MODULAR UNIT CELL DEVICES CONFIGURED TO BE INTEGRATED IN VARIOUS WEARABLE DEVICES, AND METHODS OF USE THEREOF

Organization Name

meta platforms technologies, llc

Inventor(s)

Nicholas Roy Corson of Woodinville WA (US)

David Rother Dobbs of Bothell WA (US)

MODULAR UNIT CELL DEVICES CONFIGURED TO BE INTEGRATED IN VARIOUS WEARABLE DEVICES, AND METHODS OF USE THEREOF - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240184374 titled 'MODULAR UNIT CELL DEVICES CONFIGURED TO BE INTEGRATED IN VARIOUS WEARABLE DEVICES, AND METHODS OF USE THEREOF

Simplified Explanation

The wearable device described in the patent application includes two unit cells with haptic-feedback generators, positioned adjacent to each other and connected by an adjustable connection. A processor controls the size and position of the haptic-feedback generators to provide different haptic feedback experiences.

• The wearable device includes two haptic-feedback generators in separate unit cells.
• The connection between the unit cells is adjustable to move the haptic-feedback generators.
• The processor can adjust the size and position of the haptic-feedback generators to provide different haptic feedback sensations.

Potential Applications

This technology could be applied in various fields such as:

• Virtual reality and gaming for enhanced user experience.
• Healthcare for remote patient monitoring with tactile feedback.
• Fitness and sports training for real-time feedback on performance.

Problems Solved

This technology addresses the following issues:

• Limited haptic feedback options in wearable devices.
• Lack of customizable haptic feedback experiences.
• Inability to adjust haptic feedback intensity and position.

Benefits

The benefits of this technology include:

• Enhanced user experience with customizable haptic feedback.
• Improved performance in virtual reality and gaming applications.
• Better patient monitoring and feedback in healthcare settings.

Potential Commercial Applications

This technology could be commercially benefit in:

• Consumer electronics industry for wearable devices.
• Healthcare sector for medical devices.
• Entertainment industry for gaming peripherals.

Possible Prior Art

One possible prior art for this technology could be the development of adjustable haptic feedback systems in gaming controllers or wearable devices.

Unanswered Questions

How does this technology impact battery life in wearable devices?

The patent application does not provide information on the potential impact of this technology on battery life. It would be important to understand if the adjustments made by the processor have any significant effect on power consumption.

Are there any limitations to the range of motion for the haptic-feedback generators?

The patent application does not specify any limitations on the range of motion for the haptic-feedback generators. It would be essential to know if there are any restrictions on how far the generators can be moved for providing haptic feedback.

Original Abstract Submitted

a wearable device comprises, a first unit cell that includes a haptic-feedback generator and the haptic-feedback generator is located at a first position on the wearable device. the device includes a second unit cell that includes another haptic-feedback generator, the other haptic-feedback generator is located at a second position that is adjacent to the first position. the device includes a connection between the first unit cell and the second unit cell, the connection being adjustable to move the first unit cell away from the first position or the second unit cell away from the second position. the device also includes a processor that is configured to: cause a size adjustment to either the haptic-feedback generator or the other haptic-feedback generator to provide, a first haptic feedback, and cause a positional adjustment, via the connection, to move the haptic-feedback generator away from the first position to provide a second haptic feedback.