Apple researching wireless earphones with bone conduction noise cancelling tech
According to a patent application published on Thursday, Apple is looking into advanced bone conduction technology that would enhance voice communications in an unannounced wireless earphone system.
Source: USPTO
Published by the U.S. Patent and Trademark Office, Apple's patent application for a "System and method of improving voice quality in a wireless headset with untethered earbuds of a mobile device" describes a system in which voice input is accepted by one of two earbuds and is passed along to a mobile device based on perceived quality. A variety of sensors, including an inertial sensor monitoring vibrations in a user's bone structure, help inform which signal to use.
Unlike traditional audio-based noise cancellation systems, Apple's version accounts for noise and wind level detected by internal earbud microphones and combines that information with accelerometer output, battery level and earbud position data. With distinct earbud subsystems at work, the design is capable of monitoring and selecting from two signal sources before applying a final noise reduction operation four outgoing audio.
In practice, both earbuds are outfitted with multiple onboard microphones, accelerometers, batteries, communications hardware and logic for audio signal processing. Noise, wind levels and an acoustic signal, in this case a user's voice, are captured by each earbud. At the same time, the accelerometer detects vibrations produced by a user's vocal chords as they modulate through bone and tissue, thus deciphering voiced speech and pitch.
In some embodiments, a first earbud sends acoustic information to a host iPhone after determining its noise and wind levels to be lower than those detected by a second earbud. Alternatively, a first earbud can transmit its acoustic signal and accelerometer data when the second earbud's accelerometer output is lower by a predetermined threshold. Voiced and unvoiced speech are respectively detected by the onboard accelerometer and microphone array.
The system also uses acoustic and inertial sensor data to determine if an earbud is actually in a user's ear, which would in turn default voice output to the second earbud. Power considerations are taken into account during the determination process to ensure uninterrupted service.
Today's patent illustrates ongoing work in the area of bone conduction technology, as Apple filed a similar application for accelerometer-assisted noise cancellation last September. The company has yet to bring such a device to market and its most advanced earphone designs still rely on cables, not including devices developed by Beats.
Apple's bone conduction wireless earbud patent application was first filed for in February 2014 and credits Sorin V. Dusan, Baptiste P. Paquier and Aram M. Lindahl as its inventors.
Source: USPTO
Published by the U.S. Patent and Trademark Office, Apple's patent application for a "System and method of improving voice quality in a wireless headset with untethered earbuds of a mobile device" describes a system in which voice input is accepted by one of two earbuds and is passed along to a mobile device based on perceived quality. A variety of sensors, including an inertial sensor monitoring vibrations in a user's bone structure, help inform which signal to use.
Unlike traditional audio-based noise cancellation systems, Apple's version accounts for noise and wind level detected by internal earbud microphones and combines that information with accelerometer output, battery level and earbud position data. With distinct earbud subsystems at work, the design is capable of monitoring and selecting from two signal sources before applying a final noise reduction operation four outgoing audio.
In practice, both earbuds are outfitted with multiple onboard microphones, accelerometers, batteries, communications hardware and logic for audio signal processing. Noise, wind levels and an acoustic signal, in this case a user's voice, are captured by each earbud. At the same time, the accelerometer detects vibrations produced by a user's vocal chords as they modulate through bone and tissue, thus deciphering voiced speech and pitch.
In some embodiments, a first earbud sends acoustic information to a host iPhone after determining its noise and wind levels to be lower than those detected by a second earbud. Alternatively, a first earbud can transmit its acoustic signal and accelerometer data when the second earbud's accelerometer output is lower by a predetermined threshold. Voiced and unvoiced speech are respectively detected by the onboard accelerometer and microphone array.
The system also uses acoustic and inertial sensor data to determine if an earbud is actually in a user's ear, which would in turn default voice output to the second earbud. Power considerations are taken into account during the determination process to ensure uninterrupted service.
Today's patent illustrates ongoing work in the area of bone conduction technology, as Apple filed a similar application for accelerometer-assisted noise cancellation last September. The company has yet to bring such a device to market and its most advanced earphone designs still rely on cables, not including devices developed by Beats.
Apple's bone conduction wireless earbud patent application was first filed for in February 2014 and credits Sorin V. Dusan, Baptiste P. Paquier and Aram M. Lindahl as its inventors.
Comments
http://www.retrothing.com/2006/01/the_bone_fone_r.html
Wax in...wax out! Get Mr. Miyagi in the ads with a little digital trickery...
Meh. How about ear buds that actually stay in my ear.
The rest is earw...er...gravy.
https://www.google.com/search?tbo=p&tbm=pts&hl=en&q=bone+conduction+audio+inassignee:Google&num=10&qscrl=1&gws_rd=ssl
Apple's most recent filing is not their only one either.
https://www.google.com/search?tbo=p&tbm=pts&hl=en&q=bone+conduction+audio+inassignee:Apple&num=10&qscrl=1&gws_rd=ssl
In addition there's literally 100's from other companies. It's a minefield.
https://www.google.com/search?tbo=p&tbm=pts&hl=en&q=bone+conduction+audio&num=10&qscrl=1&gws_rd=ssl#q=bone+conduction+audio&hl=en&tbm=pts&start=40
I have never been a fan of wearing headphones or earplugs (I like to hear the world around even if it is a bunch of noise). However the mad rush to stick computer and electrical devices onto and into human bodies does concern me. If any of you have been paying attention to what happens when companies introduce products without the possibility of studying long term affects on our environment and personal health just to meet share holders expectations it is the public that ultimately pays the price. As much as I enjoy technology I am not so convinced that more devices make are lives better.
that's nice, dear.
let me know how that works for you on a plane. I'm sure those seated next to you will love your insistence on not using headphones with your music.
I guess this would alleviate the need to suck on the earphone wires that I see people doing so often. :-/