ELECTRONIC DEVICE CAPABLE OF CHANGING STATE AND METHOD FOR OPERATING THE SAME

Smart overview of the Invention

The electronic device described features a flexible display capable of expanding and contracting, enhancing user interaction through adaptive layout optimization. This device utilizes artificial intelligence to determine user patterns and optimize the display layout based on these patterns and the current display size. The combination of these technologies aims to improve usability and user satisfaction by providing a dynamic user interface that adapts to varying use environments and scenarios.

Background

As electronic devices evolve, the demand for more versatile and efficient functionalities increases. Traditional devices with fixed screen sizes are being overshadowed by innovative designs like slidable screens, which offer adjustable display sizes. These advancements cater to diverse user needs, allowing for simple tasks on a smaller screen and multitasking on a larger one. However, without adaptive layout optimization, the benefits of a slidable screen could be limited, necessitating solutions that dynamically adjust the interface in response to screen changes.

Functional Components

The device comprises a flexible display module, memory for storing instructions, and at least one processor that executes these instructions. The processor utilizes two artificial intelligence models: the first identifies user patterns based on environmental use, while the second optimizes the layout according to these patterns and the current display size. This approach ensures that the user interface remains intuitive and efficient, regardless of how the device is being used or the display size at any given time.

Methodology

The method for operating the device involves several key operations. Initially, the device determines usage patterns through a first AI model, considering the user's environment. It then detects changes in the display size as the flexible display expands or contracts. Using a second AI model, the device performs layout optimization based on these patterns and the display size. This methodology supports efficient screen space usage and enhances user experience by adapting to the user's intentions and context-specific scenarios.

Implications and Benefits

By implementing these technologies, the electronic device significantly enhances usability and user satisfaction. It provides an adaptive user interface that responds to user intentions and environmental changes, offering a seamless and intuitive experience. Moreover, the device informs users of interface changes through a visible layout optimization queue, ensuring they are aware of adjustments being made. This innovation not only maximizes the potential of slidable devices but also sets a precedent for future developments in electronic device interfaces.