IN-VEHICLE SOUNDSCAPE AND MELODY GENERATION SYSTEM AND METHOD USING CONTINUOUSLY INTERPRETED SPATIAL CONTEXTUALIZED INFORMATION

Organization Name

Volvo Car Corporation

Inventor(s)

Jon Seneger of Monte Sereno CA (US)

Sihao Ding of Sunnyvale CA (US)

Peter Winzell of Mountain View CA (US)

IN-VEHICLE SOUNDSCAPE AND MELODY GENERATION SYSTEM AND METHOD USING CONTINUOUSLY INTERPRETED SPATIAL CONTEXTUALIZED INFORMATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240025416 titled 'IN-VEHICLE SOUNDSCAPE AND MELODY GENERATION SYSTEM AND METHOD USING CONTINUOUSLY INTERPRETED SPATIAL CONTEXTUALIZED INFORMATION

Simplified Explanation

The patent application describes a system and method for gathering input data related to the environmental context, occupant state, vehicle state, location, and noise condition of a vehicle. This data is used by an artificial intelligence system to generate a sound qualifier, which is then used by an audio generation module to synthesize a soundscape.

• The data input device is coupled to a vehicle and gathers input data related to the vehicle's surroundings, occupant state, vehicle state, location, and noise condition.
• The artificial intelligence system analyzes the gathered input data and generates a sound qualifier based on the environmental context, occupant state, vehicle state, and noise condition.
• The audio generation module receives the sound qualifier from the artificial intelligence system and synthesizes a soundscape based on the sound qualifier.

Potential applications of this technology:

• Automotive industry: This technology can be used in vehicles to enhance the driving experience by creating personalized soundscapes based on the vehicle's surroundings, occupant state, and noise condition.
• Entertainment industry: This technology can be used in virtual reality or augmented reality applications to create immersive audio experiences based on the user's environment and actions.
• Healthcare industry: This technology can be used in medical transportation vehicles to create a calming soundscape for patients based on their condition and the noise condition inside the vehicle.

Problems solved by this technology:

• Lack of personalized audio experiences in vehicles: This technology solves the problem of generic audio experiences in vehicles by creating personalized soundscapes based on the vehicle's surroundings, occupant state, and noise condition.
• Inadequate audio feedback in virtual reality or augmented reality applications: This technology solves the problem of limited audio feedback in virtual reality or augmented reality applications by creating immersive soundscapes based on the user's environment and actions.
• Lack of calming environments in medical transportation vehicles: This technology solves the problem of stressful environments in medical transportation vehicles by creating calming soundscapes based on the patient's condition and the noise condition inside the vehicle.

Benefits of this technology:

• Enhanced driving experience: This technology provides a personalized and immersive audio experience in vehicles, enhancing the overall driving experience.
• Improved immersion in virtual reality or augmented reality applications: This technology enhances the immersion in virtual reality or augmented reality applications by providing realistic and context-aware audio feedback.
• Enhanced patient comfort in medical transportation vehicles: This technology creates a calming environment for patients in medical transportation vehicles, improving their comfort and reducing stress.

Original Abstract Submitted

a system and method, including: a data input device coupled to a vehicle, wherein the data input device is operable for gathering input data related to one or more of an environmental context surrounding or within the vehicle, an occupant state within the vehicle, a vehicle state, a location of the vehicle, and a noise condition inside or outside of the vehicle; an artificial intelligence system coupled to the data input device, wherein the artificial intelligence system is operable for generating a sound qualifier based on the gathered input data related to the one or more of the environmental context surrounding or within the vehicle, the occupant state within the vehicle, the vehicle state, and the noise condition inside or outside of the vehicle; and an audio generation module operable for receiving the sound qualifier from the artificial intelligence system and synthesizing a soundscape based on the sound qualifier.