Systems, articles, and methods for human-electronics interfaces

Inactive Publication Date: 2015-02-26
META PLATFORMS TECH LLC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0023]The wearable EMG device of the system may further include a non-transitory processor-readable storage medium communicatively coupled to the first processor, wherein the non-transitory processor-readable storage medium stores at least a set of gesture identification flags. The non-transitory processor-readable storage medium of the wearable EMG device may store pro

Problems solved by technology

However, the convenience of being able to carry a portable electronic device has also introduced the inconvenience of having one's hand(s) encumbered by the device itself.
Each command that is output by the wearable EMG device has already been formulated to control (and is therefore limited to exclusively controlling) a specific function of a specific receiving device prior to being transmitted by the wearable EMG device.
Thus, existing proposals for human-electronics interfaces that employ EMG are limited in their versatility be

Method used

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  • Systems, articles, and methods for human-electronics interfaces
  • Systems, articles, and methods for human-electronics interfaces
  • Systems, articles, and methods for human-electronics interfaces

Examples

Experimental program
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Example

[0081]As an example, the at least one EMG sensor may include a first EMG sensor and at least a second EMG sensor, and muscle activity of the user may be sensed, measured, transduced or otherwise detected by the first EMG sensor and by at least the second EMG sensor (at 301). In this case at least a first signal is provided from the first EMG sensor to the processor of the wearable EMG device in response to the detected muscle activity (at 302) and at least a second signal is provided from at least the second EMG sensor to the processor of the wearable EMG device in response to the detected muscle activity (at 302). The processer of the wearable EMG device may then determine (at 303) a gesture identification flag based at least in part on both the at least a first signal provided from the first EMG sensor to the processor and the at least a second signal provided from at least the second EMG sensor to the processor.

[0082]As previously described, in some applications it may be advanta...

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Abstract

Human-electronics interfaces in which a wearable electromyography (“EMG”) device is operated to control virtually any electronic device are described. In response to detected muscle activity and/or motions of a user, the wearable EMG device transmits generic gesture identification flags that are not specific to the particular electronic device(s) being controlled. An electronic device being controlled is programmed with user-definable instructions for how to interpret and respond to the gesture identification flags.

Description

BACKGROUND[0001]1. Technical Field[0002]The present systems, articles, and methods generally relate to human-electronics interfaces and particularly relate to electromyographic control of electronic devices.[0003]2. Description of the Related ArtWearable Electronic Devices[0004]Electronic devices are commonplace throughout most of the world today. Advancements in integrated circuit technology have enabled the development of electronic devices that are sufficiently small and lightweight to be carried by the user. Such “portable” electronic devices may include on-board power supplies (such as batteries or other power storage systems) and may be designed to operate without any wire-connections to other electronic systems; however, a small and lightweight electronic device may still be considered portable even if it includes a wire-connection to another electronic system. For example, a microphone may be considered a portable electronic device whether it is operated wirelessly or throug...

Claims

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Application Information

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IPC IPC(8): G06F3/01A61B5/0488
CPCA61B5/0488G06F3/015A61B5/6829A61B5/1122A61B5/6824G06F3/017A61B5/389
Inventor BAILEY, MATTHEWLAKE, STEPHENGRANT, AARON
Owner META PLATFORMS TECH LLC
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