METHOD FOR DISPLAYING GRAPHICAL DATA ON AN ELECTRONIC DISPLAY

Organization Name

DEERE & COMPANY

Inventor(s)

Andrew L. Noll of Dubuque IA (US)

Hanna J. Wickman of Grimes IA (US)

Joy Vuijk of Johnston IA (US)

Jenna L. Rettenberger of Dubuque IA (US)

METHOD FOR DISPLAYING GRAPHICAL DATA ON AN ELECTRONIC DISPLAY - A simplified explanation of the abstract

This abstract first appeared for US patent application 18594743 titled 'METHOD FOR DISPLAYING GRAPHICAL DATA ON AN ELECTRONIC DISPLAY

Simplified Explanation: An electronic data processor determines the display mode based on user input and sensor states, displaying icons in different containers based on priority levels and sizes.

Key Features and Innovation:

• Determining display mode based on user input and sensor states
• Populating containers with icons based on priority levels
• Resizing containers based on display mode
• Displaying icons in conjunction with different containers based on display mode

Potential Applications: This technology can be applied in automotive displays, smart devices, and other electronic systems where prioritizing information is crucial.

Problems Solved: This technology addresses the challenge of efficiently displaying information based on priority levels and user input in electronic systems.

Benefits:

• Enhanced user experience with prioritized information display
• Efficient utilization of screen space based on priority levels
• Customizable display modes for different user preferences

Commercial Applications: The technology can be utilized in automotive infotainment systems, smart home devices, and industrial control panels to improve user interaction and information display.

Prior Art: Prior art related to this technology may include research on user interface design, display prioritization algorithms, and sensor data integration in electronic systems.

Frequently Updated Research: Researchers may be exploring advancements in user interface design, sensor data processing, and display optimization techniques in electronic systems.

Questions about the Technology: 1. How does the electronic data processor determine the display mode based on user input and sensor states? 2. What are the potential challenges in resizing containers and displaying icons based on priority levels?

Original Abstract Submitted

An electronic data processor is configured to determine the display mode based on user input comprising user-inputted control states, user-inputted actuator states and machine-provided sensor states provided by reading a vehicle data bus or sensor data communication. In a first mode, the electronic data processor is configured to populate the tell-tale container of a first size with primary priority icons and secondary priority icons. In the second mode, the electronic data processor is configured to populate the critical ribbon container of a second size solely with primary priority icons, where the first size is greater than the second size by a first size difference, and populating an app container in the second residual container with an application. Further, the electronic data processor is configured to display the populated tell-tale container in the first mode in conjunction with the first residual container or the populated critical ribbon in the second mode in conjunction with the second residual container responsive based on the determination of the display mode, wherein the first residual container is resized into the second residual container of greater size than the first residual information.