SYSTEMS AND METHODS FOR UPDATING A CALIBRATION OF A HARVESTER FLOW RATE SENSOR DURING UNLOADING OF A CROP MATERIAL

Organization Name

CNH Industrial America LLC

Inventor(s)

Bart M.A. Missotten of Herent (BE)

Cory Douglas Hunt of Millersville PA (US)

SYSTEMS AND METHODS FOR UPDATING A CALIBRATION OF A HARVESTER FLOW RATE SENSOR DURING UNLOADING OF A CROP MATERIAL - A simplified explanation of the abstract

This abstract first appeared for US patent application 18099717 titled 'SYSTEMS AND METHODS FOR UPDATING A CALIBRATION OF A HARVESTER FLOW RATE SENSOR DURING UNLOADING OF A CROP MATERIAL

Simplified Explanation: The patent application describes a system for calibrating a harvester using a yield sensor to detect crop material flow and a wireless communication device to receive weight data from a transport vehicle. A computing system then calculates a yield sensor calibration update based on the comparison between the flow rate of crop material and the weight change rate.

• Key Features and Innovation:

   - System for calibrating a harvester using yield sensor and wireless communication device.
   - Calculation of yield sensor calibration update based on flow rate and weight change rate.
   - Integration of data from transport vehicle to improve calibration accuracy.

Potential Applications: The technology can be applied in agricultural settings to optimize harvesting processes by ensuring accurate calibration of harvesters. It can also be used in transportation logistics to track crop weights and improve efficiency.

Problems Solved: - Inaccurate calibration of harvesters leading to inefficient harvesting processes. - Lack of real-time data integration between harvesters and transport vehicles. - Difficulty in determining the optimal calibration settings for harvesters.

Benefits: - Improved efficiency and accuracy in harvesting operations. - Real-time data integration for better decision-making. - Enhanced productivity and cost savings in agricultural and transportation industries.

Commercial Applications: The technology can be utilized by agricultural companies, farm equipment manufacturers, and transportation logistics firms to enhance operational efficiency, reduce waste, and improve overall productivity in the harvesting and transportation of crops.

Prior Art: Prior research in the field of agricultural technology and precision farming may provide insights into similar systems or methods for calibrating harvesters using yield sensors and wireless communication devices.

Frequently Updated Research: Researchers in the field of precision agriculture and smart farming continue to explore innovative technologies for optimizing harvesting processes and improving crop yield through advanced sensor systems and data analytics.

Questions about the Technology: 1. How does the system ensure accurate calibration of the harvester based on the data received from the yield sensor and transport vehicle? 2. What are the potential challenges in implementing this technology on a large scale in agricultural and transportation industries?

Original Abstract Submitted

In one aspect, the present subject matter is directed to a system for calibrating a harvester. The system includes a yield sensor configured to detect a flow of crop material discharged from the harvester and output data indicative of a flow rate of the crop material, and a wireless communication device configured to receive a transport vehicle communication from a transport vehicle. The transport vehicle communication includes a weight of a crop material in a transport receptacle. The system also includes a computing system in data communication with the wireless communication device. The computing system is configured to determine a time rate of change of the weight and is further configured to determine a yield sensor calibration update based on a time delay determination between the flow rate of the crop materials and the time rate of change of the weight.