US20260088009
2026-03-26
Physics
G10H1/0025
The described electronic apparatus is designed to generate personalized sounds by leveraging an artificial intelligence (AI) model. It features at least one processor and memory that stores instructions to execute various tasks. These tasks include obtaining parameter values that reflect sound characteristics, generating prompts based on these values, and using the AI model to create sounds that embody these characteristics. The generated sounds are then transmitted to external devices.
Key functionalities involve obtaining parameter values that may include environmental characteristics, sound type, user music preferences, and event sensing. The apparatus can also interact with external music applications to gather user preferences. By integrating these inputs, it creates a feature vector that guides the AI model in producing personalized sounds. The system ensures that the sound is tailored to the user's environment and preferences, enhancing the overall user experience.
The process begins with collecting various parameter values, which are then used to generate a prompt for the AI model. The AI model processes this prompt along with the user's music preference vector to create personalized sounds. A similarity score is determined for multiple generated sounds against the user's situational feature vector. The sound with the highest similarity score is selected and transmitted to the appropriate external device.
Noise reduction is achieved by applying a Gaussian distribution to the data, ensuring a clean sound output. The system also evaluates the speaker performance of multiple external devices and selects the one with superior performance for sound transmission. Additionally, sound transmission is optimized based on conditions such as the presence of a userβs terminal device within a specific space.
The apparatus and its control methods can be adapted and modified in various forms. While specific embodiments are detailed, the scope of the technology includes potential modifications and alternative configurations. The descriptions provided aim to convey a comprehensive understanding of the technology to those skilled in the art, without limiting its application to the described embodiments.