ACTIVATION FORCE DETECTED VIA NEUROMUSCULAR-SIGNAL SENSORS OF A WEARABLE DEVICE, AND SYSTEMS AND METHODS OF USE THEREOF

Organization Name

META PLATFORMS TECHNOLOGIES, LLC

Inventor(s)

Peter Andrew Matsimanis of Menlo Park CA (US)

Tahir Turan Caliskan of Lund (SE)

Pascal Alexander Bentioulis of Malmo (SE)

[[:Category:Per-Erik Bergstr�m of Malmo (SE)|Per-Erik Bergstr�m of Malmo (SE)]][[Category:Per-Erik Bergstr�m of Malmo (SE)]]

Igor Gurovski of Mountain View CA (US)

ACTIVATION FORCE DETECTED VIA NEUROMUSCULAR-SIGNAL SENSORS OF A WEARABLE DEVICE, AND SYSTEMS AND METHODS OF USE THEREOF - A simplified explanation of the abstract

This abstract first appeared for US patent application 18501761 titled 'ACTIVATION FORCE DETECTED VIA NEUROMUSCULAR-SIGNAL SENSORS OF A WEARABLE DEVICE, AND SYSTEMS AND METHODS OF USE THEREOF

Simplified Explanation

The patent application describes methods and systems for providing a force dimension to interface elements using wearable devices with EMG sensors.

• Wearable device with EMG sensors is connected to an activatable device with a mechanical user interface element.
• Data from EMG sensors is obtained when the user interface element is activated.
• The system determines if the activation force meets predefined criteria.
• If the force meets the criteria, it executes corresponding functions of the user interface element.

Key Features and Innovation

• Integration of EMG sensors in wearable devices for force dimension feedback.
• Determination of activation force criteria for user interface elements.
• Execution of functions based on the force criteria.

Potential Applications

The technology can be applied in:

• Virtual reality gaming controllers.
• Prosthetic limbs with force feedback.
• Rehabilitation devices for physical therapy.

Problems Solved

• Providing real-time force feedback for user interface elements.
• Enhancing user experience in interactive devices.
• Improving control and precision in device interactions.

Benefits

• Enhanced user engagement and immersion.
• Improved accuracy and control in device interactions.
• Potential for new applications in various industries.

Commercial Applications

• Potential commercial uses include gaming peripherals, medical devices, and rehabilitation equipment.
• Market implications include improved user experience leading to higher customer satisfaction and potential for new product development.

Prior Art

Readers can explore prior art related to EMG sensors in wearable devices, force feedback systems, and user interface technologies.

Frequently Updated Research

Stay updated on research related to EMG sensor technology advancements, force feedback systems, and user interface innovations.

Questions about Force Dimension Technology

How does the integration of EMG sensors enhance user interaction with interface elements?

The integration of EMG sensors allows for real-time feedback on the force applied by users, improving control and precision in interactions.

What are the potential future advancements in force dimension technology using wearable devices?

Future advancements may include more sophisticated algorithms for force detection, integration with AI systems for adaptive feedback, and miniaturization of sensors for broader applications.

Original Abstract Submitted

The various implementations described herein include methods and systems for providing a force dimension to interface elements. In one aspect, a method includes (i) communicatively coupling a wearable device that includes electromyography (EMG) sensors with an activatable device that includes a mechanical user interface element; (ii) in accordance with an activation of the user interface element, obtaining data from the EMG sensors that corresponds to the activation; (iii) determining, based on the data from the EMG sensors, whether the activation includes an activation force that meets predefined criteria; (iv) in accordance with a determination that the activation force meets the predefined criteria, causing execution of a first function corresponding to the user interface element; and (v) in accordance with a determination that the activation force meets the predefined criteria, causing execution of a second function corresponding to the user interface element.