Irrigation is a need in the cities, in th gardens and of course in the agricoltural plants.
From one side iirrigation of public and private lawns is becoming more and more an economic burden for society and a source of environmental concern due to the high-water consumption it entails.
On the other side according to the New York State Department of Enviromental Conservation trees and green areas creates cooler environment through the process of evotranspiration, generating a positive balance between water used for irrigation and energy saving.
The actual contest of temperature increasing is requiring more and more irrigation in public parks and private garden with an increasing risk of water scarcity in medium terms.
Since “each drop of water counts” the challenge for the irrigation manufacturer is to provide the exact amount of water needed by the plants. Currently irrigation controllers only take in account a small number of general factors to allow users to create their watering programs, which makes the irrigation still inaccurate
The challenge is to develop and manufacture an intelligent system able to monitor and decide irrigation cycles in an accurate, precise and easy to use way.
With RAINOLVE we want to realize the most evolved, simple and cost-effective irrigation control system on the market, targeting landscape and municipal irrigation systems.
It will be the first multi sensor intelligent irrigation controller coupled with a cloud-based platform with vast botanical and agronomical database and connected with weather forecast services.
Thanks to these inputs, AI will calculate and check the exact plant needs in function of site conditions.
The result of RAINOLVE will be an annual save of water then can be estimated in 350-450 liters per square meter of grass watered with sprinklers, depending on the climate area.
The dissemination program will enlarge the actual base of customers and will open new segment of market to the company, such as income coming from exploitation of data and performances of the platform.