SYSTEM AND METHOD FOR CONTROLLING MACHINE BASED ON COST OF HARVEST

Organization Name

Deere & Company

Inventor(s)

Stephen R. Corban of Geneseo IL (US)

Mario L. Donini of Bettendorf IA (US)

Kent S. Brown of Sherrard IL (US)

Adam J. Donohoe of Bettendorf IA (US)

SYSTEM AND METHOD FOR CONTROLLING MACHINE BASED ON COST OF HARVEST - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240008401 titled 'SYSTEM AND METHOD FOR CONTROLLING MACHINE BASED ON COST OF HARVEST

Simplified Explanation

The abstract describes a control system for an agricultural machine used for harvesting. The system includes a controller with a memory unit and a processor, as well as a fuel sensor, a grain loss sensor, and user controls. The memory unit stores instructions that allow the control system to receive inputs such as fuel rate, grain loss amount, and preset cost values from the user controls. These inputs are processed to determine the current cost of the harvest operation, which is then outputted during the operation.

• The control system is designed for an agricultural machine used in harvesting.
• It includes a controller with a memory unit and a processor.
• The system has a fuel sensor to measure the rate of fuel consumption.
• It also has a grain loss sensor to measure the amount of grain loss during the operation.
• There are user controls that allow the user to input preset cost values.
• The memory unit stores instructions that enable the control system to receive and process inputs.
• The inputs include fuel rate, grain loss amount, and preset cost values.
• The control system calculates the current cost of the harvest operation based on these inputs.
• The current cost of the harvest operation is then outputted during the operation.

Potential applications of this technology:

• Precision agriculture: The control system can help optimize the harvest operation by providing real-time cost information, allowing farmers to make informed decisions.
• Cost management: By accurately calculating the current cost of the harvest operation, the control system can help farmers track and manage their expenses more effectively.

Problems solved by this technology:

• Inefficient cost tracking: Traditional methods of tracking costs during a harvest operation may be time-consuming and prone to errors. The control system automates this process, providing accurate and real-time cost information.
• Lack of cost optimization: Without real-time cost information, farmers may not be able to optimize their harvest operations to minimize expenses. The control system helps address this issue by providing cost data during the operation.

Benefits of this technology:

• Improved decision-making: The control system provides farmers with real-time cost information, enabling them to make informed decisions to optimize their harvest operations.
• Cost savings: By tracking and managing costs more effectively, farmers can identify areas of inefficiency and make adjustments to reduce expenses.
• Increased productivity: With accurate cost information, farmers can identify and address issues such as fuel inefficiency or excessive grain loss, leading to improved productivity.

Original Abstract Submitted

a control system of an agricultural machine for performing a harvest operation includes a controller having a memory unit and a processor. the control system also includes a fuel sensor, a grain loss sensor and at least one user control of a plurality of user controls disposed in communication with the controller. the memory unit includes a plurality of instructions stored thereon that, in response to execution by the processor, causes the control system to receive a plurality of inputs via the controller including the rate of fuel from the fuel sensor, the amount of grain loss from the grain loss sensor, and one or more preset cost values from the at least one user control, process the plurality of inputs to determine a current cost of harvest value, and output a current cost of harvest value during the harvest operation.