based solutions attain the study goal, i.e., to endow the plant wall system with a digitalized soul.