METHOD AND SYSTEM FOR ACOUSTIC PASSTHROUGH

Organization Name

Apple Inc.

Inventor(s)

Prateek Murgai of San Francisco CA (US)

Jonathan D. Sheaffer of San Jose CA (US)

David M. Fischer of San Francisco CA (US)

John Woodruff of Santa Cruz CA (US)

Tony S. Verma of San Francisco CA (US)

METHOD AND SYSTEM FOR ACOUSTIC PASSTHROUGH - A simplified explanation of the abstract

This abstract first appeared for US patent application 18339914 titled 'METHOD AND SYSTEM FOR ACOUSTIC PASSTHROUGH

Simplified Explanation

The abstract describes a method performed by a first headset that cancels noise captured by its microphone and receives sound characteristics from a second headset worn by another user in the same environment. Here are the bullet points explaining the patent/innovation:

• The first headset uses noise cancellation technology to reduce background noise picked up by its microphone.
• The second headset, worn by a different user in the same environment, captures sound characteristics using its sensors.
• The second headset sends the sound characteristics to the first headset over a wireless communication link.
• Based on the received sound characteristics, the first headset selectively filters out certain sounds from the microphone signal.
• This allows the first user to focus on important sounds while minimizing distractions from the ambient environment.

Potential applications of this technology:

• Communication in noisy environments: This technology can be useful in situations where clear communication is essential, such as in crowded public spaces, construction sites, or busy offices.
• Virtual meetings and conferences: Participants wearing headsets can have improved audio quality by reducing background noise and focusing on the speaker's voice.
• Gaming and virtual reality: Gamers and VR users can have a more immersive experience by filtering out unwanted sounds and enhancing important audio cues.

Problems solved by this technology:

• Noise reduction: The noise cancellation feature helps to eliminate background noise, making it easier for users to hear and communicate effectively.
• Selective sound filtering: By selectively filtering out certain sounds based on received sound characteristics, users can focus on important audio information without being overwhelmed by irrelevant noise.

Benefits of this technology:

• Improved communication: Users can have clearer and more intelligible conversations by reducing background noise.
• Enhanced user experience: By filtering out unwanted sounds, users can have a more immersive and enjoyable experience in various applications, such as gaming or virtual reality.
• Increased productivity: In noisy work environments, this technology can help users concentrate better on their tasks and improve overall productivity.

Original Abstract Submitted

A method performed by a first headset worn by a first user, the method includes the first headset performing noise cancellation on a microphone signal captured by a microphone of the first headset that is arranged to capture sounds within an ambient environment in which the first user is located. The first headset receives, from a second headset that is being worn by a second user who is in the ambient environment and over a wireless communication link, at least one sound characteristic generated by at least one sensor of the second headset and passing through select sounds from the microphone signal based on the received sound characteristic.