Shure Acquisition Holdings, Inc. (20240381047). DIRECTIONALLY DEPENDENT ACOUSTIC STRUCTURE FOR AUDIO PROCESSING RELATED TO AT LEAST ONE MICROPHONE SENSOR simplified abstract

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DIRECTIONALLY DEPENDENT ACOUSTIC STRUCTURE FOR AUDIO PROCESSING RELATED TO AT LEAST ONE MICROPHONE SENSOR

Organization Name

Shure Acquisition Holdings, Inc.

Inventor(s)

Daniel Law of Glencoe IL (US)

Michael Lester of Buena Vista CO (US)

DIRECTIONALLY DEPENDENT ACOUSTIC STRUCTURE FOR AUDIO PROCESSING RELATED TO AT LEAST ONE MICROPHONE SENSOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240381047 titled 'DIRECTIONALLY DEPENDENT ACOUSTIC STRUCTURE FOR AUDIO PROCESSING RELATED TO AT LEAST ONE MICROPHONE SENSOR

The patent application discusses techniques for providing a directionally dependent acoustic structure for audio processing related to at least one microphone sensor.

  • Transforming an augmented audio signal defined by a directionally dependent acoustic structure positioned proximate to at least one microphone sensor into at least one audio data object set.
  • Inputting the audio data object set to a model configured to generate at least one spatialization data structure indicative of spatialization information for at least one audio source located within the audio environment.
  • Generating audio processing data based on the spatialization data structure.

Potential Applications: - Audio processing in virtual reality environments. - Spatial audio rendering for immersive gaming experiences. - Noise cancellation in directional audio recording.

Problems Solved: - Enhancing spatial audio perception. - Improving audio quality in multi-source environments.

Benefits: - Enhanced user experience in virtual reality and gaming. - Improved audio clarity and directionality. - Enhanced noise cancellation capabilities.

Commercial Applications: Title: "Directionally Dependent Acoustic Structure for Enhanced Audio Processing" This technology could be used in virtual reality headsets, gaming consoles, audio recording equipment, and noise-canceling headphones.

Questions about the technology: 1. How does this technology improve spatial audio perception? 

  - This technology enhances spatial audio perception by utilizing directionally dependent acoustic structures to accurately capture and render audio from different sources within an environment.

2. What are the potential applications of this technology beyond virtual reality and gaming? 

  - This technology could also be applied in areas such as teleconferencing, surveillance systems, and live event audio recording.


Original Abstract Submitted

techniques for providing a directionally dependent acoustic structure for audio processing related to at least one microphone sensor are discussed herein. examples may include transforming an augmented audio signal defined by a directionally dependent acoustic structure positioned proximate to at least one microphone sensor into at least one audio data object set, inputting the at least one audio data object set to a model configured to generate at least one spatialization data structure indicative of spatialization information for at least one audio source located within the audio environment, and generating audio processing data based at least in part on the at least one spatialization data structure.

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