METHODS AND SYSTEMS FOR IRRIGATION AND CLIMATE CONTROL

Organization Name

Rain Bird Corporation

Inventor(s)

Pelin Ersavas of Montrose CA (US)

Bulut F. Ersavas of Montrose CA (US)

Semih Pekol of Istanbul (TR)

Thomas Devol of Chico CA (US)

METHODS AND SYSTEMS FOR IRRIGATION AND CLIMATE CONTROL - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240012375 titled 'METHODS AND SYSTEMS FOR IRRIGATION AND CLIMATE CONTROL

Simplified Explanation

Methods and systems are provided for monitoring and controlling irrigation and climate conditions in landscapes (such as municipal parks, gardens, and sports fields) and agricultural environments (such as open agricultural fields, greenhouses, and other sites growing crops).

• The patent application describes techniques for monitoring and controlling irrigation and climate conditions in various types of landscapes and agricultural environments.
• The invention aims to provide efficient and effective management of irrigation and climate control to optimize plant growth and minimize water usage.
• The system includes sensors to monitor various environmental parameters such as temperature, humidity, soil moisture, and sunlight intensity.
• The collected data is analyzed and used to determine the optimal irrigation schedule and climate control settings.
• The system can automatically adjust irrigation levels, activate or deactivate climate control devices, and provide real-time alerts and notifications to users.
• The technology can be applied to a wide range of landscapes, including municipal parks, gardens, and sports fields, as well as agricultural environments such as open fields and greenhouses.
• The system helps address the challenges of water conservation and efficient resource management in landscaping and agriculture.
• Potential applications of this technology include public parks, golf courses, residential gardens, and commercial farming operations.
• The technology solves the problem of inefficient irrigation practices and inadequate climate control, leading to water waste and suboptimal plant growth.
• By providing real-time monitoring and intelligent control, the system ensures that irrigation and climate conditions are optimized for plant health and water conservation.
• The benefits of this technology include improved plant growth and yield, reduced water consumption, cost savings, and environmental sustainability.

Original Abstract Submitted

methods and systems are provided for monitoring and controlling irrigation and climate conditions in landscapes (such as, e.g., municipal parks, gardens, and sports fields) and agricultural environments (such as, e.g., open agricultural fields, greenhouses, and other sites growing crops).