20240056762. AUDIO PROCESSING METHOD, WIRELESS EARPHONE, AND COMPUTER-READABLE MEDIUM simplified abstract (GUANGDONG OPPO MOBILE TELECOMMUNICATIONS CORP., LTD.)
Contents
AUDIO PROCESSING METHOD, WIRELESS EARPHONE, AND COMPUTER-READABLE MEDIUM
Organization Name
GUANGDONG OPPO MOBILE TELECOMMUNICATIONS CORP., LTD.
Inventor(s)
AUDIO PROCESSING METHOD, WIRELESS EARPHONE, AND COMPUTER-READABLE MEDIUM - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240056762 titled 'AUDIO PROCESSING METHOD, WIRELESS EARPHONE, AND COMPUTER-READABLE MEDIUM
Simplified Explanation
The abstract describes an audio processing method, a wireless earphone, and a computer-readable medium. The method is performed by the wireless earphone and involves determining the spatial position parameter of the earphone based on a wireless signal from a sound source device. This parameter indicates the spatial position relationship between the earphone and the sound source device. A target spatial audio parameter is determined based on the spatial position parameter, and a to-be-played audio signal is determined based on the target spatial audio parameter and the audio signal from the sound source device.
- The wireless earphone determines its spatial position in relation to a sound source device.
- Based on this spatial position, the earphone determines a target spatial audio parameter.
- The earphone then determines the audio signal to be played based on the target spatial audio parameter and the audio signal from the sound source device.
Potential Applications:
- Enhanced audio experience for wireless earphone users.
- Improved spatial audio localization for virtual reality or augmented reality applications.
- Personalized audio playback based on the user's spatial position.
Problems Solved:
- Overcoming limitations of traditional stereo audio playback by incorporating spatial audio parameters.
- Addressing the challenge of accurately determining the spatial position of a wireless earphone in relation to a sound source device.
Benefits:
- Immersive audio experience with enhanced spatial audio localization.
- Personalized audio playback based on the user's position.
- Improved audio quality and realism for virtual reality or augmented reality applications.
Original Abstract Submitted
an audio processing method, a wireless earphone, and a non-transitory computer-readable medium are provided. the method is performed by the wireless earphone. based on a wireless signal transmitted from a sound source device, a spatial position parameter of the wireless earphone is determined, where the spatial position parameter is used to indicate a spatial position relationship between the wireless earphone and the sound source device. a target spatial audio parameter is determined by determining, based on the spatial position parameter, a spatial audio parameter of the wireless earphone. a to-be-played audio signal is determined, based on the target spatial audio parameter and an audio signal outputted by the sound source device.